| 00:00 | Okay, so Technically this is the of the Third Badge three. Thank |
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| 00:24 | . Hold on. Okay, so this is the start of badge three |
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| 00:43 | badge three is mostly devoted to a discussion about carbonate play types. And |
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| 00:49 | it's a culmination culmination of everything we've about for the first two weekends. |
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| 00:54 | ? You're gonna see the application of from uh, grain types and sedimentary |
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| 01:00 | to die genesis to environments of deposition and things like that. And there's |
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| 01:09 | thing that we haven't formally talked about as part of the play type of |
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| 01:13 | . Right? There's three. There always three elements associated with the play |
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| 01:18 | . There's a reservoir. Obviously we about how you create or modify reservoir |
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| 01:23 | . There's a ceiling faces that you . And we talked about some of |
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| 01:26 | potential ceiling faces like evaporates. There's a way to entrap hydrocarbons. |
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| 01:32 | talk about other mechanisms later. The thing we need to talk about is |
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| 01:37 | source rocks. Alright, so before get into a formal discussion of carbonate |
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| 01:42 | , let's talk about carbonate source And let me tell you that when |
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| 01:47 | started this business many moons ago, thought carbonates could be a source |
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| 01:52 | Okay, everybody thought oil and gas from a shale until they realize that |
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| 01:59 | a minute. The only thing that organic material that's mature enough in a |
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| 02:04 | is a carbonate and then when people into typing or you know, contrasting |
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| 02:09 | geochemistry of the source rock with the of the oil or gas. They |
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| 02:14 | that this stuff has to be coming a carbonate source rock. Okay, |
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| 02:20 | carbonate source rocks are well established As you see here, there are |
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| 02:23 | critical element in play evaluation, Sometimes it's a die genesis that makes |
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| 02:28 | breaks the carbonate play by destroying reservoir . But sometimes it's the lack of |
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| 02:34 | good source rock in the basin that your potential for good play development. |
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| 02:39 | right. And you're going to see they're they're carbonates of source major hydrocarbon |
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| 02:45 | around the world. What's interesting about carbonate source rock is it actually has |
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| 02:50 | lower what we call T. C. Cut off. T. |
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| 02:53 | . C. Is total organic carbon we're going to define here in a |
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| 02:57 | as a proxy for determining the yield hydrocarbon from a source rock. And |
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| 03:06 | part of the reason for that lower . O. C. Cut off |
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| 03:09 | it's a more efficient generation generator of . It's made up of marine and |
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| 03:16 | algal material, which is comprised principally lipids. The same stuff that clogs |
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| 03:22 | arteries. That's lipids. Alright. the interesting thing about lipids is they |
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| 03:27 | break down a lot more efficiently into or gas compared to the wood. |
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| 03:32 | coli material that you normally get associated with the terrestrial shale or marine |
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| 03:38 | Okay, so the the reason why thought for a long time that that |
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| 03:48 | could not be source rocks. That back to this diagram That was published |
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| 03:53 | 1962. And Harry Gaiman worked at Research flat. It's actually the same |
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| 04:00 | that I worked at for eight years uh just might I always found this |
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| 04:06 | boggling that this paper even got Because what he's doing here is he's |
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| 04:11 | apples to oranges. All right. you can see he's he looked at |
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| 04:16 | plus shale samples from all over the and he just did the standard toC |
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| 04:22 | . Right? And he came up an average of a little bit under |
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| 04:28 | for the mean or average T. . C. For shales. And |
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| 04:33 | where the historical 1% T. C. cut off comes for a |
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| 04:37 | shale source rock. Okay. And he analyzed a little under 350 limestone |
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| 04:43 | from all over the world, except of comparing the same kinds of deposition |
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| 04:49 | , most of the shells are associated more bass channel settings, right, |
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| 04:55 | that gets pushed offshore into deeper Alright, so baseball shales, maybe |
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| 05:01 | associated with turbine sites and things like . What he did here with the |
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| 05:05 | stones is he was across the whole . Everything from a tidal flat to |
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| 05:10 | grain stone to a refill limestone to base in a limestone. Okay. |
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| 05:16 | so he averaged out the T. . c. for all those different |
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| 05:19 | and he came up with a .3 so .25 point a little under |
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| 05:26 | you can see where it falls in here. And he concluded on the |
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| 05:31 | of that, the carbonates have no rock potential. But it really was |
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| 05:35 | comparing apple storage is right. If compare some of his baseball limestone examples |
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| 05:43 | his baseball shales, they have comparable even higher T. O. |
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| 05:46 | Values. Alright, so like I , this poisoned industry for essentially almost |
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| 05:52 | decades wasn't until the late seventies the started to realize that wait a minute |
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| 05:58 | of these basins, as I the only thing they have source rock |
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| 06:02 | is to carbonate limestone, the Okay, so let me start this |
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| 06:11 | review by just refreshing your memory here some of the criteria that we use |
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| 06:16 | identify source rock interval. This applies the classics and carbonates, right? |
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| 06:21 | obviously need adequate T. O. . And whether it's oil prone or |
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| 06:26 | prone, I guess that the price depends on the commodity price, write |
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| 06:31 | history of the oil and gas business we go through these periods where we |
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| 06:35 | oil, we want gas, And we're willing to charge more for |
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| 06:39 | or the other. Um you I I'm not sure where we are |
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| 06:46 | now, I guess we're still probably oil prone because the price of oil |
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| 06:50 | higher than the equivalent for price of and then you need sufficient maturation |
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| 06:56 | right. If your basin doesn't get buried thermally, there's not a thermal |
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| 07:02 | in the basin, then you're not to generate any kind of source |
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| 07:06 | And then of course timing is everything respect to the generation of the oil |
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| 07:11 | gas and entrapment in a potential reservoir trap. Right? So, you |
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| 07:18 | , that's always that's always the risk any expiration is hoping that you've been |
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| 07:24 | to time this out, right? got your traps set up, you've |
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| 07:27 | the reservoir quality in place before the starts migrating into that potential reservoir. |
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| 07:33 | of course the other consideration is the pathway. Right? And then related |
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| 07:39 | this would be migration distance to Sometimes your potential reservoirs is tens of |
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| 07:45 | away from a potential kitchen. And not only do you have to worry |
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| 07:50 | the pathway of how you're going to it from the kitchen to the to |
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| 07:53 | reservoir, that you gotta worry about pathway. Alright, so again, |
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| 07:59 | to remind you, T. C. Measure total organic carbon, |
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| 08:02 | the amount of organic material in Iraq of petroleum yield. The other thing |
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| 08:09 | companies think about is organic matter Again, this depends on whether you |
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| 08:13 | your your source rock to be more prone or more oil prone. Uh |
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| 08:19 | you'll see in a minute. The rule of thumb is that the more |
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| 08:23 | shales, things that are derived from terrestrial organic material stuff that's moved offshore |
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| 08:32 | marine environment tends to be more gas and the carbonate organic material which comes |
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| 08:38 | the organisms that live in the water mostly tends to be more oil from |
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| 08:43 | . All right. And so in literature you'll hear people talk about the |
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| 08:48 | and types essentially this is another reflection the organic matter type and this is |
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| 08:54 | of the terminology that you'll see used the literature. What I've noticed is |
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| 08:59 | lot of companies have their own internal of characterizing these different carriage in |
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| 09:04 | But essentially in the marine setting, dealing with what we call marine algal |
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| 09:10 | the so called amorphous, where you quite tell what it is, but |
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| 09:13 | not terrestrial derived. These tend to , as I said for lipid related |
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| 09:18 | or oil prone, herbaceous or structured would e coli material, this is |
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| 09:24 | kind of stuff that makes up most the shale source rocks and these tend |
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| 09:29 | be generally gas prone. Alright, . We're gonna do a little exercise |
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| 09:35 | , just to sort of put this perspective here. Uh there are published |
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| 09:41 | technologies like level of organic metamorphoses, lom thermal alteration index. Uh these |
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| 09:50 | the technologies that people use to determine level of maturity for a potential source |
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| 09:57 | . Okay, so maybe somebody hold slide open while I go to the |
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| 10:01 | slide, we're gonna do a little here and just talk about how this |
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| 10:06 | gets applied to a potential example Of course, for this exercise, |
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| 10:13 | we want to know is where is potential source rock? So you can |
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| 10:16 | there's been one borehole penetration on the of this uh cross sectional view which |
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| 10:22 | based on regional seismic data. You see the carbonates and blue. You |
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| 10:27 | see the red would be the evaporated . The sand stones would be yellow |
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| 10:32 | the little dots. And then you see some of the Shelley sequences shown |
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| 10:36 | the light blue with the little horizontal . Okay, and so this being |
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| 10:44 | carbonate seminar. Right. We're interested potential reservoir source and seal relationships. |
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| 10:50 | what would you in for first of for potential reservoir based on this seismic |
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| 11:02 | ? Where's your carbonate carbonate right Right. What a bumps usually signify |
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| 11:09 | seismic, some sort of build up reef or stack reef complex. Some |
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| 11:18 | of build up. Okay, so , as we talked about some of |
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| 11:22 | seismic. Right, companies chase buildups there, hoping that part of that |
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| 11:28 | up is preserved ferocity. Okay. then what would be the likely trap |
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| 11:35 | your build ups with sitting on Yeah, that price. Right. |
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| 11:42 | don't they make good sealing faces. there, dense and it's hard to |
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| 11:47 | fluid through evaporate. Alright, so would essentially be what we call |
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| 11:51 | graphic trapping, right? We built topography, we've encased it in |
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| 11:57 | Of course you could argue about how or how shallow those evaporate deposits |
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| 12:01 | We talked about those different models last . Alright, so those two parts |
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| 12:09 | the story look pretty good. You got a potential reservoir, you |
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| 12:12 | the good trapping mechanism here. What's third question? Right, where's your |
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| 12:17 | rock? So let's just go through and and work some of this |
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| 12:21 | Right. You've sampled A and And C. And D. And |
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| 12:30 | can start with we can start with . Which is the evaporate, |
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| 12:35 | And what's the T. O. . for that evaporate? .05%. |
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| 12:40 | we can throw that out the Right? Because again, if you |
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| 12:43 | use the shale cut off right. 1% that Gaiman argued would be the |
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| 12:48 | for a good shale source rock that's near. Right? So throw that |
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| 12:53 | the window. All right, so what else do we have? Um |
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| 12:59 | can start with a the shell, good about that thermal alteration index is |
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| 13:09 | high. Right, That suggested you've the right temperature to cook it? |
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| 13:13 | with the limitation 0.5% T. C. Right? That's below the |
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| 13:19 | that you want to see for a shale source rock and then if you |
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| 13:24 | up to D the other shale, got great. T. O. |
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| 13:27 | . Right? 3%. But what's problem here? It's not only |
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| 13:35 | but if it was mature, how you get it into your reservoir? |
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| 13:39 | the problem? You'd have to do we call top load. You have |
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| 13:45 | bring it down from the top and go against pressure. Right? Go |
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| 13:54 | the Tennessee of when you cook stuff place. What's the tendencies tendencies want |
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| 13:59 | go up? Right, So, got two things working against you for |
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| 14:05 | for D. Right. It's not and you've got to go through a |
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| 14:11 | of that. Bright, gotta go against the gradient, right? To |
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| 14:17 | it into that reservoir. So, are you left with B which is |
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| 14:22 | the reef? Okay. Again, don't know what kind of reef systems |
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| 14:28 | are. All right. And there's there's no vertical scale here, but |
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| 14:34 | I Well, let's just leave it that. All right. So, |
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| 14:41 | is B .35%? All right, . Right. The thermal alteration index |
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| 14:49 | good. So, the question you know, is that capable of |
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| 14:56 | hydrocarbon or not? Alright. I a lot of people would say probably |
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| 15:02 | . Right, based on the shale . But if you walked away from |
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| 15:06 | relationship, you would have walked away some of the pinnacle reefs in the |
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| 15:10 | basin that were developed during the salary . All right. We haven't talked |
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| 15:16 | pinnacle reefs yet because there's no modern to these pinnacle reefs, but these |
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| 15:21 | reefs that develop out into the but not in the deep part of |
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| 15:24 | basin. So you come off of platform and you basically ramp down into |
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| 15:29 | deeper part of the basin where you down is where you develop these pinnacle |
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| 15:34 | . And you're gonna see that sometimes things are I mentioned one example from |
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| 15:40 | last weekend when we're talking about seismic and I showed you a giant oil |
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| 15:46 | in Libya. That's a pinnacle And these pinnacle reefs are on the |
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| 15:50 | of 400 - 600 ft thick. they have yielded several 100 million barrels |
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| 15:59 | oil and a few TCF of All right. But the average |
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| 16:04 | O. c. of this material .35%. Okay. And so what |
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| 16:10 | illustrates is that it carbonates, you can get lower than 1% T. |
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| 16:18 | . C. Because of the more nature of carbonates to break down efficiently |
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| 16:24 | oil or gas. Okay, So, So let's talk briefly about |
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| 16:33 | conditions that are required for preserving organic . All right, in the world |
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| 16:37 | plastics, .2 and .3 are the that most plastics geologists consider. |
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| 16:44 | And in terms of trying to preserve material, you have a flu real |
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| 16:49 | pushing stuff out. You have a pushing stuff out into the marine |
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| 16:54 | How are you trying to preserve that material that comes out with each flood |
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| 16:58 | . You're trying to preserve it by with really high rates of sedimentation where |
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| 17:04 | bury that stuff quickly, Right? you produce so much at a rate |
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| 17:08 | than the destruction on the sea floor you preserve it. Okay. But |
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| 17:13 | carbonates, we don't think in those and carbonates, we think more in |
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| 17:17 | of the quality of the bottom Right. And to preserve organic |
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| 17:22 | What do you want? You want or what we call anoxic bottom conditions |
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| 17:27 | the oxygen level is so low on sea floor that you can't even have |
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| 17:33 | bodied worms living in that sediment. , They can't burrow, they can't |
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| 17:38 | oxygenated water into the sediment. And so most of the models for |
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| 17:46 | organic material in the carbonate are are towards that rationale, how do we |
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| 17:52 | an oxy on the sea floor. . And so these are some of |
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| 17:56 | things in the literature that have been . All right, The the most |
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| 18:00 | way is the first point here, stratification through temperature changes in the water |
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| 18:07 | or through salinity changes in the water . You create density stratification by creating |
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| 18:13 | different layers of density or salinity. are you inhibiting your inhibiting movement of |
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| 18:18 | oxygenated water with the bottom water. that's what allows you to preserve or |
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| 18:25 | an oxy on the sea floor and organic material. Okay, now modification |
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| 18:31 | this would be upwelling that occurs along or leeward margins of continental shelves or |
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| 18:39 | platforms. Right. And this is happening today off of western part of |
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| 18:45 | America, like off of Peru. right. So that that's a limited |
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| 18:50 | of preserving organic material on the sea . Uh, people have talked about |
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| 18:56 | , what they call Meso scale These are areas of local upwelling that |
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| 19:02 | up on a carbonate platform, you see the scales that they propose |
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| 19:07 | km across for scale. So instead being more widespread, uh, |
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| 19:13 | these are local zones of anoxia. , this is more of a hypothetical |
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| 19:20 | because people are trying to explain some the sweet spots, say in sequences |
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| 19:25 | the Eagle furred in south texas, ? The cretaceous eagle furred, which |
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| 19:29 | not only a carbonate play, but also considered a source rock. |
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| 19:35 | And they see the sweet spots of kind of scale. So this is |
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| 19:38 | this idea came from that you have local Eddie's that somehow created an oxy |
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| 19:45 | the seaport. And then the last point here volcanic activity. This is |
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| 19:51 | of interesting during the Eagle for during chalk, for example, in south |
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| 19:56 | , we had local scale volcanic activity volcanoes release ash to the environment. |
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| 20:04 | ash is thought to because of the and nitrogen associated with some of the |
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| 20:10 | deposits that's thought to create local blooms the sea floor. Right eye zones |
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| 20:14 | productivity, basically what we call the tide. Right? And we get |
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| 20:20 | tides today on the gulf coast, get red tides today off of |
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| 20:24 | The red tide does what it consumes oxygen, right? That phytoplankton consumes |
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| 20:29 | oxygen and then that oxygen poor water thought to impinge on the sea |
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| 20:36 | kills the organisms, kills the borrowers allows you to preserve organic material. |
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| 20:41 | , so those are some of the have been proposed. Alright, So |
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| 20:46 | you broaden this out into the overall models for preserving organic material, that |
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| 20:53 | prime model is the so called reducing where you create either density stratification or |
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| 21:01 | . Either upwelling or uh um some of relationship back to the those meso |
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| 21:11 | upwelling effects or the volcanic effects that talked about. Okay, so these |
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| 21:18 | are not deep. So one of requirements for preserving organic material is not |
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| 21:22 | depth. Right? We talked about the first day, water depth doesn't |
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| 21:26 | the borrowers, right? It's the quality controls the borrower's. Alright. |
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| 21:31 | then local zones of oceanic upwelling. is a modified type of model limited |
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| 21:38 | the leeward or uh leeward sides of continents or platforms. You trophic lakes |
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| 21:45 | into play for like Custer and We're not going to talk about the |
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| 21:49 | settings for for carbonates. Alright. there are major oil and gas deposits |
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| 21:55 | areas like china where they get these accumulations about plastics and carbonates and the |
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| 22:03 | you trophic means nutrient rich. So nutrient rich water again favors this. |
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| 22:09 | blooms right to consume oxygen on the level, on on the floor of |
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| 22:14 | lake. There's one or two case where some people have argued there's restricted |
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| 22:23 | of oil and gas from these more , deeper platform, interior or reef |
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| 22:28 | . And then some people have actually that the evaporating basins are a sight |
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| 22:33 | preserving organic material and it's not the oxygen level. It is the uh |
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| 22:41 | fact that it's so restricted, the thing that can live there is sign |
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| 22:44 | bacteria. So, the cyanobacteria thought generate the breakdown of cyanobacteria sought to |
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| 22:50 | the oil or gas. All And if you look at a modern |
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| 22:55 | setting, whether it's a basin in rock record or whether it's the coastal |
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| 23:00 | . Like we talked about last weekend areas like the southern Bahamas, there's |
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| 23:05 | lot of organic material there. The question is, do you have |
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| 23:09 | volume to make a big enough source ? That's the first issue, |
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| 23:14 | And the second issue is how do get it out of that deposit. |
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| 23:20 | , sir. So in the you'll you'll see people use these three |
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| 23:27 | anaerobic or anoxic dis aerobic and Right? So, these are the |
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| 23:33 | of anaerobic means abundant dissolved oxygen. to support not only soft body burrowing |
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| 23:40 | on the sea floor, but to calcified organisms living on the sea |
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| 23:46 | And then this aerobic, you can the oxygen level is defined being between |
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| 23:51 | two values. Alright. Not enough support calcified benthic fauna, but enough |
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| 23:56 | to preserve soft body to allow soft organisms to burrow. All right, |
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| 24:02 | you're going to see what Even with limited calcified fauna, If you have |
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| 24:06 | organisms, you're still not going to organic material on the sea floor. |
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| 24:12 | , then, anaerobic or anoxic means not enough oxygen to support even soft |
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| 24:19 | growing organisms. Okay, So if look at you look at all the |
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| 24:24 | studies now that have been well I'm going to share some numbers with |
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| 24:28 | at the end here, most of classical larger carbonate source rocks, some |
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| 24:36 | which are listed here are associated with so called reducing basins. Again, |
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| 24:42 | of these are isolated, interpret tonic that arguably were never deeper than a |
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| 24:48 | 100 m of water depth. so we're not talking about gulf of |
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| 24:52 | water deaths. We're not talking about deep water based on the settings we |
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| 24:56 | about for the Bahamas last weekend. , and again, the key here |
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| 25:03 | is to create some sort of density where you can't mix surface oxygenated water |
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| 25:10 | the bottom water. Okay. And know from one of the famous case |
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| 25:16 | that was documented back in the eighties a study by two S. |
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| 25:21 | Geochemist Working the Bernie Formation in Western . This is a world class carbonate |
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| 25:29 | rock with up to 18% t. . c. And their detailed |
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| 25:34 | their core studies and mapping of O. C. Uh in the |
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| 25:39 | shows that as soon as you get kind of by observation On the sea |
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| 25:44 | , the T. O. s. dropped basically to zero. |
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| 25:48 | . You've got to have well preserved laminated fabric. You've gotta have rock |
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| 25:53 | looks like this. Okay. As as you get any by observation in |
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| 25:58 | rock, the T. O. . Drops to nothing. Okay, |
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| 26:02 | that's a requirement for almost all of world class carbonate source rocks, no |
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| 26:07 | what you think the mechanism is to organic material. Okay and then I |
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| 26:15 | , there are a couple of examples people have attributed the preservation of organic |
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| 26:21 | to oceanic upwelling and anoxia. Uh is not an uncommon phenomenon along Western |
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| 26:28 | leeward sides of either carbonate platforms or shelves. We see upwelling occurring |
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| 26:36 | Off the leeward side say for keiko's platform. This cold oceanic water |
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| 26:41 | up alright, but it's not it's producing a red tide or anything like |
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| 26:48 | . But you can imagine a situation does today occur off the western side |
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| 26:55 | South America. Like off of Peru Ecuador where sometimes the sub dwelling effect |
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| 27:01 | promote the phytoplankton production. They will the oxygen will create an oxygen minimum |
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| 27:10 | that then impinges along the slope or the leeward part of that margin. |
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| 27:16 | so you get local zones of anoxia the sea floor. Okay. So |
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| 27:21 | that's the mechanism off of these unique of the platform. Right. Remember |
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| 27:25 | trade winds, Trade winds blow right left on this diagram, right. |
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| 27:31 | the trade wind affected part helps promote upwelling that you see along the western |
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| 27:37 | . Alright. And then I mentioned in continental settings in inter mountain |
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| 27:44 | we talked about the potential to develop . Remember that discussion last week, |
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| 27:50 | member of white sands in New That's an example of that. But |
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| 27:55 | in a rainy or climate, you're gonna get evaporate. You're going to |
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| 27:58 | the what are called you. Trophic , right? If these are saline |
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| 28:03 | nutrient rich, then you can preserve material in some of these lake |
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| 28:09 | Your reservoir would be the shore classic sands, right. Sand stones |
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| 28:15 | could be what kind of freshwater carbonates we get? We could get the |
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| 28:21 | the getting old sucks. All The remember those little valves organisms. |
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| 28:35 | astro cats that we talked about briefly the first day, first weekend ostro |
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| 28:42 | can live across the board from a marine setting to a brackish water |
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| 28:47 | They can even live in freshwater lake . Okay, so some of these |
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| 28:51 | lake systems, they have the Our roster cod beach deposits all right |
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| 28:56 | the margin of the lake. And probably the most famous example of |
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| 29:01 | here in the in the U. . Is the is the E. |
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| 29:05 | . C. And Green River formation in colorado and other areas in the |
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| 29:11 | US. Alright. And they actually a while they actually mined this |
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| 29:17 | It was so T. O. . Rich. Some of the Green |
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| 29:20 | has up to 40 45% T. . C. Alright. And this |
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| 29:26 | the kind of stuff that the chinese chinese restaurants, the chinese reservoirs for |
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| 29:34 | from and in western china. so these are I think older paleozoic |
|
| 29:44 | . Alright, Alright. So here's summary now of all these different world |
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| 29:52 | carbonate source rocks. All of these been proven by geochemistry to be linked |
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| 29:58 | a oil or gas reservoir in that . And you can see the variability |
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| 30:03 | the numbers here. Alright, so luna is the big source rock that |
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| 30:11 | most of the hydrocarbon, both in and Colombia. All right. Austin |
|
| 30:16 | is really interesting. Not only is Austin chalk and we'll talk about this |
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| 30:21 | from a reservoir standpoint tomorrow. Not is the Austin chalk reservoir, but |
|
| 30:26 | a it's a self sourcing reservoir. basal part of the Austin chalk can |
|
| 30:31 | organic rich. You can see the up to 21% T. O. |
|
| 30:35 | . Or higher. The Eagle ford south texas the same thing. |
|
| 30:39 | It's considered the unconventional carbonate play where just directly fracking to get the oil |
|
| 30:46 | . But there's there's a reservoir part the story for the Eagle for |
|
| 30:50 | And you can see the numbers at 8%. And we'll be talking about |
|
| 30:54 | smack over here, talked a little about the Jurassic Hanifa last weekend for |
|
| 31:00 | cyclist city. And you can see numbers. And then here's the big |
|
| 31:05 | granddaddy from a conventional subsurface source Is that Giverny formation in Western |
|
| 31:12 | All right. And then here's the a one carbonate that I modeled our |
|
| 31:18 | exercise off of with the average O. C. is only |
|
| 31:24 | TSC only gets up to 1%. , but it's yielded several 100 million |
|
| 31:29 | of oil and several TCF of gas from that organic rich source rock that |
|
| 31:36 | off the deeper part of that Okay, Alright. So obviously this |
|
| 31:43 | an important consideration in any basin, you're chasing carbonates or classics. |
|
| 31:49 | You want to know not only where my reservoir? Where's my trap? |
|
| 31:54 | kind of ceiling faces do I have help set up that trap. But |
|
| 31:58 | got to factor in the source right? I mean it's pointless if |
|
| 32:01 | don't have the right maturity, you have organic rich deposit, whether it's |
|
| 32:07 | or uh carbonate. Again, when talk about carbonate plays, don't get |
|
| 32:13 | impression all carbonated plays are linked to source rock. They don't have to |
|
| 32:18 | they can be obviously that oil and could be coming from a nearby |
|
| 32:24 | Alright, So, again, for , the key, the key control |
|
| 32:30 | is setting up reducing conditions on the floor. Alright. And the key |
|
| 32:36 | is water quality. It's not rate organic production, it's not rates of |
|
| 32:41 | . These are not the key controls carbonates. It's the preservation right, |
|
| 32:46 | the right kind of water quality on the sea floor. Alright. And |
|
| 32:51 | just keep in mind that you don't to have really high values, but |
|
| 32:55 | interesting that the carbons tend to have higher values than you see for shale |
|
| 33:00 | in some of these bases. Any questions or comments? All |
|
| 33:12 | Why don't we take our why don't take a 15 minute break here, |
|
| 33:16 | then we're gonna spend the rest of day getting into a discussion about carbonate |
|
| 33:22 | types and I'm going to take you what I consider to be more of |
|
| 33:25 | conventional ones. Show you the rationale that, and we won't get through |
|
| 33:30 | of them today. We'll carry this tomorrow morning and then we'll talk about |
|
| 33:34 | unconventional carbonate plays. And Um so start back up at 3:00. |
|
| 33:47 | Okay, so we're gonna systematically work way through a discussion, a formal |
|
| 33:53 | about carbonate play types. Okay, I showed this slide the first day |
|
| 33:59 | started when I introduced the course, play. Every carbonate play has these |
|
| 34:06 | elements reservoir nearby source rock, whether carbonates or shale and the ceiling |
|
| 34:12 | And then you need a trapping And historically most of our traps are |
|
| 34:21 | traps where there's a strata graphic component is controlled by faces, right? |
|
| 34:29 | there's a structural component. The two together to effectively trap the hydrocarbon. |
|
| 34:35 | strata. Graphic traps historically are under . A lot of companies don't feel |
|
| 34:41 | chasing carbonates just from a purely strata standpoint, which I've always found interesting |
|
| 34:51 | they want to see a structural right? They want to have a |
|
| 34:54 | or something like that to provide the up dip seal for travel of |
|
| 34:59 | But there are lots of strata graphic around not carbonate plays. And with |
|
| 35:05 | use of three D. Seismic companies find more and more of these so |
|
| 35:10 | strata graphic traps. Okay, so spent the parts of the two first |
|
| 35:19 | badges really talking about some of the controls on carbonate play elements, |
|
| 35:24 | We've talked about the big scale controls fizzy graphic setting. We're starting to |
|
| 35:29 | a feel for what I mean by . Right, fizzy graphics setting a |
|
| 35:33 | scale fizzy graphic setting at a local . We've talked about the importance of |
|
| 35:37 | , graphic age that controls who the were, that controls their starting |
|
| 35:43 | That influences some of the pathways for genesis that we've talked about whether those |
|
| 35:48 | are principally magnetic or principally cal See all the history, we had |
|
| 35:53 | little bit of discussion about this last , right, when we got into |
|
| 35:56 | positional sequences and cyclist city, so hope you appreciate now that sea level |
|
| 36:04 | not the prime driver for carbonate It's the it's the influence that terminates |
|
| 36:10 | packages or provides the accommodation, but you fill up that accommodation depends on |
|
| 36:16 | local environmental controls that come into play each, each basin. Alright. |
|
| 36:22 | then we talked about climate, not just from the standpoint of rainfall |
|
| 36:27 | absence of rainfall, Novak writes versus , but also from the standpoint of |
|
| 36:33 | wind systems and their influence on carbonate and early die genesis. And then |
|
| 36:41 | important influence of burial right in the chemistry that evolves with progressive burial. |
|
| 36:48 | we put that into the context of different digestive environments. And uh so |
|
| 36:53 | the interplay really of the die genesis the deposition all faces that impact your |
|
| 36:59 | rock quality, impact the reservoir obviously the potential for good sealing faces. |
|
| 37:09 | , and I have suggested now that factor in regional paleo geography or what |
|
| 37:16 | call fizzy graphic setting at a global . Okay. And I've on your |
|
| 37:22 | deck. I've given you a bunch maps that show you how basins migrate |
|
| 37:28 | geological time. Right? How some these basins can be outside of the |
|
| 37:34 | subtropical belt. They can migrate through doldrums, they can migrate back out |
|
| 37:39 | the doldrums into a tropical or subtropical . They can migrate into a cooler |
|
| 37:44 | , temperate climate. Alright. And you want to rely on these maps |
|
| 37:50 | there are a bunch of different maps that have been published, write the |
|
| 37:54 | , you're probably more familiar with the called Blakey maps, right. Blakey |
|
| 37:58 | taught at the the University of Northern . And his maps are nice because |
|
| 38:07 | show you the landmasses versus the And they teach the maps the shallow |
|
| 38:12 | areas of marine deposition versus the deeper areas. But the thing I don't |
|
| 38:19 | about Blakey's maps is they don't he really plot the paleo equator, |
|
| 38:24 | He doesn't he doesn't plot the the latitudes and sometimes his map shows you |
|
| 38:30 | the paleo equator was. You can to that, but most of the |
|
| 38:34 | you have to guess. So the that I like are the ones like |
|
| 38:38 | at the bottom here that show you basically the direction, what they, |
|
| 38:43 | they show you on these maps is surface currents. Right? The arrows |
|
| 38:47 | really the surface currents that they're they're , but what drives surface currents. |
|
| 38:53 | the treatments. Okay, the trade determine how these oceanic currents move. |
|
| 38:58 | so effectively the arrows that you see these maps are the wind directions. |
|
| 39:03 | ? So we talked about tropical subtropical being influenced by the easterly trade winds |
|
| 39:09 | the strength of those trade winds being on how close you are to the |
|
| 39:15 | . But remember right at the five degrees on either side of the |
|
| 39:19 | where you don't get the trade winds , Alright, yeah, Platform was |
|
| 39:48 | 21 22°. Yeah. And that's remember characterized it as a as a tropical |
|
| 39:58 | . So just barely fred. so trade wind systems are obviously important |
|
| 40:08 | of our discussion and you're going to me drive this relationship home with our |
|
| 40:13 | type discussion. A lot of the plays and arguably even some of the |
|
| 40:18 | stuff we're going to talk about is by the trade winds, right. |
|
| 40:23 | it's the direction that they blow, also the strength of the trade |
|
| 40:27 | They're important consideration. And frankly, lot of these play types that I'm |
|
| 40:33 | take you through. Never made any . Based on the northern Bahamas bottle |
|
| 40:39 | we went through last weekend. Never made any sense. I |
|
| 40:42 | people found the reservoir right? By by luck, right? They drilled |
|
| 40:48 | off a seismic anomaly or they drilled by accident and they found it. |
|
| 40:53 | it didn't make any sense based on more established models that were in the |
|
| 40:57 | before we started to understand the trade influence. Okay, so you want |
|
| 41:03 | factor that in? All right. so in your slide deck, I'm |
|
| 41:07 | going to show all the, all maps like this that I put in |
|
| 41:10 | slide deck, but I'm gonna take through and just show you how things |
|
| 41:14 | . Okay? But you need to this in Now. What you don't |
|
| 41:19 | to ever do is just rely on maps to tell you, I'm in |
|
| 41:22 | strong easterly trade wind belt and and the driver. You want to use |
|
| 41:28 | geology to prove that relationship. And gonna show you with these play types |
|
| 41:33 | we try to use the geology to that the trade winds were, for |
|
| 41:37 | , the driver for some of these . Okay. Why they occur where |
|
| 41:41 | do, why they have the orientation have. Okay. And so for |
|
| 41:47 | for this exercise here, you see are three dots on these maps that |
|
| 41:53 | should see for everyone that I put your slide deck. The red is |
|
| 41:57 | Permian basin in west texas. We'll about play development and the carbonates for |
|
| 42:01 | texas and new Mexico. The blue is Libya, which is a prolific |
|
| 42:10 | province in the in the lower tertiary even into the cretaceous for that part |
|
| 42:15 | northern africa. And then the black is Western Canada, which is also |
|
| 42:21 | prolific hydrocarbon basin for carbonates, it's everything from um Devonian through Mississippian. |
|
| 42:34 | , for carbonates and then the younger and the Jurassic and cretaceous also are |
|
| 42:41 | with that part of the world. right, so just watch, just |
|
| 42:45 | these these dots move around. so this is middle salary in time |
|
| 42:50 | you can see the western Canada the dot or I'm sorry, I guess |
|
| 42:55 | the black dot. That's yeah, the black dot. The blue dot |
|
| 42:59 | here in Libya. Where was It was in a cold water climate |
|
| 43:05 | outside of the tropic subtropical setting, latitude south of the equator. That |
|
| 43:11 | you in a cold water climate. you wouldn't have had shallow water carbonate |
|
| 43:16 | . Permian basin was just on the edges of the subtropical setting. If |
|
| 43:21 | was influenced by trade winds, would been influenced by general easterly trade winds |
|
| 43:26 | on what we talked about. And here's the slurring for western Canada, |
|
| 43:32 | is sitting where in the doldrums, ? That darker belt. The dark |
|
| 43:37 | is the doldrums. Okay, and it would not even been influenced by |
|
| 43:42 | ways and what else would have not influenced by hurricanes? Right, hurricane |
|
| 43:49 | of storms because they're pushed by the winds. Then we go in the |
|
| 43:55 | and you can see again, the devonian is still in Canada is still |
|
| 44:01 | right along the edge here between the and the stronger trade winds. Do |
|
| 44:06 | see Libya's migrated up to the Okay, alright. That's early Devonian |
|
| 44:13 | Mississippi and early Carboniferous is basically Mississippi you can see how these things are |
|
| 44:20 | to migrate around. Right? So just want you to appreciate that these |
|
| 44:25 | are gonna move through geological time. need to factor that into your |
|
| 44:29 | Right? Where is my base of relative to the paleo equator that tells |
|
| 44:35 | tropical subtropical or cold water temper And if you're in a tropical subtropical |
|
| 44:42 | , you're going to be influenced by easterly trade winds unless you're along the |
|
| 44:47 | and then you have to sort of whether you're likely to be influenced by |
|
| 44:52 | trade winds provide more general easterly trade . Okay. You want to be |
|
| 44:57 | about those potential influences, but you to be using the geology that you |
|
| 45:03 | . This is where the geometries of bodies and things like that come into |
|
| 45:07 | to help you figure out whether I influenced by stronger trade winds system or |
|
| 45:12 | more gentle trade winds system. all right. And then the other |
|
| 45:20 | is your fizzy graphic studying a local . So last weekend we contrasted the |
|
| 45:25 | end Member models right? The ramp the platform and you had a question |
|
| 45:31 | the exam to basically contrast as to Member models, but as I've said |
|
| 45:38 | several times, it's not enough to , I have that kind of bottom |
|
| 45:43 | . You need to know whether your or ramps face into the prevailing wind |
|
| 45:47 | how strong that wind was okay or from it. Right? Because you |
|
| 45:52 | have carbonate platform. This leeward to prevailing wind or if you have an |
|
| 45:57 | platform right? Like we have today the Bahamas, what side was when |
|
| 46:02 | , what side was leeward? We about the importance of that not only |
|
| 46:07 | shedding, right? And the strength the trade winds determines whether it's carbonate |
|
| 46:12 | that comes off the leeward margin or it's mud size material, but the |
|
| 46:17 | winds and the strength of the trade as we talked about dictate what kind |
|
| 46:20 | settlements accumulate on the platform. so so I hope what I wanted |
|
| 46:29 | take away from our discussion last weekend to appreciate the impact that fizzy graphic |
|
| 46:35 | can have on all these different styles shallow marine carbonate deposition. Right? |
|
| 46:40 | showed you by contrasting the northern Bahamas the southern Bahamas, how it influences |
|
| 46:47 | occurrence and distribution and some of the types that occur up on the |
|
| 46:53 | Right? I showed you those isolated on keiko's platform occur well up on |
|
| 46:58 | platform, interior because of the trade agitation. But we don't really see |
|
| 47:02 | like that in the northern Bahamas where trade winds are much weaker. We |
|
| 47:07 | contrasted the U. S. And occurrences and distributions from the northern Bahamas |
|
| 47:13 | the tidal currents to the southern Bahamas are driven by trade winds. You |
|
| 47:18 | how the composition and texture of the interior varies again depending on the strength |
|
| 47:23 | the trade winds. And I showed two ways to make tidal flats. |
|
| 47:29 | that is more influenced by the easterly winds, one that's more influenced by |
|
| 47:35 | winter storms and then always in a subtropical setting, there's still an over |
|
| 47:40 | of the big storms on tidal flat . And then we talked about the |
|
| 47:46 | platform margins in terms of shedding. , well whether it's grain, stone |
|
| 47:53 | carbonate sand, that's gonna be the easterly trade wind effect versus the more |
|
| 47:58 | critic clapping wedges that we saw for northern Bahamas, Trade ones seem to |
|
| 48:04 | play a role here in terms of the stronger trade one systems tend to |
|
| 48:10 | a greater degree of evaporation. So might have a better chance of of |
|
| 48:14 | some isolated settings for evaporate deposition like coastal Selena's we talked about. |
|
| 48:21 | And conversely, you know, some the bigger platforms that don't have the |
|
| 48:26 | trade winds, sometimes there's a little more freshwater associated with them. |
|
| 48:31 | something to think about. All Alright, so let's get into this |
|
| 48:38 | formal classification of carbonate plays and what going to try to do here is |
|
| 48:43 | reservoir distribution and geometry to the source seal faces. But do it in |
|
| 48:49 | context of fizzy graphic setting, fizzy setting at a local scale. All |
|
| 48:55 | . So in other words relate these types back to a position along a |
|
| 48:59 | or steeper margin platform setting. All . But what do you always have |
|
| 49:05 | do? You always have to factor your geological age because that controls who |
|
| 49:09 | players were. And some of these types don't exist in different geological time |
|
| 49:16 | . Okay. Because the organisms didn't . Alright. And probably the most |
|
| 49:21 | example that will be the pinnacle reefs I just alluded to for the michigan |
|
| 49:27 | . Right. They only occur in select few geological time periods. Because |
|
| 49:35 | when those organisms that could make could those clinical reads existed. Alright. |
|
| 49:39 | , obviously that's an important consideration from standpoint of sediment composition and the starting |
|
| 49:48 | . Okay, so these are the are the play types. And we're |
|
| 49:52 | going to go through all of these the in the in our discussion here |
|
| 49:57 | and tomorrow. But we're going to go through the conventional play types. |
|
| 50:02 | what do I mean by conventional play ? I mean, and I was |
|
| 50:07 | this approach. Well, before companies talking about unconventional shale or carbonate |
|
| 50:13 | For me, a conventional play type has been one that companies historically chased |
|
| 50:19 | because of their seismic expression or because their setting. Alright. Setting along |
|
| 50:27 | deposition profile. Right. So, can see how I'm trying to relate |
|
| 50:32 | back to a deposition setting here. platform margin or ramp crest related grain |
|
| 50:38 | would be one of the conventional play . Platform margin reefs. Okay, |
|
| 50:45 | we don't get linear reef systems developed a ramp. Alright, so it's |
|
| 50:49 | limited to these platform margin settings. platform margin settings. Platform mound |
|
| 50:56 | These are buildups that occur up on drowned carbonate platform. Their lower relief |
|
| 51:01 | up historically because you're up on a . You don't have the subsidies to |
|
| 51:06 | great vertical thickness is usually all Platform interior or ramp related form. |
|
| 51:13 | critic wacky stone paxton plays by its . You don't expect there to be |
|
| 51:18 | good reservoir quality associated with a critic . Whether they're pack stones or wacky |
|
| 51:24 | or lying but stones. So part the story here is you've got to |
|
| 51:28 | what you gotta have favorable die genesis create reservoir quality. Okay, so |
|
| 51:34 | is historically where you have to factor the die genesis, right? And |
|
| 51:40 | basing all down ramp mound carbonates. are the buildups that occur down the |
|
| 51:47 | into a basin. Alright. That the classical pinnacle reefs to get up |
|
| 51:52 | over 1000 ft thick. But it includes the low relief buildups that we |
|
| 51:58 | . We didn't really talk about yet the rock record perspective, but these |
|
| 52:03 | the so called baffle stone deposits. ? The build ups that are created |
|
| 52:07 | more delicate branching organisms like dry zones cry noise and uh things like that |
|
| 52:15 | algae. They can't they don't live high energy shallower deepwater settings. |
|
| 52:21 | But they trapped suspended mike. And they built topography through time. |
|
| 52:26 | historically these things can't get thicker than 100 m. Okay, In contrast |
|
| 52:33 | the pinnacle reefs, that might be or 400 m thick. Right, |
|
| 52:39 | , we're gonna go through those. , from a conventional standpoint, the |
|
| 52:44 | is to get through the platform and this afternoon. All right. And |
|
| 52:50 | we'll pick these two up tomorrow And then the unconventional plays are the |
|
| 52:54 | that for me, historically, companies chase either because of their unique de |
|
| 52:59 | setting or because of their lack of response or because of their unique di |
|
| 53:07 | attributes. Okay. And so that include the four slope carbonate deposits. |
|
| 53:13 | are the things that are shut off the platform and again principally off the |
|
| 53:18 | margin. Right. And then the all de positional chalks. So that |
|
| 53:24 | be things like the austin chalk here texas, eagle furred Niobrara chalk in |
|
| 53:29 | western U. S. The famous Sea chalks off of Norway. |
|
| 53:36 | And then I'm going to get into are called fall control digest plays because |
|
| 53:41 | want you to appreciate the role that seated structure plays not only in attracting |
|
| 53:48 | , but favorably driving. Excuse me driving dia genesis and creating secondary porosity |
|
| 53:57 | depth. Okay, and the examples go through are going to be one |
|
| 54:03 | these other play types modified by this seated vaulting. Alright. And I |
|
| 54:09 | you to appreciate the role of structure I think I mentioned this when we |
|
| 54:14 | our die genesis discussion. You we used to look at faulting mainly |
|
| 54:19 | the standpoint of entrapping hydrocarbon, but seated false. And what do we |
|
| 54:25 | by that? We mean things are in basement, right, frenetic |
|
| 54:30 | These are wrench and strike slip Right? So things that have this |
|
| 54:34 | of movement or this kind of movement there's a vertical component. Right? |
|
| 54:38 | wrench ball, those kinds of false hotter fluids from frenetic basement rock and |
|
| 54:45 | fluids that come out of frenetic basement ? Historically, acidic. Okay, |
|
| 54:52 | the ones that precipitate the base metal and things like that from acidic |
|
| 54:57 | Right? So what what asset fluids to carbonates? They dissolve? |
|
| 55:03 | They create secondary prostate potentially. I want you to appreciate that |
|
| 55:09 | And I'll drive that theme home with number of examples. All right now |
|
| 55:14 | listed some of conformity cars. Place listed fractured carbonates, fractured carbonates. |
|
| 55:20 | a misnomer. Alright. We talked about fractures, I guess last |
|
| 55:29 | Right? Or maybe the weekend before we talked about ferocity fractures don't add |
|
| 55:36 | volume of holes to solely be the why you get a reservoir. |
|
| 55:45 | In other words, they can't hold oil and gas to account for all |
|
| 55:48 | production for some of these so called reservoirs. So, what are people |
|
| 55:53 | fractured reservoirs? They're calling one of other play types that have an over |
|
| 55:57 | fractures to improve the permeability. so fractured, fractured. The role |
|
| 56:03 | fractures is to prove the permeability by to 10 times. But historically they |
|
| 56:08 | add more than one or two prostate to that reservoir. Okay, so |
|
| 56:15 | carbon is usually one of these other modified by fractures. So, where |
|
| 56:20 | the case, I'll talk about that for these conventional or unconventional place. |
|
| 56:26 | . The same with sub conformity All right. This is this is |
|
| 56:32 | a play type modified by Karst. ? And historically most people relate this |
|
| 56:38 | to several exposure. Right? But showed you another way to do this |
|
| 56:45 | ? In the depth, right, . Remember that concept that we talked |
|
| 56:52 | , right? You can dissolve on grand scale in the near surface |
|
| 56:56 | right? To make Carlsbad caverns, you can also dissolve in a big |
|
| 57:02 | . And in the subsurface, it's enough to get solution collapse. And |
|
| 57:06 | , Alright. And that can create quality. Alright, So, we'll |
|
| 57:10 | about that as well. Right? it comes into play here for these |
|
| 57:14 | play types. And then I'm not to talk about the custom carbonates. |
|
| 57:18 | not going to talk about microbial This is sort of the buzz right |
|
| 57:22 | for some of these sequences where people think they're seeing the influence of cyanobacteria |
|
| 57:28 | driving precipitation, creating crossing things like . And I listed church reservoirs |
|
| 57:36 | I mean, church is a silicon . Right? It's this court's micro |
|
| 57:42 | . Micro crystalline quartz. And reservoirs because you create secondary prostate micro cords |
|
| 57:50 | . Alright, so there's a die over print here as well. And |
|
| 57:54 | listed them here because historically the church are associated with carbonate succession. |
|
| 58:00 | Where does most of the silica come ? To begin with. It comes |
|
| 58:03 | salacious sponges. Where do they normally in a carbonate profile? The deeper |
|
| 58:09 | parts of the carbonate profile. But so Poland silica, which is very |
|
| 58:14 | . So, during shallow burials dissolves migrates. Right. And that's what |
|
| 58:19 | you the church nodules or the more church deposits, but that's still not |
|
| 58:25 | to give you reservoir quality. You have to create some porosity. And |
|
| 58:29 | do that through later die genesis. right, we're not gonna talk about |
|
| 58:33 | of that. All right. you'll notice I loaded the bibliography on |
|
| 58:39 | for carbonate plays. The bibliography is out in this order here. |
|
| 58:47 | And so you'll see bibliography for somebody cars or like Custer and carbonates. |
|
| 58:55 | right, But I'm not gonna formally about those play types in this |
|
| 58:59 | I'm going to stick to the ones you more typically are likely to encounter |
|
| 59:03 | the subsurface. Okay. Alright. let's let's work our way through |
|
| 59:10 | This is my attempt to relate play geometry to de positional setting for the |
|
| 59:19 | end member models. Okay. And here's that term geometry again, |
|
| 59:25 | That everybody seems to struggle with. uh you're gonna you're gonna see geometry |
|
| 59:31 | to play for the final exam. guarantee you. All right, just |
|
| 59:35 | drive home this relationship. So, have geometry internally. Right? For |
|
| 59:41 | body. Right? So build ups build up geometry, Right? That's |
|
| 59:48 | geometry. And then we then we about the geometry that occurs with carbon |
|
| 59:54 | trying to pro grade or grade Right? If they pro grade, |
|
| 59:57 | a program. Additional internal geometry. they can't pro grade laterally, they |
|
| 60:01 | vertically. That's aggregation all geometry. ? And then we talked about geometry |
|
| 60:08 | the cycles. The staff. That's back stepping and four stepping. |
|
| 60:13 | aggregation stacking geometry. Okay, So we're talking about here is really the |
|
| 60:19 | geometry. Okay, So she like refers to the pro gradation. All |
|
| 60:25 | . Right? As the system Progres develops this more sheet. Like internal |
|
| 60:31 | . What is ribbon geometry referred to to reefs that occur along state margin |
|
| 60:38 | where they can't pro grade. because the hole is too deep. |
|
| 60:43 | how do you build your geometry? build it vertically or aggregation? |
|
| 60:48 | so ribbon like geometry is aggregation. geometry that runs along the strike of |
|
| 60:54 | platform margin. Okay. Right. a barrier reef. Right, barrier |
|
| 60:59 | . Can't pro grade a lot like talked about in the modern. So |
|
| 61:02 | going to build this linear ribbon like along the strike of the platform. |
|
| 61:09 | . And then mount like geometry just to build up topography, recognizing that |
|
| 61:15 | reefs are going to be really like the pinnacle reefs, right to |
|
| 61:19 | over 1000 ft thick versus some of low relief buildups that might be 100 |
|
| 61:24 | or a couple 100 ft thick. , Alright, everybody appreciate what I'm |
|
| 61:31 | . And then then you want to about how the play types and their |
|
| 61:38 | tie back to position along the deposition . Alright, so this cartoon has |
|
| 61:44 | one that's evolved over all the years been teaching off of this diagram |
|
| 61:50 | I just had this upper part of diagram here. Alright, that I |
|
| 61:54 | everything with respect to the classical platform base in transition. Right? The |
|
| 61:59 | margin right here, right. That be the focus of high energy where |
|
| 62:05 | currents or tidal currents and pinched right restricted platform interior and then progressively deeper |
|
| 62:12 | into the basin to the right. right. So, factoring in time |
|
| 62:17 | . Graphic age, right. If in a platform to base and transition |
|
| 62:23 | you're out in the basin, what the play type that develops out |
|
| 62:26 | The deepwater de positional chalks, But limited to what basically cretaceous and younger |
|
| 62:35 | . Right. The proto chalk start during the upper Jurassic. But the |
|
| 62:40 | chalk deposits really don't start evolving until time and they still exist today. |
|
| 62:46 | . That's the age control. And their geometry likely to be? It's |
|
| 62:50 | to be a wide spread sheet like right down in deeper water. All |
|
| 62:55 | stuff living the upper part of the column, dying, selling down, |
|
| 62:59 | a Sheila geometry. Okay. And you move up onto the force |
|
| 63:05 | We talked about how important the orientation here, because where's most of the |
|
| 63:10 | on the four slope? It's on leeward side of the platform is not |
|
| 63:13 | open ocean when we're facing sides. , So the material that shut off |
|
| 63:21 | is gonna be what it's going to re deposited as an on lapping wedge |
|
| 63:26 | that for so upsetting. Right? , I use the term sheet like |
|
| 63:33 | more appropriately, it's a non lapping , right, for this unique |
|
| 63:37 | All right. And then you come onto the margin. This is as |
|
| 63:41 | saw, is the focus of high related to oceanic swells or tidal currents |
|
| 63:48 | accentuated by the trade winds. But this is where we talked about |
|
| 63:52 | reefs or high energy carbonate sands developed they're going to tend to do what |
|
| 63:57 | going to tend to build up. they can't pro grade. Right? |
|
| 64:03 | they can pro grade, it's going be a sheet like geometry. |
|
| 64:06 | So it all depends on the slope here, and if it's a lower |
|
| 64:11 | angle, you get that sheet, geometry developed for both the sands and |
|
| 64:14 | reefs. But if it's a steeper , everything goes vertically, then your |
|
| 64:20 | would have more of a ribbon like . Okay. And then the platform |
|
| 64:25 | , whether it's carbonate sand or carbonate depends on the strength of the of |
|
| 64:29 | trade winds. Right? So if more MMA critic, it's going to |
|
| 64:34 | more sheet like geometry, it's more sand. It's going to be still |
|
| 64:38 | like geometry and a platform material And then a modification of this would |
|
| 64:43 | the title flat. That might occur here. Right? And if it |
|
| 64:47 | grades, it's still going to develop sheet like geometry. Right? Everybody |
|
| 64:53 | the approach I'm trying to use We're trying to explain the likely geometries |
|
| 64:58 | gonna get in these different settings. also uh but you also have to |
|
| 65:02 | in the age control here because some these things don't develop depending on the |
|
| 65:07 | time period. No contrast that with ramp, right? The little bump |
|
| 65:14 | you get on a ramp is what called the ramp crest, right. |
|
| 65:19 | was the focus of high energy closest the shore line. That's where you |
|
| 65:24 | development of mostly carbonate sands, reefs are not normally associated with the |
|
| 65:30 | model. And certainly linear barrier reefs never associated with the ramp model. |
|
| 65:36 | the bump here would be generally where get your grain stone developed. |
|
| 65:41 | And again, what kind of geometry end up with depends on the amount |
|
| 65:45 | pro gradation. But I think remember definition of ramp, it's on your |
|
| 65:51 | . Right. Did you guys get right? One degree slope angle or |
|
| 65:55 | ? Right, So it's very easy program that stuff. Okay, so |
|
| 66:01 | typically see a lot more pro gravitational associated with the ramp model? |
|
| 66:08 | high energy focus is going to be here. All right, lower and |
|
| 66:11 | energy, deeper water as you go to the right here. What you |
|
| 66:15 | out here in the basin again is to depend on whether you're in Mesozoic |
|
| 66:19 | younger systems. That's gonna be the deposits out here with. She'd like |
|
| 66:24 | . Remember we talked about examples I you an example from the Triassic in |
|
| 66:31 | , the where you shed those things into deeper water. So you can |
|
| 66:35 | the tempest tights. Will she like out here down the ramp and the |
|
| 66:39 | model. And if they amalgamate into thicker enough thick enough sequence, then |
|
| 66:44 | can get good reservoir quality there. . And then the ramp interior, |
|
| 66:48 | tend to write off its low energy the critic including the tidal flats back |
|
| 66:54 | to get reservoir quality back here, usually have to do something favorably from |
|
| 66:58 | diabetic standpoint. Okay. All So that's that's the framework that I |
|
| 67:04 | to be catching. I want to this discussion in for the conventional play |
|
| 67:09 | and some of the unconventional stuff like four soap and chalk deposits also fit |
|
| 67:14 | this profile as well. Okay, let's just get right into this and |
|
| 67:20 | gonna take breaks as we go along , we'll start all the five conventional |
|
| 67:25 | types. I'm going to present you a little cartoon like this that tries |
|
| 67:30 | relate relate the reservoir, the grain to the seal faces and the nearby |
|
| 67:37 | rock faces. Alright, so everything is dependent for the grain |
|
| 67:43 | Everything is dependent on the slope Obviously, if you're dealing with a |
|
| 67:48 | crest with a lower slope angle, things are going to procreate and what's |
|
| 67:52 | to provide the top seal, it's to be the back show. Laguna |
|
| 67:57 | marma critic, subtitle carbonates. if you're dealing with more of a |
|
| 68:02 | style, a deposition with a steeper , which fortunately is not that common |
|
| 68:07 | the rock record, you may not able to pro grade. Right? |
|
| 68:12 | you might have an issue. They're to provide a top seal and then |
|
| 68:17 | both settings, where would your source likely be? Be the offshore |
|
| 68:22 | All environment where if you could create oxy on the sea floor, you |
|
| 68:27 | you'd have a potential offshore environment for that hydrocarbon. Okay, so there |
|
| 68:36 | a couple first principles of geology we to talk about here with respect to |
|
| 68:42 | play type. And the first principle paleo highs began paleo highs Alright. |
|
| 68:51 | talked about how reefs like to take high ground corals like to take the |
|
| 68:54 | ground, sometimes a foot or two than everybody else in that environment. |
|
| 69:00 | get started. And the same thing to some of these high energy carbonate |
|
| 69:05 | bodies. And to illustrate that here's example from the cretaceous in south |
|
| 69:12 | We're going to talk about this area south texas. See where we're at |
|
| 69:17 | texas and the play here, or setting here is a steep margin platform |
|
| 69:25 | the in the lower to middle cretaceous you get brief deposition along the edges |
|
| 69:33 | the ancestral gulf of Mexico. And then behind it, you have |
|
| 69:38 | broad shallow water carbonate environment that gets and more restricted in terms of water |
|
| 69:45 | and energy as you go further Right, remember all the oceanic condition |
|
| 69:52 | entitled currents dissipate very quickly as you away from that platform and margin and |
|
| 69:58 | go towards the platform interior. So if you look at if you |
|
| 70:03 | at the this Edwards trend in south , right? It's high energy right |
|
| 70:08 | the margin where you get the good developed. But when you start getting |
|
| 70:13 | back inboard on the platform, it's dominated by these low energy. Um |
|
| 70:17 | critic wacky stones and paxton's, that's green and light brown colored material until |
|
| 70:23 | come back up onto the subtle paleo called the belt and high, which |
|
| 70:28 | a structural extension off of a frenetic , a lift called the llano |
|
| 70:33 | And maybe some of you have hiked enchanted rock right outside of fredericksburg. |
|
| 70:41 | the that's the surface expression of the uplift. Right? It was a |
|
| 70:45 | feature in the subsurface all the way to the camera in central texas. |
|
| 70:52 | right. And look what happens we change from. These would look |
|
| 70:56 | should be low energy MMA critic We get into this high energy thick |
|
| 71:02 | of bulleted grain stuff. Alright, , this never made any sense based |
|
| 71:07 | what I showed you for the northern , right? Where tidal current energy |
|
| 71:12 | very quickly as you go further up the platform. Nobody could ever explain |
|
| 71:17 | you get these analytics sands over 100 in from the open ocean. But |
|
| 71:23 | it makes sense if you think about trade rights, right? So if |
|
| 71:27 | look at the paleo geography for this , in the cretaceous, your 15 |
|
| 71:31 | north of the equator. That's in heart of the strong easterly trade wind |
|
| 71:36 | . And so it's the combined effect the paleo topography and the strong trade |
|
| 71:41 | that allow you to generate this 100 thick For more grain Stone 100 km |
|
| 71:48 | from the open ocean. Okay, in part this is the trade wind |
|
| 71:54 | , but in part this is what advantage of subtle paleo topography. |
|
| 71:59 | Paleo highs beget paleo highs. That's key principle of carbonate geology. |
|
| 72:06 | and then what was the other relationship talked about for the modern grain stone |
|
| 72:10 | sand body systems? Every grain stone the modern whether it's analytic or skeletal |
|
| 72:17 | two components the active. Right, then the stable. Right. And |
|
| 72:27 | was on the quiz today. What's the difference between the active and |
|
| 72:32 | ? Right, in terms of sedimentary ? Right. This this is the |
|
| 72:37 | , persistently agitated stuff. This is burrowed stuff, right. It never |
|
| 72:42 | on a day to day basis. due to tidal currents or wind wave |
|
| 72:48 | . And then the texture, grain . Right? More of a pack |
|
| 72:52 | texture here and then reservoir potential. . Right. Poor. Okay. |
|
| 73:01 | as I said the other day, . Historically we chase the active grain |
|
| 73:06 | . Right. We're hoping either to on to that reservoir quality long enough |
|
| 73:11 | entrap the hydrocarbons or we're hoping that crossing perm becomes allows some later fluids |
|
| 73:19 | that enhance that reservoir quality. And we look at the stabilized stuff being |
|
| 73:27 | side or top sealed two reservoirs made of these active grain stacks. |
|
| 73:33 | Okay. So let's just get right some of these play types and and |
|
| 73:40 | I think I told you the first we started sometimes you're gonna see me |
|
| 73:47 | slides. Okay. Either because they just there for background information. |
|
| 73:53 | So it might be a strata graphic or it might be a map for |
|
| 73:57 | or it might be a map or diagram that shows you production data or |
|
| 74:01 | like that. You're also going to me in the interest of time skip |
|
| 74:05 | of these play type examples. so I'm gonna mention this again. |
|
| 74:11 | gonna give you the guidelines for the exam here before we break today. |
|
| 74:18 | if I don't cover a play type this lecture, if I skip over |
|
| 74:22 | , then I'm not gonna test you it. Okay? So, so |
|
| 74:26 | just throwing it in there for your here later. If you come back |
|
| 74:31 | get into the oil and gas business you come back and I want to |
|
| 74:35 | some of these slides for play Play types will be there. But |
|
| 74:39 | won't talk about it. Okay. right. So we're gonna And then |
|
| 74:44 | I'm going to go through for these types is I'm picking play types that |
|
| 74:48 | think are pretty common expressions of these plays in terms of the attributes. |
|
| 74:54 | I also want to stress some of different pathways for creating reservoir quality. |
|
| 74:59 | ? Either preserving ferocity or creating favorable process development. So I'm gonna show |
|
| 75:05 | different ways to modify porosity and perm these different play types. Okay, |
|
| 75:11 | let's start first with the Jurassic and back over formation. This this is |
|
| 75:16 | very common grain stone bearing sequence around northern gulf rim. It actually has |
|
| 75:23 | age sequences in Mexico that are Alright. And you can see where |
|
| 75:29 | fits here. It's not the uppermost falls into this category right here. |
|
| 75:37 | right. And the graphic smack over is under lane and around the |
|
| 75:43 | S. Gulf coast by blue and . Right. The salted form during |
|
| 75:47 | initial rifting of the ancestral gulf of basin. And then that shifts to |
|
| 75:52 | Norfolk classic deposits And some of the is made up of stuff that's eroded |
|
| 76:00 | the old Appalachian mountains that re deposited the shorelines. Some of this gets |
|
| 76:05 | alluvial fans, some of this is into alien deposits. Most of the |
|
| 76:12 | north of production is alien sand Okay, and then that gets drowned |
|
| 76:20 | by relative rise of sea level, rapid rise of sea level creates a |
|
| 76:24 | accommodation. Right? And then what we do we fill it in? |
|
| 76:28 | , We create an upward shoaling succession carbonates to start off with deep water |
|
| 76:34 | on carbonates at the at the And this is locally called the |
|
| 76:37 | dense. And then that grades up uh deposits closer to the shore |
|
| 76:43 | You're gonna see there's an active and component associated with that. And then |
|
| 76:48 | you build up above sea level to linear barrier barrier islands of bulleted grain |
|
| 76:55 | , what do you create behind You create a restricted shoal, I'm |
|
| 77:00 | , restricted Laguna environment of low energy carbonate. And then on the other |
|
| 77:05 | , what do you get you get beach or you get an error entitled |
|
| 77:08 | with evaporates. Okay. And that's so called Buckner. Alright, so |
|
| 77:13 | Buckner formation is actually part of the sequence. Right. People break it |
|
| 77:18 | I said last weekend because of the in mythology, but it's still part |
|
| 77:23 | still time equivalent part of the supper sequence. Okay, so here's the |
|
| 77:30 | that we see in the northern gulf , right, This would have been |
|
| 77:33 | deepwater ancestral gulf of Mexico out here the south. The initial discoveries were |
|
| 77:40 | made in southern Arkansas. There's a town in southern Arkansas called smack over |
|
| 77:46 | that's where the formation name comes All right, and this was |
|
| 77:52 | Most of these shallow reservoirs were discovered surface seats and everybody developed this back |
|
| 78:00 | the twenties. Right because it was , most of the reservoirs are a |
|
| 78:04 | 1000 ft to generally no more than or 10,000 ft of burial. |
|
| 78:10 | Oil and Gas province right here, province right here. And then by |
|
| 78:17 | by people just pushing the trend. pushed it to the west in the |
|
| 78:24 | texas and they're the smack over is deeply buried. The reservoirs are um |
|
| 78:31 | 12 13 14,000 ft of burial there they're deeper, it's not an oil |
|
| 78:38 | anymore, It's gas and condensate. , so it's deeper, hotter part |
|
| 78:43 | the trend. And here most of reservoirs have to be demonetized that reservoir |
|
| 78:49 | . And then what happened is companies the trend To the east and |
|
| 78:56 | There's more deeply buried reservoirs are on scale of 12-20,000 ft of burial and |
|
| 79:03 | could be lime stones or or typically are duller stones in order to hold |
|
| 79:08 | to that reservoir quality. Remember the about burial right? Once you get |
|
| 79:12 | deep, even the limestone, reservoir starts to give. So the |
|
| 79:19 | deeper buried reservoirs here tend to be stones where you form that ferocity relatively |
|
| 79:24 | and hold onto that ferocity long enough trap the hydrocarbon. Okay, all |
|
| 79:30 | . Most of the, most of oil pools associated with the smack over |
|
| 79:36 | Arkansas Louisiana are ones that developed close the shore line. They're basically a |
|
| 79:42 | of the Arabian gulf model we talked last weekend. And so because they |
|
| 79:47 | close to the shore line and their relief right ramp like topography, what |
|
| 79:53 | they gonna do? They're gonna pro . Okay. And they're gonna pro |
|
| 79:57 | tens of miles out into the deeper . So part of the consideration here |
|
| 80:04 | when you look at the zulu grain , part of the consideration is you |
|
| 80:08 | to be thinking about, well, far down dip did these things pro |
|
| 80:12 | . Right, because part of the here is the later die genesis of |
|
| 80:18 | carbonates. Okay, so the smack again, it's this classical leopard chilling |
|
| 80:26 | . The laminated nick wright lime mud down here are the source rock 1 |
|
| 80:33 | 2% T. O. C. , and then that comes up the |
|
| 80:38 | , you get out of those anoxic basil carbonates, you get into more |
|
| 80:44 | the up ramp biter baited skeletal political stones and pack stones with no reservoir |
|
| 80:50 | . And then that grades up into politic grain stone complexes with the active |
|
| 80:56 | stable components and then everything is over by the Buckner red beds and |
|
| 81:00 | That's the effective top seal for these stones. Okay, now you can |
|
| 81:06 | analytics, sands developed further offshore in smack over, but you have to |
|
| 81:11 | pre existing topography. Okay, so is where the structural topography comes into |
|
| 81:17 | . Sometimes it's basement blocks moving to topography. Sometimes the salt tectonics offshore |
|
| 81:25 | create paleo eyes. Okay, but you're playing the shore line, you |
|
| 81:34 | grain stones. If you're too far dip, there's a one style of |
|
| 81:39 | genesis that comes into play. And you're further down dip, there's a |
|
| 81:43 | different style. Okay. And so can see what's been mapped here regionally |
|
| 81:48 | the companies that have Chase's trend now 60 or 70 years. And you |
|
| 81:56 | , you can see the blue is northern zone characterized by one style of |
|
| 82:01 | genesis. There's not a lot of pools developed up here where most of |
|
| 82:05 | pools is down here in the in the southern zone for reasons will |
|
| 82:09 | obvious. And then you see there's transitional zone here where some of the |
|
| 82:18 | like McKamey Patton for Mount vernon have digest aspects of like the northern |
|
| 82:25 | but aspects that are like the southern as well. Okay, so what's |
|
| 82:30 | on here? All the big pools in the southern zone here. And |
|
| 82:35 | going on here is that sometime in cretaceous, the update part of the |
|
| 82:42 | sequence appears to have been influenced by freshwater aquifer system coming down from the |
|
| 82:49 | . So the up dip part of trend and yellow saw the effects of |
|
| 82:56 | early freshwater die genesis. The down part in blue never saw the effects |
|
| 83:03 | then some of the transitional reservoirs like vernon field, you see some of |
|
| 83:10 | fresh water over print for part of field and some of it is |
|
| 83:15 | Okay, so the up dip stuff like this. Remember this fabric, |
|
| 83:21 | is that classical Parisian version fabric? talked about where the original grains that |
|
| 83:30 | regulated goods were leached out. That's molded porosity fabric, selective |
|
| 83:36 | That's great. Okay to to create proxy for storage. But what is |
|
| 83:42 | downside of too much secondary porosity You generate the early pre compaction |
|
| 83:49 | which is good because it freezes that . Right? That's the way to |
|
| 83:54 | porosity. But if it goes too , what happens to your permeability? |
|
| 84:00 | kill it. Right? Remember our . If you go too far, |
|
| 84:05 | choke off all that primary porosity where have the permeability. Okay. And |
|
| 84:11 | what's happened to a lot of the part of the smack over has great |
|
| 84:15 | . I told you that's what the loggers call heartbreak ferocity. Right? |
|
| 84:19 | logs read really good ferocity, but no permeability because you choked off all |
|
| 84:26 | you killed all the pore throats. fill them in with counseling event. |
|
| 84:31 | so all the big fields, all good big field produced from fabric that |
|
| 84:36 | like this. Alright, walker creek the biggest, I think there's some |
|
| 84:41 | for walker creek in your in your . But look at the difference |
|
| 84:45 | the U. S. Are not dissolved out. Right? They've been |
|
| 84:51 | together, which tells you there's no dissolution, no early pre compaction calcite |
|
| 84:57 | . But you started off with a effective porosity perm system. You're able |
|
| 85:02 | hold onto enough porosity and perm long to entrap the hydrocarbons and you end |
|
| 85:07 | with the best reservoir quality. so all the good fields in Arkansas |
|
| 85:12 | Louisiana producer and fabric that looks like . Okay, so walker creek, |
|
| 85:19 | most famous example. Alright, what happens when you carry this trend |
|
| 85:26 | east texas? You have essentially the de positional system, the same shoreline |
|
| 85:34 | analytics and body systems that pro grade into the basin. They get the |
|
| 85:39 | stones get over lane by the red beds and evaporates. But what |
|
| 85:44 | to come into play here is the stones have to be delimited. |
|
| 85:49 | Okay. If they're not dilemma they don't have any reservoir quality Because |
|
| 85:55 | they're too deeply buried in 12, of burial. And so the models |
|
| 86:01 | have been published on for east texas attribute the demonization effect to the reflex |
|
| 86:10 | where people say that Buckner pushes those rich brian's into the grain stones and |
|
| 86:17 | to the dolomite. Okay, why it happen in Arkansas and Louisiana? |
|
| 86:23 | there's no delay immunization there, same , graphic relationship. So maybe that's |
|
| 86:29 | the right model, but that's the that everybody invokes wherever you get juxtaposition |
|
| 86:34 | evaporates and dolomite. Right? The . The other story for making dolomite |
|
| 86:40 | be the faulting. Alright, we'll about later. So you can see |
|
| 86:48 | again. There's a hybrid here in of what controls play type distribution. |
|
| 86:53 | update fields like brantley Jackson up here more of the classical shore line related |
|
| 87:01 | politic grain stones and appropriated us some . Okay. But look where the |
|
| 87:06 | pools are there more down dip and of these down dip pools are down |
|
| 87:12 | because of the influence of salt These are local isolated grain stone bodies |
|
| 87:18 | on top of a a leo structure the sea floor. Created the salt |
|
| 87:24 | . Right, okay. That's one the influences potentially assault. You can |
|
| 87:32 | punch of structures on the sea get shallow enough that can be agitated |
|
| 87:36 | either currents or by wind wave And you can put wood grain stones |
|
| 87:41 | top of that. All right. that's what these samples these reservoirs reflect |
|
| 87:46 | here and then some of these other like bryan mills are influenced by a |
|
| 87:52 | fault trend. There's a fall trend runs through this part of northeast texas |
|
| 87:57 | the Mahia Taco fault trend. And they These on echelon fault system |
|
| 88:04 | from the southwest up to the And so that's the other part of |
|
| 88:09 | story or potentially is the faults are accessing some of these deep seated fluids |
|
| 88:15 | we talked about. The dry, demonization. Okay. So I think |
|
| 88:21 | mentioned, you know, we were about the influence of progressive development. |
|
| 88:26 | on process development. We start with grain stone for example and we start |
|
| 88:30 | delimit ties it. What do we up with towards that 7080% by lime |
|
| 88:36 | . We end up with fabric like where you leech out the remaining calcium |
|
| 88:41 | . You plug a lot of that porosity with dolomite, cement overgrowth. |
|
| 88:46 | if you can hold onto some of permeability or you can enhance it with |
|
| 88:51 | then these rocks end up with decent quality. Okay. And that's pretty |
|
| 88:57 | the story for these rocks. In words it's the active bulleted grain stones |
|
| 89:03 | this trend that end up with the reservoir quality. Alright but there is |
|
| 89:08 | local stabilized wood production where you get that looks like this where the member |
|
| 89:17 | equivalent the U. S. That there to form their, they got |
|
| 89:21 | in by storms, they're mixed in more MMA critic political fabric. And |
|
| 89:26 | if you have big brains floating in muddy matrix, right? What gets |
|
| 89:31 | first? It's the muddy matrix. this stuff here because it's stolen ties |
|
| 89:38 | . And then what happens later? talked about how the remaining calcification |
|
| 89:43 | reach out to give you that secondary . Alright so what saves this rock |
|
| 89:50 | a probability standpoint is the dolomite is and it's going to fracture. And |
|
| 89:56 | you can tie this stuff together. plus east texas, we're talking gas |
|
| 90:01 | condensate if you don't need a lot permeability to get that stuff out of |
|
| 90:05 | rock, right? There's oil that an issue. But gas and |
|
| 90:11 | uh, fractures are enough to give that permeability. Okay. Everybody understand |
|
| 90:17 | we're talking about. And then the types here. Clyde more was a |
|
| 90:25 | at L. S. U. in the seventies and eighties. And |
|
| 90:30 | , did a industry consortium study on smack over. And this is some |
|
| 90:35 | the trap types that he documented. you can see some of the examples |
|
| 90:39 | we've talked about. All right. of the traps, as you would |
|
| 90:42 | a combination have a structural and a graphic component. All right, |
|
| 90:49 | And then the famous example from uh Arabia, Right? The giant oil |
|
| 90:55 | , Dewar we talked a little bit gore, Right? It's a ramp |
|
| 91:01 | . Pro grades back steps, programs steps. But then it's a big |
|
| 91:04 | structure With 1500 ft of structural Look at the scale here. That's |
|
| 91:11 | km right? I told you the structure here, the length of |
|
| 91:15 | structure is like driving from Houston to . Okay. Just to give you |
|
| 91:19 | feel for the scale and we talked the stuff that occurs in and |
|
| 91:25 | Remember I showed you the due to oil field that occurs over here. |
|
| 91:30 | basically the same structural trend that you in Saudi Arabia ramp ramp like carbonates |
|
| 91:38 | easy for this stuff to pro grade step, pro grade back step and |
|
| 91:42 | most of the production occurs from the lime stones. The grain |
|
| 91:47 | These are political skeletal, sometimes a with a lot of primary porosity but |
|
| 91:54 | dramatized. Okay. And I think had this discussion the other day last |
|
| 92:03 | about the you see how everybody calls people idle pack stones or something like |
|
| 92:09 | because of the cloudy centers of the crystals. And I caution you that |
|
| 92:15 | not necessarily the case. Right. think a lot of these dolar stones |
|
| 92:20 | grain stones that have been replaced by dolomite. Alright. They're not |
|
| 92:26 | low energy democratic political carbonates. And then this is what the ceiling |
|
| 92:33 | looks like, right? Classical modular hydrate that we talked about forming today |
|
| 92:39 | of on the tidal flats of abu . This is essentially what the Buckner |
|
| 92:46 | look like. Except they have more a red bed fabric here. The |
|
| 92:50 | would be more red bed than you here. Okay, yeah, we're |
|
| 92:58 | talking about the platform margin or ramp brain stones. Okay, we're still |
|
| 93:03 | that same plane toe. I'm just you through different examples to give you |
|
| 93:08 | for what these things look like and some of the ceiling faces are. |
|
| 93:12 | of the digest pathways. Okay, example to show you the role that |
|
| 93:22 | winds play and localizing this kind of type. The example I'm going to |
|
| 93:27 | about is called Vivian field in the cretaceous. Alright. The lower cretaceous |
|
| 93:34 | the northern gulf frame is called the formation. Alright. And the Sligo |
|
| 93:43 | a platform barrier reef developed in this right here. Okay. The blue |
|
| 93:52 | deep for production and then look at little field called Vivian field that |
|
| 93:58 | That's about 240 km in from the ocean. Okay, and again, |
|
| 94:04 | never made any sense based on the northern Bahamas models that are ingrained in |
|
| 94:09 | literature. Alright, but where does field sit? It sits on the |
|
| 94:15 | with respect to the trade winds of structure called the cattle pine island |
|
| 94:22 | Remember when I showed you on keiko's you have island topography and the trade |
|
| 94:26 | are moving, moving wind waves this . And what happens when they hit |
|
| 94:33 | exposed topography? The Pfeiffer que come , that's that time below effect. |
|
| 94:38 | , I sort of find this interesting the living field is developed essentially on |
|
| 94:43 | leeward side of this pine island Okay, and why do we know |
|
| 94:49 | trade winds are part of the story ? Because of the development of the |
|
| 94:53 | stone way? Way too far inboard be driven by tidal currents. |
|
| 95:00 | but I appreciate what I'm saying. . Trade winds can't tidal currents can't |
|
| 95:04 | this far inboard, this has to trade with. Okay, and then |
|
| 95:08 | think it's I don't think it's fortuitous you've got this structural effect. The |
|
| 95:14 | pine island paleo high sitting there with grain stones developed on the back |
|
| 95:19 | Right? That's where you get the polo effect. All right. And |
|
| 95:23 | the further line of evidence that you're agitated in the platform interior setting is |
|
| 95:30 | scale of the cyclist city here. got these repetitive upward showing sequences that |
|
| 95:36 | analytic or mixed skeletal grain stone. these these things are on the scale |
|
| 95:41 | 10 or 15 ft thick. That's scale cyclist city, which is normally |
|
| 95:47 | you develop in a more platform material . Right? You don't develop these |
|
| 95:51 | thick cycles that's limited to the Okay, so the scale of cyclist |
|
| 95:56 | is consistent with a platform material All right. You can see again |
|
| 96:03 | grading back stepping, pro grading classical of cyclist city and it's producing from |
|
| 96:10 | that looks like this. These are brain stones. Okay. But there's |
|
| 96:17 | interesting die genic over print here. that has to do with the development |
|
| 96:22 | the micro porosity. The zoo it's riddled with secondary micro porosity. And |
|
| 96:29 | talked a little bit about this last . What happens when you have a |
|
| 96:33 | mobile pour system where you have effective inter particle ferocity. Well connected. |
|
| 96:41 | . And then you have isolated secondary molded porosity within the U. |
|
| 96:45 | And P. Lloyds. Where do trap your water by capillary force. |
|
| 96:50 | in the in these grains. Where's oil? It's in this porosity. |
|
| 96:57 | . We talked about what happens when run a resistive the log, |
|
| 97:01 | It picks up on the water in micro porosity And it leads you to |
|
| 97:08 | high water saturation. But these are famous examples that produced oil water free |
|
| 97:15 | though they had water saturation of 60 80% so this is a famous example |
|
| 97:22 | that. Okay. And then another would be Alabama ferry field that occurs |
|
| 97:28 | east texas. Again a field. how far back from the platform margin |
|
| 97:34 | occurs during the middle part of the . That's 10 miles. That's 10 |
|
| 97:40 | miles in from the open ocean. . And then look at look at |
|
| 97:45 | lobes with this orientation. See how line up from the southeast to |
|
| 97:51 | Remember we talked about prevailing wind coming of the eastern quadrant. It doesn't |
|
| 97:55 | everything's just out of due east. can also be out of the southeast |
|
| 98:00 | at southeastern quadrant. Right? That's what I showed you for keiko's. |
|
| 98:05 | either due east or southeast. And the combination of these elastic and scalable |
|
| 98:11 | stones, 30 miles inboard from the ocean and the orientation of the sand |
|
| 98:15 | again is to me it's geological evidence the trade, the strong trade |
|
| 98:20 | Strong trade wind effects. Okay so really key to see the U. |
|
| 98:26 | . Okay. You know what it to make us now. Right. |
|
| 98:31 | water, persistent agitation. Something I to code. Right, There are |
|
| 98:37 | two ways to do this tidal currents wind wave agitation. The tidal currents |
|
| 98:42 | operate 30 miles in on an open . Okay. That energy gets dissipated |
|
| 98:50 | quickly. Okay, Alright. And example from west texas central basin platform |
|
| 98:59 | the Permian. This is a structural surrounded by deep water, shallow interpret |
|
| 99:06 | basins, the midland and Delaware I'm gonna show you some grain stone |
|
| 99:10 | up on the central basin platform or the southern part of this northwestern |
|
| 99:17 | Okay. And if you look at paleo geography here, it's sort of |
|
| 99:21 | that during this time in the early middle to late Permian look where this |
|
| 99:29 | was, it's nestled right close to paleo equator. Okay. And so |
|
| 99:35 | some question about whether these reservoirs, , this is my computer acting up |
|
| 99:42 | its own here. There's some question whether you would have been in a |
|
| 99:47 | suitable to be influenced by strong trade agitation. Okay, because you're close |
|
| 99:53 | the you're within that five degree Okay, so that begs the |
|
| 100:00 | right, If you don't have trade to drive, making new it's what |
|
| 100:03 | you left with just title parents. , So there's a couple of different |
|
| 100:11 | views to show you this field, ? Which is called vacuum field. |
|
| 100:16 | is called northwest shelf up here And field. Some some maps show central |
|
| 100:23 | platform tied directly into the uh north shelf. But other maps like this |
|
| 100:30 | show that there's actually a channel in . All right. And I think |
|
| 100:34 | people, I think most people now that there's probably a channel that cuts |
|
| 100:39 | here and here's vacuum field. And field produces from these demonetized analytic grain |
|
| 100:46 | . So, the question is no we're not at the right paleo latitude |
|
| 100:53 | trade win agitation. Maybe this is by tidal currents. Right? Taking |
|
| 100:58 | of that channel. Because what happens you try to move water back and |
|
| 101:02 | with normal title exchange between the middle basin and the Delaware basin. |
|
| 101:08 | You try to squeeze water through these , you increase the tidal current |
|
| 101:13 | Alright, So that might be the why vacuum field exists where it |
|
| 101:18 | All right. But it's a ramp . The wood grain stones are at |
|
| 101:24 | ramp crest, right? That little right here, That would be close |
|
| 101:28 | the high energy part of the part the profile. Right? Low energy |
|
| 101:36 | a critic carbonates behind it. Deeper faces. You go off to the |
|
| 101:42 | , Alright. And why does vacuum work? It works because of |
|
| 101:45 | Alright, politic scalable grain stones have dramatized? All right. It's a |
|
| 101:52 | profile. It's basically the Arabian gulf that I showed you from the |
|
| 101:58 | And you have stratification associated with these dualistic grain stones. And then what |
|
| 102:06 | do you see you see this classical like geometry. This is that pro |
|
| 102:12 | all back stepping. Pro gradation back profile which is more commonly associated with |
|
| 102:20 | low angle ramp settings. Okay, it all fits together here in terms |
|
| 102:26 | deposition on setting. The big question , what was the driver? |
|
| 102:29 | Was it trade winds or was it cards? Right. And I |
|
| 102:38 | I think the only way maybe to that question would be to try to |
|
| 102:41 | a pack some of the sand bodies see if there's a preferred orientation that |
|
| 102:46 | reflect one or the other. Remember how we talked about the same |
|
| 102:50 | orientations are different between the trade winds And what the title parents did. |
|
| 102:57 | . And then one last example here another field called bulletin field still on |
|
| 103:02 | central basin platform. Alright, similar positional model here ramp crust is where |
|
| 103:09 | get the high energy politic phases. relationship here, procreation back stepping, |
|
| 103:19 | back stepping, sale the tidal Pro grade out along with the grain |
|
| 103:23 | . And then you back step build , you pro grade out, you |
|
| 103:27 | step, you pro grade out. are you creating here again, multiple |
|
| 103:32 | reservoir units. Again. Okay, ferocity is mostly associated with the grain |
|
| 103:40 | and the best reservoir quality is in grain stones. And of course, |
|
| 103:46 | it's because of favorable limestone die genesis you reach out to you, it's |
|
| 103:52 | these cross stratified units, but sometimes a dolomite over print that comes into |
|
| 103:57 | here as well. Alright, One last example here, Mississippian, |
|
| 104:07 | that time period. If you had guess two things about the Mississippian, |
|
| 104:12 | would guess you should guess Quran Lloyd's , tons of crying noise in the |
|
| 104:19 | . And and then what else? of boots. Right. And uh |
|
| 104:25 | don't you get into Mississippi? You get any classical high energy shallow water |
|
| 104:29 | because you didn't have the right kind organisms to make those reefs. |
|
| 104:35 | so the famous area of Mississippi sand deposition with well established oil and |
|
| 104:44 | production is the yucatan involvement in the the in the central US. |
|
| 104:53 | This is in Kansas, you get isolated, intricate tonic basins with sand |
|
| 105:01 | . And again, everybody historically related zoo. It stands to what tidal |
|
| 105:08 | Back in the 60s, 70s and , because that was the only model |
|
| 105:11 | had back then. But if you about it, this really doesn't make |
|
| 105:16 | sense, right? You're in an basin, you're not connected to the |
|
| 105:20 | ocean. You don't have any oceanic like tidal currents. So this is |
|
| 105:26 | I think needs to be reevaluated in of the trade wind models. |
|
| 105:30 | you're at the right paleo geography for wind effects. But somebody needs to |
|
| 105:36 | this stuff again. But the It's remember I showed you how the |
|
| 105:40 | . It's there's really no difference between that are formed by trade winds and |
|
| 105:45 | ones that are formed by tidal Alright, You have to look at |
|
| 105:48 | geometries of the sand bodies and and about that. And I'm I'm working |
|
| 105:54 | some people in Oklahoma city. This one of them john brad who's Bendy |
|
| 106:00 | and he's he's seen the trade wind on sand deposition. He's taking those |
|
| 106:06 | and now he's starting to apply it some of his prospects and he's seeing |
|
| 106:10 | orientation effect come into play here. , trying to exploit that. |
|
| 106:17 | Alright, one last comment here and we're gonna take a break. One |
|
| 106:22 | sequence, I want to show you the the US gulf, northern gulf |
|
| 106:27 | of the ancestral gulf of Mexico is sequence called the Haynesville limestone or locally |
|
| 106:33 | called the Gilmore limestone. And I to show you the sequence because I |
|
| 106:38 | you to appreciate there's another way to a parable die genesis and thats burial |
|
| 106:45 | to great ferocity. Okay, Most what I've showed you here is either |
|
| 106:49 | primary porosity or it's early form ferocity to favorable limestone die genesis or early |
|
| 106:58 | . Okay, so this sequence occurs east texas. All right. And |
|
| 107:04 | is uh, the basin is called Texan salt basin. And you can |
|
| 107:09 | there are two flanks here that have deposition. The eastern flank is the |
|
| 107:16 | famous with the bigger gas fields. sorry, there is there is isolated |
|
| 107:25 | and oil production on the western side , but all these yellow dots you |
|
| 107:29 | here are driven by salt tectonics. , so salt punch up structures that |
|
| 107:36 | little isolated with sand body systems or happened the salt withdrew. So what |
|
| 107:43 | to the salt that actually occurs in lows now? Alright, so sometimes |
|
| 107:48 | play the highs, sometimes they actually the lows looking for what used to |
|
| 107:53 | I right where the salt withdrew, you had that sand deposition. |
|
| 108:01 | now everybody thinks this is the more side and it is from assault tectonic |
|
| 108:07 | . But actually there's some major uh reactivated basement fault systems that run through |
|
| 108:15 | that are part of the die genesis , I think. Okay, so |
|
| 108:19 | , the Haynesville or what people call Gilmer limestone is actually very similar to |
|
| 108:26 | similar to the smack over that. just talked about, okay, a |
|
| 108:32 | 100 ft thick, deeper water at base, right? You come out |
|
| 108:34 | the Buckner, you deepen the Buckner and red beds, you create new |
|
| 108:39 | and you shallow up and you shall on the eastern flank into these high |
|
| 108:43 | utility grain stones. And because there's little sub basin off to the right |
|
| 108:49 | not a steep margin. The sand what pro grades. Okay. And |
|
| 108:53 | it pro grades, it shoots those deposits out in front of it. |
|
| 108:58 | , remember we talked about this the big storms will pull stuff offshore |
|
| 109:06 | that stuff can amalgamate into thicker Greenstone . Okay, so all of these |
|
| 109:12 | and And uh this part of east are gas productive except for one prospect |
|
| 109:19 | that pioneer drill back in the late , they found the ferocity they |
|
| 109:25 | but they probably found a breach trap one of the false systems breached and |
|
| 109:30 | gas leaked out. Alright. But that you see here in red produces |
|
| 109:36 | the zulu grain stones. Okay, includes the main goal, which is |
|
| 109:41 | up here at the top and these tights that occur out in front of |
|
| 109:45 | . All right. And I talked why these are storm deposits. Remember |
|
| 109:52 | gonna show you the core for this a minute, but I want you |
|
| 109:55 | appreciate the sequence here. The showing that culminates in an act of shoal |
|
| 110:01 | the back shoulder goon behind it is out by the Bossier shale. The |
|
| 110:07 | shale is also the source rock for gas. Okay, so that's a |
|
| 110:12 | , that's what we call a drowning conformity. But the old literature and |
|
| 110:17 | the excellent sea level curve treats us what a type one on conformity. |
|
| 110:23 | claim it's a major severe real exposure . Alright. And that's based on |
|
| 110:27 | strata geometries. It's not based on physical rock data because when you look |
|
| 110:33 | the court contacts right there, if a true several exposure surface, what |
|
| 110:39 | we see? We should see things cursed reddish soil profiles. Right? |
|
| 110:47 | dissolution, early semente shin. We see a reddish color, right? |
|
| 110:53 | to oxygen, oxygenation by oxidation by water. Right? We shouldn't see |
|
| 111:02 | like pyrite. Right? Which is reduced variety of iron sulfide. |
|
| 111:07 | here's what the court contact looks It's sharp as you'd expect because it's |
|
| 111:13 | major deepening on top. But the stones here are replaced by pyrite. |
|
| 111:19 | no cursed. There's no soil Okay. There's no exposure. |
|
| 111:26 | This whole system was drowned out. right. And the active show looks |
|
| 111:31 | this in core with a high degree preserve stratification, which is what you |
|
| 111:36 | expect, right? Because you maintain through time and high energy environments. |
|
| 111:41 | produced preserved a lot of that primary . And then the Tempest sites I |
|
| 111:50 | you they were probably stratified when they deposited. But then they get reworked |
|
| 111:54 | the contacts get reworked. Okay. that's down ramp sediment. But this |
|
| 112:01 | is gas productive because it develops the type of ferocity. And the proxy |
|
| 112:08 | is interesting because most of the Painesville is dry gas. But there are |
|
| 112:16 | couple of oil fields on the western and they look like this. And |
|
| 112:21 | section this looks just like some of down dip smack over. I showed |
|
| 112:25 | from Arkansas and Louisiana where it's You see the grain sutured, high |
|
| 112:32 | of primary prostate. No secondary microprocessing . It's okay. So, when |
|
| 112:37 | in the oil window, you don't that secondary microprocessor development, when you |
|
| 112:42 | into the gas window. Alright, develop that high amount of micro porosity |
|
| 112:47 | the Eu IDs unless you somehow in those grains and oil. Dead |
|
| 112:54 | All right. See what I'm So the microprocessor developed came from fluids |
|
| 112:59 | the cracking of oil to gas. , so the Haynesville produces from this |
|
| 113:07 | . We talked a little bit about last week. Right? And it's |
|
| 113:12 | high amount of secondary microprocessing. It's it's preserved up to and around |
|
| 113:16 | style lights. It's preserved along the to grain future context. There's no |
|
| 113:23 | cement. Okay, There's leaching of tick grains like oysters. The process |
|
| 113:32 | after the fractures have been cemented, of this process forming during barrel. |
|
| 113:38 | , so, I want you to that some for this play type there |
|
| 113:42 | that potential to develop the reservoir quality during burial. And I'm gonna argue |
|
| 113:47 | a minute that that's where the structural comes into play. All right, |
|
| 113:52 | , you've got these diagrams in your , but basically we start with |
|
| 113:57 | There's no early die genesis. We the rocks. Get the pressure solution |
|
| 114:03 | . Right. That generates some of pore filling barrel cal sites. Remember |
|
| 114:09 | they're distributed away from the future? contacts. Oil comes in right, |
|
| 114:16 | got an oil field on the west when it's still in the oil |
|
| 114:19 | But what happens is these carbonates continue get more deeply buried. The oil |
|
| 114:25 | or cracks, right? Oil leaves you still have some reservoir quality. |
|
| 114:34 | second fluid comes in, drives that leeches the calcite grains. So, |
|
| 114:39 | know, these are acid fluids. , that's going to generate a little |
|
| 114:43 | more of this poor filling calcite Alright, so you end up with |
|
| 114:48 | that looks like this today. Mostly secondary micro molding ferocity, one |
|
| 114:54 | two primary prostate units. These are reservoirs. The permeability is not a |
|
| 115:00 | control here. These don't have to fractured to be productive. Alright, |
|
| 115:05 | appreciate the timing relationship here. And the porosity always shows this bell |
|
| 115:15 | distribution highest at the center of the , lower and lower as you go |
|
| 115:19 | the go towards the edges. Because continued burial, you actually bleed in |
|
| 115:26 | cement from the critic beds on both of that grain stone to give you |
|
| 115:31 | bell shaped ferocity. And then the that this is also a fault controlled |
|
| 115:37 | play is the fact that we have these exotic non carbonate minerals associated with |
|
| 115:44 | Haynesville. And it's not just right the top. It's all through the |
|
| 115:48 | . Alright so we haven't talked about significance of these minerals yet Really. |
|
| 115:55 | my ride is iron sulfide. And Marcus site is it's this is |
|
| 116:02 | mineral. It has the same mineral but a different structure. Okay. |
|
| 116:10 | what is significant about Marcus side Market only precipitates for massive fluids. |
|
| 116:17 | As does Ortho genic courts as does And mega courts, where do these |
|
| 116:23 | come from? They come from deep frenetic basement rock. Okay. Now |
|
| 116:30 | is one of these A C. . C minerals. It can precipitate |
|
| 116:34 | acid fluids. It can precipitate from fluids. So by itself it doesn't |
|
| 116:38 | anything about the chemistry of the poor . The market side does. |
|
| 116:44 | And market sites distributed all through here the sequence. As is quartz, |
|
| 116:49 | fluoride. Okay everybody appreciate what I'm here. We're using these exotic non |
|
| 116:56 | minerals to figure out where the fluids coming from. Okay, so that's |
|
| 117:01 | I'm arguing that this is a fall digest play as well as a ramp |
|
| 117:08 | brain stone play. Okay and then I'm biased here in terms of of |
|
| 117:16 | up some of the production associated with parts of the of these fields. |
|
| 117:21 | you sort of see a linear trend which I think is what you would |
|
| 117:25 | to see when you do see this other sequences where there's underlying fall control |
|
| 117:29 | the on the better reservoir quality. , so food for thought. And |
|
| 117:37 | a paper on your travel drive that a lot of these relationships. |
|
| 117:41 | for this field. Alright, so summarize And then we'll take a 10 |
|
| 117:47 | break here. Platform margin ramp, grain stones, Pre existing topographic highs |
|
| 117:53 | usually localized these carbonate sand bodies. , subtle topographic highs are very important |
|
| 118:02 | . Okay, you're gonna see this for all five conventional plays. Depth |
|
| 118:06 | burial digest history controls reservoir quality. , the best reservoirs are those that |
|
| 118:12 | partially cemented early in grain stones are delimited or dramatized early where you hold |
|
| 118:20 | to that process depth. The fizzy setting controls the stacking of the |
|
| 118:27 | Ramps, as you've seen, pro back step, pro grade back step |
|
| 118:32 | margin profile. What are you gonna a grade right ribbon like morphology along |
|
| 118:38 | platform margin. Alright, sometimes you structuring to entrap the hydrocarbons, but |
|
| 118:44 | think strata, graphic digest traps are more common in the subsurface than companies |
|
| 118:50 | been willing to admit. The seals time equivalent. The critic or evaporated |
|
| 118:55 | show faces. Source rocks are usually a problem there offshore nearby. Based |
|
| 119:01 | shale or limestone. Okay. And are some of the examples. All |
|
| 119:07 | . So in the future you have bibliography that you can rely on |
|
| 119:13 | you know if you get involved in kinds of plays later. Okay. |
|
| 119:19 | questions or comments about this first, play? All right, let's take |
|
| 119:25 | 10 minute break and then we'll come and talk about the 2nd style. |
|
| 119:29 | platform margin briefs. Okay, so let's move on to the |
|
| 119:37 | what I call conventional play type. that's the platform margin reefs and two |
|
| 119:44 | here show you the difference in the of the reef geometry to slope angle |
|
| 119:51 | what sea level is doing through Okay, so the upper cartoon is |
|
| 119:57 | of the northern Bahamas example today where have a reef develop along the ST |
|
| 120:03 | profile. Right? Remember these reefs to form where open ocean sides of |
|
| 120:09 | these platforms where they catch the oceanic if they also face into the prevailing |
|
| 120:15 | , that's even better. Okay, and this this example here, they |
|
| 120:21 | really appropriate, right? Because the is really deep in front, so |
|
| 120:24 | forced to build vertically through time. is the ribbon geometry that I was |
|
| 120:28 | about. Okay, so you the issue here is how do we |
|
| 120:33 | seal this potential reservoir? Right. can't use the platform interior lagoon sediment |
|
| 120:42 | the top seal because it can't pro out over that brief through time because |
|
| 120:46 | not programming. Okay, so in model, you top seal it by |
|
| 120:52 | out the reef sea level comes up such a rate that the reef can't |
|
| 120:57 | to grow. You drown it out you put deep water carbonate or deep |
|
| 121:01 | shale on top. Okay. And are lots of examples like that in |
|
| 121:05 | rock record. Okay. But you the slope angle, like having the |
|
| 121:10 | diagram here where this system can pro . And I showed you this |
|
| 121:16 | an outcrop reef like this. An from Mexico. Last weekend we talked |
|
| 121:21 | the torpedo formation. Remember the big ? Don't remember the big shirt on |
|
| 121:29 | diagram. All right, lateral procreation 100 km for this reef system. |
|
| 121:36 | , that's a lower slope angle. . And in that case, what |
|
| 121:41 | piggyback on top of that through time subsidence is the time equivalent more um |
|
| 121:47 | critic back reef again. Okay. so in this model, you're effective |
|
| 121:52 | seal would be the time equivalent back again. Okay. And there are |
|
| 121:56 | of examples of that in the rock , right? No, there's a |
|
| 122:02 | an industry that carbonates are not good faces, right? Because they're carbonated |
|
| 122:10 | they're gonna fracture, right? And gonna leak. But that's not supported |
|
| 122:16 | the observations, right. If you a thick enough lagoon, als muddy |
|
| 122:20 | sitting on top of the reef that be an effective effective top seal. |
|
| 122:26 | . A lot of companies think the way to effectively top ceiling carbonates with |
|
| 122:29 | shale. Alright, And that's that's not true. All right. Source |
|
| 122:35 | in this model would be offshore nearby carbonate or basin oil shale. |
|
| 122:41 | And then last weekend we spent time about the barrier reef model. I |
|
| 122:47 | you to appreciate any one point in to basically to sub faces the re |
|
| 122:53 | . The factory relatively narrow, A few 100 m across for |
|
| 123:00 | And then time equivalent to that is lagoon behind it, right? Or |
|
| 123:07 | slope in front of it. But shedding is not this way on open |
|
| 123:11 | reefs, It is back behind it make the battery flat. So the |
|
| 123:17 | flat ends up being 10 or 20 wider than the re front. |
|
| 123:22 | But the whole system can do what time pro grade if it's the slope |
|
| 123:28 | is not too high and the whole front is not too high. |
|
| 123:34 | You expect these reefs have good scientific because you're building that vertical aggregation profile |
|
| 123:42 | the reef starts to pro grade. then most reefs that build the sea |
|
| 123:48 | , want to do what they want build it. They want to build |
|
| 123:54 | and then do what pro grade out seaward direction. Right. This creates |
|
| 123:57 | we call the mature barrier reef Right. The definition of the mature |
|
| 124:03 | reef model was you built up the level with a good re flat. |
|
| 124:08 | , Okay. And this this is produced by showing up. But then |
|
| 124:14 | right in order to get the debris thrown back and filling the old reef |
|
| 124:20 | hill reef margin was here and built seaward direction like that. Right. |
|
| 124:25 | I took you guys through a couple modern analog, the police barrier reef |
|
| 124:29 | the caribbean. And then I contrasted with the the great barrier reef system |
|
| 124:34 | Australia. Alright. Any one point time, the system looks like |
|
| 124:39 | Re front out here, bakrie flat with excellent reservoir potential. Right? |
|
| 124:47 | remember with respect to marines imitation, where do you get marines imitation in |
|
| 124:51 | profile out here in front, where you get marines imitation anywhere back |
|
| 124:57 | Okay, and so the brief the of the reef flat is really your |
|
| 125:05 | reservoir interval, Right? If you to, you have to guess where |
|
| 125:11 | best reservoir quality is gonna be in model, You're always gonna pick the |
|
| 125:16 | flat. Okay, the debris. right, the course of rubble or |
|
| 125:20 | finer grained stone material. Right? then remember all of these reef systems |
|
| 125:26 | cut by channels. You need channels get water on and off the |
|
| 125:30 | But think about this in the right? When you bury your |
|
| 125:35 | write your linear prostate trend. If any structural tilting, you gotta do |
|
| 125:41 | you gotta seal it right to keep oil from leaking out, right going |
|
| 125:46 | dip. So one way to do is to take advantage of these channels |
|
| 125:51 | cut the reef. If they get in with deep water carbonate or |
|
| 125:55 | they provide a nice up dip seal that linear porosity trend. Okay, |
|
| 126:02 | you gotta hope for their fault or like that to cut through there to |
|
| 126:06 | that that seal. Okay, so just jump right into some examples here |
|
| 126:13 | we'll just move through geological time We'll start in the lower paleozoic with |
|
| 126:18 | devonian and the devonian reefs were mostly by Strome atop roids, not |
|
| 126:27 | And this is a complicated map because comparing apples and oranges with respect to |
|
| 126:33 | types. All I want you to on for this diagram is this part |
|
| 126:38 | the map right here? What's called shell basin is a horrible term. |
|
| 126:45 | should be called cooking like platform. , It's not a deep water |
|
| 126:50 | It's a drowned carbonate platform. And that platform are isolated reefs of a |
|
| 126:56 | play type. Like we're going to about next, but right along the |
|
| 127:01 | , right here are linear reefs, , margin reefs dominated by Strome atop |
|
| 127:08 | . Okay, They're mature reefs. built up the sea level with a |
|
| 127:11 | flat. Most of them are delimited , so they have that over print |
|
| 127:17 | create secondary process, but a couple still limestone. And what's the orientation |
|
| 127:23 | respect to the trade winds. This actually the leeward side of the |
|
| 127:28 | Okay, so this is western This is Alberta. Okay. And |
|
| 127:35 | paleo geography during this time of the was for 15 degrees south of the |
|
| 127:41 | . All right. The prevailing winds out of the east Northeast quadrant. |
|
| 127:46 | . And we still develop these reefs the leeward March. So, why |
|
| 127:51 | we do that? We blocked off sediment transportation. Alright, What's one |
|
| 127:58 | the ways to do that to have platform deep enough to inhibit off bank |
|
| 128:04 | ? Right, so the trade winds agitation along this margin, but the |
|
| 128:09 | winds are not able to put fine carbonate material and suspension here and persistently |
|
| 128:15 | those reefs. Okay, so these always consist of the two components that |
|
| 128:24 | just talked about from the modern, the re front looks like this in |
|
| 128:32 | thick tabular strom atop roids. These thought to be in clusters. |
|
| 128:36 | So this is part of that shallow front or the C. Word part |
|
| 128:42 | the of the reef flat with coarse . This is that root stone and |
|
| 128:48 | stone fabric. Excellent primary porosity. , so in this, in these |
|
| 128:54 | systems you get that are not delimit yet. This has this is still |
|
| 128:59 | . That's what controls the processing Right. It's that fabric. But |
|
| 129:03 | better processing perm occur in the debris behind this. Okay. And that |
|
| 129:09 | looks like this. The broken up of strom atop roids. These are |
|
| 129:13 | roots stones and float stones with a storm at operator skeletal grain stone |
|
| 129:21 | Ok. But sometimes hundreds of military of permeability because you've got good, |
|
| 129:27 | connection of poor threats. Okay, talk about the demonization effect here in |
|
| 129:33 | minute. All right. But just a limestone perspective, right. This |
|
| 129:37 | what some of the, some of devonian pools look like. Alright, |
|
| 129:42 | just jump back up into the Remember, this is another variation on |
|
| 129:48 | map I showed you for the grain development in west texas. This is |
|
| 129:52 | northwestern shelf that we talked about. is a central basin platform. There's |
|
| 129:57 | channel called the san Simon channel. . And I'm going to talk about |
|
| 130:01 | reefs that occur along this margin right . Okay, On the northern end |
|
| 130:06 | what is the Delaware basin in west . These are lower Permian aged |
|
| 130:12 | oldest permian aged reefs. The trend called a bow. Okay. And |
|
| 130:18 | of the famous fields is called Empire field. You can see the reserves |
|
| 130:26 | . You know what a giant oil is In terms of oil in place |
|
| 130:31 | million is a giant oil field. , so this is not quite a |
|
| 130:36 | oil field, but it's pretty Alright. And this stuff works because |
|
| 130:42 | reef is Delaema ties. These are is Permian age. So the Permian |
|
| 130:46 | a time where you have corals. weird cal correa sponges, other cal |
|
| 130:51 | algae and then you have debris associated it. And all of this stuff |
|
| 130:56 | to be Delaema ties to be Okay, so it's not an incredibly |
|
| 131:02 | platform margin. Alright. There's a bit of procreation that you see here |
|
| 131:07 | with that refill system. Okay, you come out into the Delaware |
|
| 131:14 | this is what the refill rock looks . These are the cal curious |
|
| 131:18 | I don't know if you remember to feeds. I talked briefly about tube |
|
| 131:23 | that's an encrusted in the permian that to some of the re framework |
|
| 131:28 | It's an organism that nobody knows really it is. Okay. And you |
|
| 131:33 | see some of the porosity and also some of the late stage and |
|
| 131:39 | Remember the common theme that we developed weekend was we have late stage and |
|
| 131:43 | coming into Dulles stone, we start some secondary leaching of that fabric, |
|
| 131:49 | exactly what you see here. so the re front is productive because |
|
| 131:55 | the secondary process development. The debris that occur on both sides of that |
|
| 132:00 | front look like this in core. . Remember the fuselage needs are the |
|
| 132:06 | benthic. Foraminifera Krih noise. Those the Quran IDes of the light colored |
|
| 132:12 | right there, You can see All right, high degree of secondary |
|
| 132:17 | development. And then of course the benefit of dilemma ties in the reef |
|
| 132:21 | you get fractures and the fractures help some of that secondary porosity and then |
|
| 132:28 | is over land or top sealed by green shales. Alright, so that's |
|
| 132:32 | effective top seal for that reservoir. . Platform margin, but this case |
|
| 132:40 | to have favorable reservoir quality. and let's move up into the cretaceous |
|
| 132:50 | we're gonna talk about the middle part the cretaceous. I talked about south |
|
| 132:57 | when I was I started this discussion talking about the paleo highs beget paleo |
|
| 133:02 | , right, that was the Edwards cretaceous trend that occurs in south |
|
| 133:07 | We're gonna talk about that trend it's a marginal economic gas trend. |
|
| 133:13 | gas trend that occurs in south That trend extends all the way around |
|
| 133:18 | gulf rim to florida comes down here Mexico and we'll talk about the equivalent |
|
| 133:25 | in Mexico. That is a oil called uh Golden lane. Okay, |
|
| 133:36 | strata graphically. This is where we're . We're in the Albion age. |
|
| 133:42 | of the trend basically middle cretaceous part the trend. We're gonna be talking |
|
| 133:46 | the Edwards, which in the subsurface broken out into a zone and a |
|
| 133:51 | . This is essentially two cycles of related sedimentation. Okay, the trend |
|
| 133:59 | south texas runs from the northeast down the southwest and the It's interesting remember |
|
| 134:13 | llano uplift that I talked about the extension off the landau uplift. It's |
|
| 134:18 | the san Marcus platform here in south . The san Marcus platform is going |
|
| 134:23 | come into play for our discussion about Austin chalk. Tomorrow. That's |
|
| 134:28 | basement rock. Okay. Which is the landau uplift is up to the |
|
| 134:33 | west. There's an older cretaceous platform called the Sligo that we talked about |
|
| 134:42 | Louisiana that I said was too deep be productive. It's marginally gas productive |
|
| 134:48 | in south texas. And then look when you come into the next three |
|
| 134:54 | , The younger re sequence, which the Edwards. Look how it |
|
| 134:57 | one on top of the other when sits on frenetic basement rock. But |
|
| 135:04 | trends actually bifurcate when they go to Northeast and when they go to the |
|
| 135:09 | and nobody really knows why they Okay, but the logical influence probably |
|
| 135:17 | salt tectonics because there's active salt movement the northeast of that sand Marcus arch |
|
| 135:23 | there's active salt tectonics to the south . Okay, And then you see |
|
| 135:29 | red line here in this lower map the Edwards reef trend. And I |
|
| 135:34 | you to appreciate that While it looks all of these reservoirs that are listed |
|
| 135:38 | are aligned with that platform margin The 22 of the bigger gas |
|
| 135:44 | Dilworth and word field actually are different type. They produce from back |
|
| 135:51 | lagoon carbonates. Okay, that's a play type. The one that falls |
|
| 135:56 | this category for discussion is pawnee. , so Ponti is a good example |
|
| 136:01 | the platform margin Edwards reef trend. right, so what's unique about the |
|
| 136:07 | of cretaceous? This is that geological period where the corals and storm atop |
|
| 136:15 | droid sort of die off. You see them as much in the middle |
|
| 136:19 | upper cretaceous. You see this change a these marginal reefs that are dominated |
|
| 136:24 | rudest. Remember rudest were mollusk. . And there are basically five types |
|
| 136:34 | molluscs, rudest that are associated with of these reef complexes. And I |
|
| 136:41 | I briefly mentioned this the other Right? Uh A couple of them |
|
| 136:48 | horn shaped like you see here. some of them are were as big |
|
| 136:52 | my leg and outcrop. Alright. lot of internal porosity, which means |
|
| 136:57 | they're easily broken down into debris. we mentioned the mineralogy summer Iraq |
|
| 137:04 | And then some like the two It's are schizophrenic. They have one |
|
| 137:08 | of this calcite, one layer. Iraq genetic. Okay. And then |
|
| 137:12 | monopoly boards are cal citic, but occur in these low energy batteries behind |
|
| 137:18 | reef margin. Okay, so the for making rudest reefs is different than |
|
| 137:26 | we talked about for the classical barrier . Classical barrier reef. We saw |
|
| 137:31 | , high energy reef along the Right, rudest or not like the |
|
| 137:38 | day barrier reefs. They occurred as pat reefs and some groups some of |
|
| 137:47 | rudest grew like this upright trapping sediment then they die and fall over where |
|
| 137:53 | lived horizontally on the surface of trapped . Okay, then they would get |
|
| 137:59 | up by major storm activity. All , so these reefs are put together |
|
| 138:04 | these mixtures of reef cores which never thicker than about 25 m surrounded by |
|
| 138:13 | debris. Okay. And one's a stone, Right? So stuff trapping |
|
| 138:21 | mud matrix and then grain stone debris it generated by the storms. And |
|
| 138:26 | what happens through time is all of coalesces along the margin. Okay. |
|
| 138:31 | so that's why people map this linear trend, but it wasn't a classical |
|
| 138:36 | reef, like it is like we today. Everybody understand it was a |
|
| 138:40 | of little patch trees, it got over periodically by storms. Regroup shed |
|
| 138:46 | , coalesced. Okay, so that's this diagram is trying to show. |
|
| 138:53 | , And Edwards is made up of 2 2 sequences of deposition. The |
|
| 138:59 | Edwards B, which is historically not productive and then what they call the |
|
| 139:03 | . D. M. B, is regional dense member. This is |
|
| 139:07 | a reflection of a new cycle where deepened, drowned out the reef. |
|
| 139:12 | started up again and then the bottom out of here on the gamma. |
|
| 139:17 | can see this is the Georgetown, is a deep water pelagic carbonate that |
|
| 139:22 | out the reef. Okay, so me show you the outcrop equivalent |
|
| 139:27 | So you appreciate what it looks like the field. This is from Mexico |
|
| 139:31 | one of the, what we call reef core. All those holes you |
|
| 139:35 | there used to be pieces of the , the magnetic. And what's in |
|
| 139:41 | is the mud matrix that was trapped those roots before they died and got |
|
| 139:46 | . Okay, so that's the outcrop . Here's the subsurface equivalent. You |
|
| 139:52 | see the rudest pieces with the internal . You can see there's a schizophrenic |
|
| 139:58 | that I talked about that has the calcification A. Er and the re |
|
| 140:02 | white former magnetic layer. But look in between the critic colloidal mud. |
|
| 140:10 | , there's no porosity in the There's no perm. But the reef |
|
| 140:16 | have ferocity. Alright. People have 1520% porosity for these reefs. But |
|
| 140:23 | are they? The mold? The , The mold, the mold. |
|
| 140:27 | . Not connected, no permeability. historically this kind of stuff never |
|
| 140:33 | Alright, the productive faces is the sheets in between. So here's another |
|
| 140:40 | in central texas. That's a patch where you see the bigger pieces. |
|
| 140:45 | , the baffle stone texture. There's over here and then look at what's |
|
| 140:49 | between these rippled asymmetrical ripple, That's one wave oscillation, ripples of |
|
| 140:55 | stone debris. That's the stuff soft the patrick by major storm activity. |
|
| 141:01 | the equivalent in the subsurface. That's the basically the re flat degree |
|
| 141:08 | up by major storm activity. That's most of the Edwards produces from. |
|
| 141:13 | , it looks like this infant you can see some of the primary |
|
| 141:17 | of the rudest fragments. That's primary particle ferocity, partial multi porosity |
|
| 141:25 | Mostly secondary porosity with calcite sedimentation, some of that original porosity. And |
|
| 141:34 | You can see the sample here. is 10,360 ft. This is from |
|
| 141:40 | NMR study I think I talked about weekend that I did for Anadarko where |
|
| 141:45 | try to use the NMR tools two expiration. So this is a plug |
|
| 141:51 | 9% porosity, 2.4 million Darcy's Alright, this would be gas |
|
| 141:57 | Alright, because you don't need a of perm for for dry gas. |
|
| 142:04 | . And then I mentioned Ponti field , Ponti is an old shell field |
|
| 142:09 | they shall discover this back in I guess the 60's and their development |
|
| 142:15 | all vertical drilling. Okay. And could see their history up until 1985 |
|
| 142:24 | vertical wells producing field wide 8.5 million billion cubic feet of gas today. |
|
| 142:33 | . And then pioneer natural resources out Dallas before they became a shale |
|
| 142:40 | we're pretty active with carbonates that they this field and redeveloped it with horizontal |
|
| 142:46 | because the other concept was people thought the low matrix perm these these reefs |
|
| 142:52 | to be fractured to be productive. so the strategy was to come in |
|
| 142:57 | . Okay. And even without the just coming in horizontally, you're obviously |
|
| 143:04 | a lot more porosity. Right? they got the production up, I |
|
| 143:08 | , look at the change in production field wide up to 50 million cubic |
|
| 143:14 | of gas that they of course they a lot more wells too, |
|
| 143:17 | but I know that their production increased . Right? These wells would produce |
|
| 143:24 | or two million cubic feet of gas day with a vertical well, these |
|
| 143:27 | were producing 8 to 10 million cubic of gas today, horizontally. |
|
| 143:33 | so horizontal wells improve your produce Right, Alright, so that's a |
|
| 143:39 | study from south texas. Alright, gas. We're talking barrel depths of |
|
| 143:45 | little over 10 to over 13,000 ft burial. Alright, and so one |
|
| 143:51 | the critical considerations is holding on to process long enough to entrapped. Excuse |
|
| 143:59 | long enough to attract the gas. , now let me bring you down |
|
| 144:04 | to Mexico Golden Lane platform is has production associated with it. It's the |
|
| 144:11 | age as the rock that occurs in texas. But this is a classical |
|
| 144:17 | oil field. Alright, It's an structure. It's basically an offshore |
|
| 144:26 | Alright, sitting on a granite basement . So that's the pink that you |
|
| 144:30 | in this diagram right here and then top of it, is this widespread |
|
| 144:36 | platform called a labra platform. And , paleo geographically, we were 15 |
|
| 144:42 | north of the equator. So we're the strong easterly trade wind belt, |
|
| 144:46 | means that this was the windward This is the leeward side. There's |
|
| 144:51 | developed on both sides, but in tertiary, later structural tilting up to |
|
| 144:57 | northwest. So where's most of the ? It's on this side. |
|
| 145:03 | And Pemex has pretty much given up given up on this margin here that |
|
| 145:08 | can see there are some purple areas production here. They've pretty much given |
|
| 145:14 | on this side because they think most it is below the oil water |
|
| 145:18 | But I think they actually missed the here. But you can see where |
|
| 145:23 | of the production is on the western . So all of these strings of |
|
| 145:29 | that you see here in purple define people call Golden Lane field Discovered in |
|
| 145:35 | early early 1990, Sorry, They it was discovered in the early 1990s |
|
| 145:44 | . Okay. And of course these discovered by surface seats and this is |
|
| 145:53 | not only a leeward platform margin reef . Okay, by definition ist leeward |
|
| 146:00 | . So that begs the question, did you get reefs on the leeward |
|
| 146:04 | ? Why didn't they get smothered by bank transportation. That's the first |
|
| 146:10 | And then the second interesting thing about is there's superposition of tertiary car certification |
|
| 146:17 | top of these briefs. Okay, created arguably cavernous porosity. Okay, |
|
| 146:26 | you see the reserves are greater than billion barrels of oil in place. |
|
| 146:31 | expression suggests some sort of car certification at the top here. That's confirmed |
|
| 146:37 | the production, uh, this field these fields. This leeward margin field |
|
| 146:45 | holds the record for the highest initial from a carbonate reservoir 260,000 barrels a |
|
| 146:54 | . Okay. And this is described the literature, stalactites blew out of |
|
| 147:01 | whole stalagmites blew out of the Okay. That's related to the cavernous |
|
| 147:08 | due to classification. Okay. And there's hearsay in Pemex and actually learned |
|
| 147:17 | as a grad student. When I a grad student Rice, my, |
|
| 147:21 | advisor was James Lee Wilson, one the famous older earlier carbonate greats already |
|
| 147:27 | a book on carbonate faces through geological . And he was, he was |
|
| 147:33 | in spanish and he had a long of working the outcrops in northern Mexico |
|
| 147:40 | he had a close relationship with Pemex he told me as a grad student |
|
| 147:45 | in Pemex that the hearsay is that only does stalactites and stalagmites blow out |
|
| 147:52 | the hole, but 60ft of drill broke off, turned upside down and |
|
| 148:01 | out the whole like that. 60 ft. So you need enough |
|
| 148:08 | in that cavern to rotate the drill and blow it out upside down. |
|
| 148:14 | , so that's the hearsay. That's in the literature. I actually taught |
|
| 148:19 | course for Pemex about 10 years I went to Mexico and taught of |
|
| 148:23 | . When we got to this I had to ask these guys, |
|
| 148:28 | that they were around in the early hundreds. But I said if you |
|
| 148:31 | heard this is this carried through Pemex I said yes, this is what |
|
| 148:36 | always been told that the drill string off came out the whole upside |
|
| 148:41 | So that gives you a feel for effect of the cavernous porosity. |
|
| 148:44 | So this is a platform margin reef , but it's also a cars modified |
|
| 148:51 | margin reef. Okay, so appreciate . Alright, now, the bigger |
|
| 148:57 | is, why do you get reefs both sides? You can appreciate why |
|
| 149:01 | get a reef on this side. , That's the open ocean side with |
|
| 149:05 | to the ancestral gulf of Mexico and windward margin. Okay, but this |
|
| 149:11 | is I showed you for the northern or keiko should be what sediment |
|
| 149:16 | But we got good reefs all along margin, right from north to |
|
| 149:20 | So what's going on there? I think two things, first of |
|
| 149:25 | , why do you get reefs on leeward side? Right, that's not |
|
| 149:28 | side where you get oceanic swells. what has to be the driver? |
|
| 149:35 | is the this is where the trade would operate provide the agitation. |
|
| 149:40 | and the evidence for that is the that the back reef debris back here |
|
| 149:46 | , sorry, politic brain stone. is a picture I lifted from a |
|
| 149:51 | in 1972 where they described a little stone behind the reef Again, that |
|
| 149:58 | back in 72 we only had the Bahamas model. Right. And I |
|
| 150:02 | it was reefs or you? but not the two together. One |
|
| 150:07 | the other. Yet, here's that's they're describing right here. And that |
|
| 150:11 | made any sense until the trade wind came into play. Now, it |
|
| 150:15 | sense. Right? So the reefs agitated by the trade winds. That's |
|
| 150:20 | provides the day to day agitation. also makes the U. It's in |
|
| 150:25 | finer debris. Okay. But the is not generated by the trade winds |
|
| 150:30 | by hurricanes. Right, Hurricanes would up briefs. Okay. So the |
|
| 150:36 | is, why didn't this stuff get by off bank transportation? Well, |
|
| 150:40 | think the answer is back here. lagoon had to be deep enough to |
|
| 150:45 | off bank transportation. Okay. See I'm saying. So, in |
|
| 150:51 | you know, I showed on Keiko's platform materials only about 2025 ft and |
|
| 150:56 | strong trade winds can push mud and sand to the edge and over. |
|
| 151:02 | you deepen it maybe the 30 or ft. That might be enough to |
|
| 151:05 | that off bank transportation. Okay. there's some suggestion on the newer seismic |
|
| 151:11 | that was like a bucket. This is like an eight. All |
|
| 151:15 | . A tall morphology with a deeper and that would serve the purpose right |
|
| 151:21 | inhibiting off bank transportation. Okay. lot of these old plays just never |
|
| 151:28 | any sense based on the northern Bahamas . Right. When you start thinking |
|
| 151:32 | the trade winds changes the story, ? And I think it gives |
|
| 151:38 | there's food for thought to think about new opportunities and places that historically we |
|
| 151:43 | have written off based on the northern . Okay, Alright. So let's |
|
| 151:48 | this up and let me make one about steep margin reef systems here. |
|
| 151:54 | , again, with respect to the imitation effect reefs build their own |
|
| 152:01 | Right? And they build their own . And they just sit there getting |
|
| 152:05 | by oceanic swells every 10, 15 . Right? And so you're pumping |
|
| 152:11 | lot of marine fluid through that reef . And so what's one of the |
|
| 152:15 | here? One of the risk is you can cement up the reef and |
|
| 152:20 | a lot of that reservoir potential on sea floor by marine sedimentation. |
|
| 152:27 | We had that discussion about how quickly cement precipitate out. I showed you |
|
| 152:32 | police example where the, those fan crystals were growing at rates of 8-25 |
|
| 152:39 | per 100 years. Okay. And this is one of the risk. |
|
| 152:46 | , this is one of the questions . And the exam today, |
|
| 152:49 | Where you're gonna get marine sedimentation. just going to get it on the |
|
| 152:52 | side of the reef, the reef and the upper four. So, |
|
| 152:56 | don't you get the reef, marine ? You don't get it in the |
|
| 153:00 | reef flat, You don't get it in the lagoon. Alright, So |
|
| 153:04 | see one of the risk here, reef itself could be cemented and companies |
|
| 153:10 | drilled into that, they see that what do they do? Adios? |
|
| 153:15 | ? They walk away. They think whole reef is tight. When what |
|
| 153:20 | they do? They should drill like . So that's tight reef. They |
|
| 153:24 | the front of the reef is what should they do? They should |
|
| 153:26 | back and they should they call it stocking. Alright, Should go horizontal |
|
| 153:31 | drill into the debris. They're gonna porosity. Okay, if you understand |
|
| 153:38 | carbonate system. Alright, So that's the issue. All right, so |
|
| 153:43 | is the famous example where the reef least an outcrop, 90% of that |
|
| 153:49 | was destroyed on the sea floor by radial fiber cement. Right? That |
|
| 153:55 | marine cement, Right? But you see this in the back reef. |
|
| 154:04 | reef is a little bit different, in most in other reef complexes, |
|
| 154:09 | don't see this breeds imitation effect in debris. Okay. And the right |
|
| 154:12 | flat. Okay, everybody appreciate Okay. And then one comment here |
|
| 154:20 | demonization of reefs? We talked about of the popular models for making |
|
| 154:26 | And remember one of the models was a carbonate platform with a reef margin |
|
| 154:31 | ? A basin filled with shale or . What's one model that can operate |
|
| 154:38 | on the watering where you can squeeze up out of that shell basin. |
|
| 154:44 | the gray here represents the shale There's your carbonate platform in blue. |
|
| 154:49 | have reefs along the edge here. could be preferentially delaema ties like you |
|
| 154:53 | here in purple. And two things happen when you dilemma ties that |
|
| 154:59 | And the first is you get an degree of fracturing because dolomite obviously is |
|
| 155:04 | brittle, but more importantly, what happen to that reef fabric, especially |
|
| 155:09 | degree. This is where you can that super permeable reservoir rock In the |
|
| 155:16 | stones especially. Right. Remember the of root stone. The big grains |
|
| 155:20 | touching in three D. You got finer sand matrix in between that gets |
|
| 155:26 | monetized first. Then we talked about happens during the advanced stages of the |
|
| 155:31 | . We leach out the remaining calcium to create this porosity. But that |
|
| 155:37 | is touching in three D. So at the permeability you get here |
|
| 155:41 | 5 Darcy's. Right. Normally you're to get a few 100 millibar seas |
|
| 155:48 | ferocity from a reservoir in the Okay, alright, so always something |
|
| 155:56 | think about your general fizzy graphic What's filling the basin. Right, |
|
| 156:02 | your time period that controls the Right. But most of these reef |
|
| 156:07 | always have those two components the reef reef core and then the debris sheet |
|
| 156:13 | it. Okay, so summary here we'll take a little break here in |
|
| 156:20 | minute. Platform margin reefs. they like to take the paleo |
|
| 156:27 | Right there, influenced by paleo All right. So that paleo hizbut |
|
| 156:31 | paleo highs not only applies to the stone situation obviously extends to the |
|
| 156:38 | Okay. And sometimes these these paleo are so subtle. You really have |
|
| 156:43 | hard time even mapping. Okay. influences the digest pathways. This is |
|
| 156:50 | we pay attention to the age of reef organisms. Okay, what's the |
|
| 156:56 | rule of thumb? Lower paleozoic reefs mostly cal citic. Upper paleozoic briefs |
|
| 157:04 | a mixture of calcite and Dragon Mesozoic and younger reef systems. Mostly |
|
| 157:10 | genetic. Okay, So as you've , right, the board, Dragon |
|
| 157:15 | we have in the system the more for a limestone, we're gonna get |
|
| 157:18 | lot more secondary process. Right. things are more stable calcite, we |
|
| 157:23 | not to see that unless you dolma some of that brief material. All |
|
| 157:29 | . Same point about reservoir quality governed depth of burial di genetic history I |
|
| 157:34 | sometimes you need structuring to seal off linear reef trend. But you can |
|
| 157:39 | advantage of those channels in a case a deepwater shale and carbonate. The |
|
| 157:45 | seals obviously are deep marine carbonate or , but you can't have more MMA |
|
| 157:50 | back reef carbonates doing the same Source rocks are usually not a |
|
| 157:54 | Okay. And that's couple of Okay, any questions about this play |
|
| 158:04 | ? The good thing about this play is good seismic expression. Right, |
|
| 158:08 | are normally new, created along that point on margin. So it's easy |
|
| 158:14 | image. Remember we talked about it's enough just to image this. You |
|
| 158:19 | to know what your orientation is. ? Does it face away from the |
|
| 158:23 | ocean? Does it face towards the ocean? Okay. Alright, let's |
|
| 158:28 | take about a five minute break until 15 and then we'll finish up with |
|
| 158:34 | last play type for the day. , okay. The third conventional play |
|
| 158:46 | is what I call a platform mound . Okay, so you can see |
|
| 158:50 | the schematic cartoon, we are dealing a platform to base and transition where |
|
| 158:58 | we had platform margin reef development along edge in this position right here. |
|
| 159:05 | . And then what happened to that ? It got drowned out. |
|
| 159:10 | so we have a major relatively rapid in sea level that kills your platform |
|
| 159:15 | reef. What are you gonna do those refill organisms? They're gonna shift |
|
| 159:20 | dip right, those coral polyps are want to go somewhere up dip the |
|
| 159:25 | water and they're going to take advantage paleo topography up on that drowned carbonate |
|
| 159:31 | . Okay, so every little paleo becomes a potential site for an isolated |
|
| 159:37 | deposit. So, the geometry these is completely different than what we just |
|
| 159:42 | about on the margin. Okay, I call these platform mound carbonates, |
|
| 159:47 | Mount. Is that nebulous term for build up? Alright. And some |
|
| 159:53 | these build ups are going to be energy and they're gonna be like many |
|
| 160:00 | of the barrier reef, right? gonna have a reef margin, a |
|
| 160:03 | flat. But some of these other are going to be lower energy. |
|
| 160:07 | ? So, they could be They could be carbonate mud banks and |
|
| 160:11 | like that. So, there's a of different potential here for different styles |
|
| 160:15 | brief deposition, but everybody appreciate what dealing with here. We're dealing with |
|
| 160:19 | we call a back step effect where drown out our marginal reefs and we |
|
| 160:24 | our focus of reef deposition somewhere up that drown carbonate platform to a paleo |
|
| 160:30 | . Okay, And so you build build up. Typically these build ups |
|
| 160:35 | not that thick, they don't usually thicker than a few 100 ft thick |
|
| 160:39 | the most. All right, there's exceptions, but because we're up on |
|
| 160:44 | platform historically, our rates of subsidence not as great as they would be |
|
| 160:49 | in the basin. Right? you can't build great vertical thickness. |
|
| 160:53 | , you're lucky to make something with few 100 ft of vertical thickness and |
|
| 160:58 | what happens to that build up? gets encased in its own debris |
|
| 161:03 | which is yellow and then it gets out by deep water carbonates or deep |
|
| 161:08 | shells. And so this creates what call excellent strata, graphic trapping potential |
|
| 161:15 | good four way closure. Right? closure. Just means all the way |
|
| 161:19 | that build up. You've effectively trapped ferocity. Okay, So that's the |
|
| 161:25 | thing about this kind of the play is you end up with this excellent |
|
| 161:30 | , graphic trapping potential. All And look at the scale of these |
|
| 161:34 | are typically a few to tens of across at the most. Okay, |
|
| 161:41 | they're not very thick, they get , if they get more than a |
|
| 161:45 | 100 ft thick, that's pretty You expect. Again, relative to |
|
| 161:50 | trade winds, there's gonna be a side and the leeward side and here's |
|
| 161:55 | the strength of the trade winds is important. Again, for influencing what |
|
| 162:00 | on the reef and we'll get shut of the reef. Okay, And |
|
| 162:06 | could see again, just like I about for Golden Lane on a bigger |
|
| 162:10 | , right? You could have like double edged reef, right? Could |
|
| 162:13 | reef on one side reef on the side. If your central lagoon is |
|
| 162:17 | deep and inhibits Halkbank transportation. we expect the complex to evolve to |
|
| 162:25 | that looks like this where the best development is on the windward facing |
|
| 162:33 | The leeward facing side is patchy because the off bank sediment stress. |
|
| 162:39 | again, the composition lagoon sediment depends how deep the lagoon is and also |
|
| 162:46 | strength of the trade winds. And we actually talked about this in |
|
| 162:51 | modern, I contrasted uh the police here, right where the lagoon was |
|
| 163:01 | deep, 30 40 ft of water . And where's your high energy |
|
| 163:07 | The reef and debris is around the . Laguna's tight would be tight in |
|
| 163:11 | critic. Okay, then I showed the example from Australia similar position, |
|
| 163:19 | much more energetic. Right? It just the trade winds is also that |
|
| 163:24 | that 10 to 12 ft title range produces a strong tidal current. And |
|
| 163:30 | did we see in Australia? High reef margin and carbonate sand in the |
|
| 163:37 | . Because you stripped out all the . Right, because of that more |
|
| 163:41 | setting. Alright, so that's something want to factor into your evaluation in |
|
| 163:45 | rock record. All right. So most famous example of of this is |
|
| 163:53 | reservoir in western Canada called judy It's devonian aged and here's the |
|
| 163:59 | The pink is a broad shallow water platform. The green represents the deep |
|
| 164:06 | basin. Okay, so these are deeper water burrow, lime mud stones |
|
| 164:12 | wacky stones. Okay, no prior the development of these blue features |
|
| 164:20 | every one of which is a Mountain carbonate reservoir. There used to |
|
| 164:27 | marginal reef developed on this side here is the eastern windward side of the |
|
| 164:33 | there to producing reefs. Trans here mountain and deer mountain. Okay. |
|
| 164:40 | got drowned out. Ok. Sea came up you killed off that |
|
| 164:44 | Set up a really nice play there you encased in deep water carbonate. |
|
| 164:49 | drowned the platform. And where did shift your reef deposition to? A |
|
| 164:54 | of very subtle and I mean really you can barely map these out with |
|
| 165:00 | well controlled and there's a ton of controlled. All right, very subtle |
|
| 165:05 | highs that that initiates these reefs. one of these blue blobs is productive |
|
| 165:11 | judy creek is the most famous because all the rock data that went into |
|
| 165:16 | development and evaluation. Alright. And the case study. I'm gonna take |
|
| 165:21 | through tomorrow. Alright. To show how esso resources modeled this reservoir, |
|
| 165:28 | they use that simple cycle contact relationship build this detailed faces strata, graphic |
|
| 165:36 | to milk more oil and gas out that reservoir. Okay. And I'll |
|
| 165:41 | you some cross sections of judy I mean they're already on I've already |
|
| 165:46 | on blackboard. So if you can't you can go look at them but |
|
| 165:50 | go through those tomorrow. Okay, I'm not gonna spend a lot of |
|
| 165:53 | talking about judy creek cause I'm going go through this in a lot of |
|
| 165:57 | , show you the rock data and you some of the cross sections that |
|
| 166:00 | built And more importantly show you With simple approach, how they got almost |
|
| 166:07 | million extra barrels of oil out of reservoir. Okay, so here's the |
|
| 166:14 | relationship though, shows you why you this excellent geographic trapping right? House |
|
| 166:19 | and Deer Mountain were along the platform . You drown them out back |
|
| 166:23 | you create these isolated reef complexes. they get surrounded and and and and |
|
| 166:30 | by the deepwater waterways. Carbonates. , these are basically based on carbonates |
|
| 166:36 | drowned out the swan hills, Okay, alright, so let me |
|
| 166:41 | show you some examples here. We'll back, we'll do the Devonian example |
|
| 166:46 | . Here's an example from the permian earlier I talked about the abo empire |
|
| 166:54 | brief trend that occurs in this position here along the margin as a platform |
|
| 166:59 | reef. Right, demonetized equivalent to or slightly after that is another isolated |
|
| 167:07 | complex back here called North Anderson And if you look at the scale |
|
| 167:11 | , you're about 10 miles back in the open ocean. Right. And |
|
| 167:16 | you've got two issues here. The issue is you got to have something |
|
| 167:20 | which the back step to right, paleo topography, but you still need |
|
| 167:24 | you need a driver for deposition. not gonna get oceanic conditions here because |
|
| 167:29 | too far back. So what becomes driver again? The trade winds |
|
| 167:34 | Trade winds provide that persistent agitation. most of these platform mound carbonates are |
|
| 167:39 | by trade wind influences. All And this is, this is North |
|
| 167:45 | Ranch. Just to give you a for the setting and um not trying |
|
| 167:50 | impress you. This is not a field, but I want you to |
|
| 167:54 | that this is a comparable setting. we just talked about like for judy |
|
| 167:58 | . Okay, now let's move into cretaceous. The lower cretaceous is a |
|
| 168:06 | around the world where you get this a very common play type developed. |
|
| 168:11 | , and I'm gonna show you two from the ancestral gulf of Mexico during |
|
| 168:16 | lower cretaceous. Uh, and Appreciate setting. Again that these paleo geographic |
|
| 168:24 | suggest we're about 15° north of the . Right? And that puts us |
|
| 168:32 | the heart of the strong easterly trade belt. So just keep that in |
|
| 168:37 | . Alright. And the first sequence gonna look at is related to the |
|
| 168:42 | . I showed you a Sligo grain play type that was Vivian field that |
|
| 168:47 | 240 kilometers in board. So I I've already convinced you trade winds were |
|
| 168:52 | of that story. Okay, well field I'm going to talk about is |
|
| 168:57 | Black Lake and this sits even closer the margin. Remember Vivian field was |
|
| 169:02 | here in the north. Okay, Lakefield sits, look at the scale |
|
| 169:08 | here, that's 8200 kilometers in from open ocean. It's taking advantage of |
|
| 169:14 | salt related structure. Alright, so is part of the story for the |
|
| 169:19 | , but again, its presence here made any sense based on what I |
|
| 169:23 | you for the northern Bahamas way too inboard to be driven by oceanic swells |
|
| 169:32 | tidal currents don't make good reefs but tidal currents wouldn't operate 80 kilometers |
|
| 169:37 | on an open platform. Okay, here's an older map published back in |
|
| 169:44 | . Uh, Leo Herman was a at uh, La Tech outside of |
|
| 169:50 | Louisiana. And I never met Leo . So I don't know the basis |
|
| 169:57 | for this map, but I can of surmise what he was struggling |
|
| 170:01 | All right, here's the main reef that we just talked about earlier. |
|
| 170:04 | said, this is too deeply right? This is a classical barrier |
|
| 170:09 | complex of corals and Strome atop But its 16-18,000 ft of burial and |
|
| 170:15 | limestone, there's no porosity. so it's never produced down here. |
|
| 170:22 | then here's Black Lake field that they by accident. Okay. And I |
|
| 170:29 | his, his answer was in order explain why you get this high energy |
|
| 170:33 | and also sand complex. This far up from the margin. He just |
|
| 170:40 | the margin, take a left hand and then come on back out like |
|
| 170:44 | . Right, Which I've talked to who discovered Black Lakefield. They don't |
|
| 170:49 | where this map came from. They there's no evidence on seismic for |
|
| 170:52 | Okay, I think he was just to conceptually understand how you could get |
|
| 170:58 | high energy reef that far in from open ocean. Alright, so what's |
|
| 171:03 | key observation in Black Lake field? is not a. Which is a |
|
| 171:06 | little field. Right. 160 million oil field produced almost a TCF of |
|
| 171:12 | . All right. And the key is to recognize that not only is |
|
| 171:17 | a brief complex dominated by rudest Okay, so as you've learned, |
|
| 171:23 | rudest brief complexes are made up of . Right? The grain stone |
|
| 171:27 | which is the blue. Alright, some of that is converted to elliptic |
|
| 171:33 | . So, reefs and kids together . Okay. Which bucks the northern |
|
| 171:40 | model. Right. It doesn't make based on the northern Bahamas model. |
|
| 171:44 | , this is another example that bugged lot of us for for a long |
|
| 171:48 | . Right? How could you get far import? And then when you |
|
| 171:53 | at the distribution of the reef, is it? It's nestled along the |
|
| 171:57 | margin of that salt related structure and debris is all back to the west |
|
| 172:03 | northwest. Okay, so again, think about the prevailing wind direction |
|
| 172:08 | Okay, east and southeast quadrants so it makes perfect sense. |
|
| 172:13 | if you think about what I showed on keiko's the trade winds provide |
|
| 172:19 | Well up onto the platform. And you shed debris and then what |
|
| 172:26 | to that finer debris that gets pushed by storms? It gets converted to |
|
| 172:31 | write. And I showed you how trade ones actually moved carbonate sand. |
|
| 172:35 | , So the risk get broken up big storms, but then that sand |
|
| 172:39 | gets moved progressively downwind by the trade . When it becomes fine enough to |
|
| 172:45 | moved persistently by the trade winds, gets converted to a light and that |
|
| 172:51 | to refuel light relationship. Okay, this map from keiko's, I showed |
|
| 172:56 | these isolated reef complex as well up carbonate platform. Made no sense based |
|
| 173:02 | the northern Bahamas, but that's the win agitation driving the reef deposition and |
|
| 173:08 | converting some of that. Fine, I showed you this map, I |
|
| 173:12 | you some of that Sediment that makes the halo around the reefs in |
|
| 173:17 | 30 ft of water is being converted to who is the scale of materials |
|
| 173:23 | on the Olympic coatings. Okay, , so, the argument here would |
|
| 173:29 | the geology proves the trade wind effect geology is the fact that you've got |
|
| 173:34 | reefs and you it's so far Too far in board to be driven |
|
| 173:40 | oceanic swells. Okay, Trade winds more sense. Okay, and then |
|
| 173:48 | second example here in east texas is , what's called the James limestone are |
|
| 173:56 | of the Pearsall formation in the northern rim. James limestone is, is |
|
| 174:02 | and gas productive around other parts of , of the northern gulf rim from |
|
| 174:09 | through offshore florida. Okay. And major field that occurs in northeast texas |
|
| 174:17 | that field is called Fairway field. look at the fizzy graphic setting. |
|
| 174:22 | , there's the basin margin. too deep for any kind of reef |
|
| 174:28 | . Okay, And appreciate the scale . That's 20 miles. So that's |
|
| 174:35 | 100 miles inboard Fairway fields, it's miles inboard from the open ocean. |
|
| 174:42 | a strip. It's comprised of these storm atop the grief complexes and |
|
| 174:46 | Okay, and again, why does field exist here? The foundation is |
|
| 174:54 | salt related structure. Okay. There's turtle structure related to salt tectonics. |
|
| 175:00 | a couple of diagrams in your I'm skipping that. Show that I |
|
| 175:04 | . And then look at the other of the story. Fairway field is |
|
| 175:08 | atoll reef complex. All right. . Start yelling at my computer for |
|
| 175:17 | . Stop advancing on its own uh, a tall reef complex. |
|
| 175:26 | , and then look at this impressive off of it to the northwest. |
|
| 175:31 | then what do you come up too to the shoreline shoreline, parallel grain |
|
| 175:36 | . Okay. And you see the on this map, 1985, We |
|
| 175:43 | know yet. That could be made trade ones. Okay. The only |
|
| 175:51 | we knew to make its back then by tidal currents. But the fairway |
|
| 175:58 | 100 miles inboard then the wood grain are. What? Another 40 or |
|
| 176:03 | miles even further inboard. 150 miles from the open ocean. You're gonna |
|
| 176:08 | goods by tidal currents? No, no way. Okay, so this |
|
| 176:14 | made any sense. So, Pretty good size field here, 400 |
|
| 176:22 | barrel oil field. What's going on ? Well, if you look at |
|
| 176:28 | reef itself, most reefs, as said, I have the better production |
|
| 176:32 | the grain stones. Okay. And true here the red red is the |
|
| 176:37 | stones yellow or the reef cores, better productions associated with the grain |
|
| 176:42 | Okay. And if you ice a , some of the grain stone intervals |
|
| 176:48 | don't see here. Right. Which from this debris. Alright, so |
|
| 176:57 | can see what the reefs look like are coral storm atop rides in growth |
|
| 177:01 | here, there's a there's the debris up by storms. And then what |
|
| 177:06 | to that degree is it gets organized uh sand bodies within the lagoon and |
|
| 177:14 | it gets pushed off the back to this impressive tailors that you see |
|
| 177:19 | All right. And this is some the mapping a pack mapping, |
|
| 177:25 | Just looking at the thicknesses of the bodies and their orientation for some of |
|
| 177:30 | grain stone debris in that atoll reef . And look at the same. |
|
| 177:34 | at the orientation here, it's identical that big taylor slope off of the |
|
| 177:39 | side. Okay, You understand what saying? This is locally within the |
|
| 177:44 | reef complex. The grain stones line with this southeast northwest orientation. All |
|
| 177:53 | , So in Trade wind systems subtitled do what they line up parallel to |
|
| 177:59 | strong easterly trade wind effect. Except , the strong trade wind effect was |
|
| 178:06 | out of the southeast quadrant. Could be either one, sometimes |
|
| 178:11 | But here everything lines up southeast to orientation. Isn't that what I showed |
|
| 178:17 | for keiko's platform? Remember those big ? Sand bodies here and here line |
|
| 178:21 | parallel to the prevailing trade winds. then what happened over here on this |
|
| 178:27 | ? West Caicos, where the older faces into the trade winds, we |
|
| 178:32 | the shore line parallel to grain Okay, so subtitle with this orientation |
|
| 178:40 | with disorientation. Trade wins. See I'm talking about the geology I think |
|
| 178:47 | consistent with the trade wind effect. , alright, so the difference is |
|
| 178:53 | trade winds were out of the southeast . They account for the orientation of |
|
| 178:57 | sand bodies in the lagoon for this . All right. And again, |
|
| 179:01 | shedding would be both storms and the trade winds. I showed you from |
|
| 179:05 | modern how they boost sediments. I you they moved 80 m over a |
|
| 179:09 | year period on that big shoal from . And then up up up against |
|
| 179:16 | shoreline shoreline parallel, we'll let the starts. Okay. And then one |
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| 179:26 | on the theme here, come up the tertiary of Southeast Asia. We |
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| 179:31 | these platform mound carbonates developed up on drowned Miocene platform. The red is |
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| 179:38 | productive. The oil is shown with green blobs. Okay, so you |
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| 179:43 | see how we're coming up onto the here. And the point I want |
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| 179:47 | make here is that It's a similar to what we've been talking about. |
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| 179:53 | what's different here is the thickness of buildups is not just a few 100 |
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| 179:58 | , it's over 1000 ft thick. , because this part of South East |
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| 180:03 | is much more highly subsiding. and it's a greater subsidence that gives |
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| 180:10 | a little bit more accommodation to make greater vertical build up. And |
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| 180:16 | look at these build ups are comparable to the kinds of stuff we've been |
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| 180:20 | about. But look at the seismic , right? The typical seismic expressions |
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| 180:26 | platform mound carbonate, like judy creek like what I showed you for fairway |
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| 180:32 | pancake like, Right, very subtle relief structure. But here, this |
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| 180:37 | looks like a pinnacle reef. But it's up on it's not a |
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| 180:42 | pinnacle reef because it's not down into basin. That's up on a drowned |
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| 180:46 | platform. Okay. And These things up 2000 ft thick. And |
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| 180:53 | like I showed you for Keiko's, things start out as little isolated |
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| 180:58 | but they shed debris and they coalesce a bigger structures and you sort of |
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| 181:03 | the same sort of thing for these here. Right. Probably a couple |
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| 181:07 | different reef complexes coalescing together to give that that thickness and seismic expression. |
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| 181:17 | . And then we haven't talked about carbonate mud banks, but the modern |
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| 181:23 | mud banks would be I showed you first day underwater photograph of seagrass. |
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| 181:30 | that with the barracuda swimming over the grass. And and I talked about |
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| 181:36 | role that seagrass plays and trapping sediment actually creating mounds on the sea |
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| 181:42 | believe it or not, these things be transformed into reservoirs. And here's |
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| 181:47 | couple of examples from um Southeast Asia the tertiary. Alright, so even |
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| 181:53 | even in a shallow water lower energy . If you could build topography with |
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| 181:58 | , these kinds of isolated build you have potential. Again, you |
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| 182:02 | favorable die genesis obviously if it's muddy convert it to secondary porosity. |
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| 182:09 | And here it's these are cal citic limestone buildups but they developed a high |
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| 182:15 | of secondary porosity because it's originally a sediments is very prone to dissolution and |
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| 182:24 | crystallization. Okay, alright, so summarize platform, mound carbonates. These |
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| 182:30 | generally small scale buildups on drowned carbonate that usually possess great aerial extent and |
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| 182:40 | a lot of vertical thickness. That's we refer to it as pancake |
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| 182:45 | The exception would be highly subsiding areas I showed you for Southeast asia. |
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| 182:50 | point about meteorology and age because that who the organisms were. And they're |
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| 182:56 | meteorology. Same point about reservoir Always being dependent on depth of barrel |
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| 183:02 | history. Historically, the best reservoir are confined to the margins of the |
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| 183:07 | up. And historically, that would which side when we're facing science. |
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| 183:14 | , okay. So, I was , keep that in mind. |
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| 183:19 | Strong graphic trapping potential seeming faces usually up being uh the critics are based |
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| 183:26 | lime stones that drown out these buildups encase them in deeper water. Carbonate |
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| 183:32 | rock could be an issue here, on how far back you are from |
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| 183:35 | open ocean. If that's where your is. Uh, I know one |
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| 183:39 | in Western Canada where in some of restricted lagoons and he's a tall reef |
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| 183:45 | , they're able to preserve some organic and squirt a little bit of hydrocarbon |
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| 183:49 | . But that's not going to be major carbonate source. Right, |
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| 183:55 | Those are some of the examples. . All right. Any questions about |
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| 184:10 | play? We can do two things . We can go to six. |
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| 184:20 | could start in on the next play or we can put it off the |
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| 184:23 | morning. You get finished earlier theoretically unless I talk too much. |
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| 184:37 | all right, let me make This sort of an interesting play and there's |
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| 184:43 | lot of variability on the plate type here. So let's let's jump to |
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| 184:48 | fourth, so called conventional play. these were platform interior or rap |
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| 184:54 | wacky stones and Pakistan's. Okay, this is a this diagram. You |
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| 185:02 | to look at it differently depending on you think you're dealing with a platform |
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| 185:07 | or a ramp model. Okay, if you're dealing with a platform model |
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| 185:12 | this this situation, you have to the platform margin to be off the |
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| 185:18 | to the right, Alright, 10s km, tens of miles. In |
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| 185:23 | words, your way back on the part of the state margin platform. |
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| 185:28 | . And so it's low energy and critic back here because you're in a |
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| 185:32 | Bahamas situation where tidal currents and oceanic have dissipated, you've got sluggish |
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| 185:39 | quiet water, you get a critic subtitle carbonates and then sometimes it feeds |
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| 185:46 | title flat. Okay, so that's you would have to look at this |
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| 185:49 | if you're dealing with a platform. . If you're dealing with a |
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| 185:54 | then the ramp crest is probably closer the edge of this diagram. |
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| 185:59 | We've built a shoulder a skeletal grain shoal. Right? And then we |
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| 186:05 | to build up above above sea level make a little barrier island and then |
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| 186:09 | it would be the back show lagoon with the critic burrow carbonate feeding a |
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| 186:17 | or tidal flat back here. so and then what's the other part |
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| 186:22 | the story related to the ramp? your here's your ramp crest, |
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| 186:27 | ramp crest back and restricted lagoon behind . But then what what do you |
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| 186:32 | out front? You ramp down into and deeper water as you go |
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| 186:37 | you get into the critic carbonates there . Right? So the front side |
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| 186:41 | the ramp. Alright, this is people call the outer ramp for down |
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| 186:45 | setting also has the potential for wacky paxton deposition. But you see the |
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| 186:52 | here for this play type. If want reservoir quality. Almost always you |
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| 186:57 | to do what you have to create dia genesis to get reservoir quality. |
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| 187:03 | only exception would be what tidal flats finesse troll ferocity. Remember the remember |
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| 187:11 | title flats with the holes, primary levy. Right? Only on the |
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| 187:20 | , you can produce oil out of prosperity and tomorrow you'll see that at |
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| 187:24 | creek. Okay, otherwise for the platform interior ramp related wacky stones and |
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| 187:32 | stones, you've got to do something genetically. Alright, so we talked |
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| 187:37 | the difference between the restricted subtitle and title flat. Remember we use that |
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| 187:44 | Perry title, which is that's one the bonus. Is that one of |
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| 187:49 | bonus questions today. Terry title. . So perry titles? This nebulous |
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| 187:55 | . I know I'm in a restricted , but I know exactly where I'm |
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| 187:59 | . It could be the shallow It could be part of the title |
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| 188:02 | . Okay. We talked about all attributes that we want to see in |
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| 188:07 | rock record to you know, identify flats or restricted subtitle. But historically |
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| 188:13 | don't view these environments as being great . We view them being a ceiling |
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| 188:19 | , right? We expect them to up like this type colloidal wacky stones |
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| 188:25 | paxton's no reservoir quality. We're gonna at it as a ceiling faces for |
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| 188:31 | offshore. Right? Title fight's gonna over a grain stone and provide a |
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| 188:36 | seal. So to get reservoir quality of this stuff. With the exception |
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| 188:42 | the financial porosity, you have to what you have to create favorable die |
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| 188:49 | . And historically everybody thinks you have do what you have to do. |
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| 188:53 | , right? And they think you to dilemma ties early because these are |
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| 188:58 | critic carbonates and you need Torossian perm get the fluid in. Right? |
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| 189:03 | everybody thinks that has to happen before get too deeply buried. All |
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| 189:07 | So that's the that's the challenge. right. So let's just jump into |
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| 189:13 | of these examples here and we'll start with the sole Orian, which is |
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| 189:22 | the Williston basin. Alright. See know where the Williston basin is? |
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| 189:28 | up there around North Dakota Montana South , that, that part of the |
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| 189:34 | . Right. So, it's one these interco tonic basins. Right? |
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| 189:37 | basal sags. Alright. Not connected the open ocean. Yeah, This |
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| 189:44 | a Cabin Creek field is an old discovery back in the 50s, Shell |
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| 189:49 | and you can see how it's put . All right. It's a a |
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| 189:55 | of these repetitive stack cycles of restricted to tidal flat that repeat over and |
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| 190:02 | again. So, a series of little upper chilling sequences that go from |
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| 190:07 | loyal Pakistan's and Pakistan's restricted subtitle component into the tidal flat. So there's |
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| 190:15 | super title stuff. Right? And you drown it out. Minor |
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| 190:20 | right? You drown it out with minor sea level change, you go |
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| 190:23 | to the subtitle, repeat over and again. Right? The reservoir is |
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| 190:27 | in green are the parts of the flat that were favorably delay, |
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| 190:34 | The top seal or tighter stuff. either the subtitle carbonate that didn't get |
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| 190:39 | or it's evaporates. Okay, so of the super title stuff has evaporates |
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| 190:44 | that provides the top seal for these . Okay. And the scale of |
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| 190:49 | city, 10, 15, 20 cycles right? Small scale cycles. |
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| 190:55 | that's consistent with the platform interior Right? You're not going to get |
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| 190:59 | 100 or 200-foot tech cycles in a material setting. They're all going to |
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| 191:04 | the small scale repetitive cycles. so the good news is I've got |
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| 191:10 | stacked reservoir units. Okay. The news is they're not very thick. |
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| 191:19 | . But the good news is I do what I can extend that thickness |
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| 191:25 | . We'll go to the title flat through time. What's the word? |
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| 191:31 | grade? Right. You pro grade . Okay. So you can expand |
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| 191:35 | reservoir by pro gradation. Okay. that that could be the good |
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| 191:40 | Right. Again, what does every flat need to start? You need |
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| 191:45 | older backstop. Right? Either older topography or you create topography during a |
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| 191:51 | and you plaster it up by Then you do what you pro grade |
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| 191:56 | . Okay. So, so there's good points to this. There's some |
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| 192:01 | points and you look at the reserves 75 million barrels of oil. That's |
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| 192:06 | major oil company. They wouldn't, wouldn't touch this stuff. Okay. |
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| 192:11 | for an independent independent make a lot money off of something like this. |
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| 192:15 | right. And then what's the other here? You can see how you |
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| 192:21 | up reservoir. You can see how set up a trap. Where's your |
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| 192:25 | rock? Source rock could be 100 out in the base somewhere. |
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| 192:34 | So one of the evaluations of the rock migration pathway distance. Right? |
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| 192:44 | something you want to be thinking about your kitchen is way out in the |
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| 192:48 | . Okay. So, sorry, don't, I don't know what, |
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| 193:00 | just think that's an arbitrary uh, for some of the layers or |
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| 193:07 | Um, I don't recall. I don't remember to be honest. You |
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| 193:12 | , I never paid attention to You're the first person never asked. |
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| 193:15 | . I'm curious. I'll go back look at his paper. But |
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| 193:20 | if I do that before we're I'll tell you we're finished with this |
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| 193:25 | . Um, I don't know. just thinking this probably has something to |
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| 193:29 | with the just an arbitrary number of beds or faces or something. |
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| 193:37 | so there are good points to this type and the fact that you can |
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| 193:41 | multiple stacked reservoirs that the the downside again, as the thickness or aerial |
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| 193:47 | of your ferocity. The other downside be how far away your kitchen or |
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| 193:52 | rock is. All right. So example of this would be a little |
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| 193:59 | field in Montana. It's also in Williston basin and you can see it's |
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| 194:04 | numbers associated with this. I it's not, it's much better in |
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| 194:09 | of reserves here. And it sits again by regional paleo. High |
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| 194:15 | you need a backstop. All tidal require backstop to plaster that settlement against |
|
| 194:21 | . Right? Because I told you flats are mostly storm flats where winter |
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| 194:26 | or hurricanes push this stuff up. , you can feed it with day |
|
| 194:30 | day trade winds and stuff like But you need to get it going |
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| 194:34 | the storms. Okay. And this the model. It's a wrap |
|
| 194:41 | This model really is weird. Ramp don't really look like this. |
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| 194:47 | but the the story is that the and it is a time for ramp |
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| 194:54 | because I told you there's no platform reefs in the Mississippi and there's no |
|
| 194:58 | to create steep margin platforms in the and everything is low relief going out |
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| 195:04 | deep water. And so you expect to be up to tidal flats. |
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| 195:09 | . And then they're gonna pro Alright. And then this is just |
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| 195:14 | of the process works because of the again. Okay, so appreciate |
|
| 195:21 | And then let me take you through example from the Permian in west |
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| 195:27 | Again, up on the central basin that we talked about earlier for the |
|
| 195:33 | stone deposition. The analytic and scholar stone deposition. The inner parts of |
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| 195:39 | ramp profiles have a critic carbonate accumulating some of that's organized in the tidal |
|
| 195:45 | again. And if that stuff gets altered, die genetically, you can |
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| 195:51 | reservoir potential. And so this is field where you get production pretty substantial |
|
| 195:58 | out of that fabric. All So, we talked earlier about the |
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| 196:02 | crest where you get grain stones and isolated reefs. Alright, that would |
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| 196:08 | right here. But then behind it the restricted lagoons and tidal flat. |
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| 196:13 | this is the part of the deposition for for this field where you produce |
|
| 196:19 | kinds of fabrics here. Right. a critic carbonate burrowed color. Did |
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| 196:25 | fabric. Alright. But Dolma ties to give you that secondary porosity. |
|
| 196:32 | right. And this is what most that field produces from. All |
|
| 196:38 | But similar stacking relationships to the right, bunch of thin, repetitive |
|
| 196:44 | . Again, due to procreation back , procreation back stepping. So, |
|
| 196:49 | , that's the good news for this of setting, right? Because you're |
|
| 196:51 | a you're in a low angle, angle slope ramp environment. It doesn't |
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| 196:57 | much of a sea level change to down your title flat. Go back |
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| 197:02 | subtitle conditions build out again. Back , pro grade out. Okay. |
|
| 197:11 | . I think we'll stop right Okay, So when we come |
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| 197:15 | we're gonna jump up into the And I'm going to show you a |
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| 197:18 | of different ways to make reservoir And is a critic cretaceous deposits. |
|
| 197:25 | . And uh and we'll just keep on the story. All right. |
|
| 197:32 | , you missed the first part. actually jumped to the fourth type |
|
| 197:37 | Okay, just to start to save time for tomorrow. So, we've |
|
| 197:41 | through platform margin or ramp crust related stones. Okay. And different geometries |
|
| 197:50 | on the slope angle platform margin Right? You don't get platform margin |
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| 197:55 | and a ramp models on the steep platform ribbon like they can't pro grade |
|
| 198:02 | relational internal geometry if it can pro . Alright. And that determines |
|
| 198:09 | What's the top seal? Whether it to be deep water carbonates or whether |
|
| 198:14 | can do it with your back reef , all carbonates. And then we |
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| 198:18 | about the platform mounds right where we step our reef margin up on the |
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| 198:23 | paleo highs on the ground. platform pancake like geometry, usually |
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| 198:29 | just a few 100 ft vertical but kilometers across for scale. |
|
| 198:38 | And then we just started in on four type, which is What are |
|
| 198:42 | ? The critic deposits related either to parts of platforms, so restricted subtitle |
|
| 198:47 | title flat or ramp related the critic which could be behind the ramp crest |
|
| 198:54 | down the slope. And we're gonna to some of those examples later down |
|
| 198:59 | slope. Okay. All right. got a handout for you. Might |
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| 199:06 | well give this to you now. also email this to you if you |
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| 199:10 | . Just in case you lose These are You might as well start |
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| 199:16 | about the |
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