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GEOL6372 Petroleum Geochemistry - Day5 05-05-2023
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00:09 So sorry, sorry guys. And they fixed the, the zoom
00:16 And for the question three is both mechanisms for sulfur enrichment, include oils
00:24 explain the effect of the source li this classic to its sulfur enrichment.
00:33 the, the reason why I I it clearly that uh in this
00:39 I really want to explain to you understand why the car system versus this
00:46 system. The why is so will so rich system which the cabinet system
00:53 the Swiss classic system is not really . And we know that the,
01:00 some the the bacteria of the reduction occurring in both systems. And uh
01:09 it can be reduced and by the in the presence of organic matri in
01:17 systems. And the class six classic and the is reduced. The two
01:25 sulfide, hydrogen sulfide partially can be with the ions to form the pyrite
01:33 is the which is the because it depends on the depends on the depends
01:39 the concentration of iron concentration in the column and also in the cold water
01:46 the C class systems, there is the terri source input, which brings
01:54 amount of the irons in the in system as a result, the most
02:00 the hydrogen sulfide that will will be with form the paras. So,
02:07 and uh there, there's a very portion of the hydrogen sulfide that can
02:12 retained in the water column, which be incorporated to the organic matter resulting
02:20 the relatively lower concentration of the organic . In that is this classic
02:29 In contrast, in the carbon system different carb system and the iron concentration
02:35 is a lot. So the once hydrogen sulfide generic hydrogen sulfide can be
02:42 with the from the. But the is limitation is it still supply of
02:51 . So the the carbonate system, is why the result in the carbonate
02:56 , all the all have two car know, the the all the g
03:01 the bacteria, all those kind of ecosystems. But the the one gene
03:08 in the carbonate systems and the hydrogen that can be partially reactive is the
03:15 matter to form the organic reach So, and some of them reacted
03:21 the high rise. So that's why why you see that. Uh typically
03:27 see that more so than the this really good. But the the the
03:35 is not really interpretation is not really and the sediment contain type two organic
03:41 for significantly more more gas than the contain the type two, type three
03:47 it's actually that's a reverse. That be, that's the top three,
03:52 it. The organic matter is it we call the, the gas and
03:58 two called the oil, oil gas is good for the gas. So
04:04 sent, this sent that should be top two sediments are also in the
04:12 oil, then have three. this is uh some degree is a
04:18 but most time like top three, know, we talk about the oil
04:24 because the have very specific, very uh allergies, giving organisms in the
04:34 and which which we will be variable generate the heavier hydrocarbons, which c
04:42 carbon numbers. So it it's also the top three oil is that is
04:50 is actually contained a high content and also should be revered. Therefore,
05:00 that origin from cabinet are more so than the sediment. You know,
05:11 to see the accurate actually a AAA , when, when you get into
05:17 oil, once you get into the , the content, sulfur content in
05:22 oil from the fifth of this And uh the Communists is almost
05:31 The significant difference is very, really , really the the the very related
05:38 is in a more mature and immature oil. So that contain a much
05:45 sulfur content. Be the main reason because the, the the character character
05:52 actually uh in a common system. is the to the sour which the
05:59 fun. So this, this is , I think that that is the
06:05 I I say need to need to emphasize that about the key, key
06:12 , key mechanisms is not because of , because of the different type of
06:19 organic matter, type two, top , it's actually even the same type
06:23 the organ, top two character and the cabinet system versus the classic
06:31 That's, that's the cabinet system. because it's good for the organic sulfur
06:37 character formation. So that's a, the heritage, the heritage of the
06:44 sulfur in the organic matter car. uh the, when the organ similar
06:52 that the sulfur, higher sulfur oil the beginning, it's heavy, heavy
06:59 . And that is the, that, that is how,
07:03 how the, the that the sulfur cost in the, that's one of
07:10 , one of the mechanisms that because the rack li difference. So that
07:21 think that is one that, that that from answer is that the,
07:26 , the answer, you know, , I really found that that is
07:29 thing I need to just grab it you a little bit. And uh
07:34 the, for the, this I know that I didn't really clearly
07:37 said that about what is all oil graph is a process of observing
07:47 unique pieces that are found in It's that is some part is
07:53 It's what, what uh first thing all over uh graph is still a
07:59 C chrome but to use it for oil characterization. And uh the,
08:06 the, the method of what we is we, we put the oil
08:12 a solvent and that the all the dis orbit in the solvent chain.
08:17 we use CS two, you know two, that's carbon carbon sulfide.
08:24 reason why we use the CS two a much lower bowling point, the
08:30 point is about 45 degrees. So the, before the all the large
08:37 hydrocarbon become volatile and CS CS two solvent itself is have been evaporated.
08:45 that's not really interfered any kind of , any, any kind of
08:51 the last kind of picks when when when run the whole G C
08:57 . So the whole G C C still still is the gas back.
09:04 for the whole oil G C composition , then we can run, run
09:12 quantification and the identification on the Both. I think that's uh I
09:22 that is the key good 22 I found that that's the answer.
09:26 know, he, he didn't really do the type to type to
09:31 some, some, some as well not to. I try to explain
09:37 to and uh yeah, yeah, . So the first one and type
09:48 more commonly associated with it uh So uh you know, for the,
09:56 our system, yeah, we have rich system and we also have a
10:03 class which is so it doesn't You are, you are the what
10:08 of ocean? It really depends on , your supply of your, your
10:14 of the materials and also your depositional . There's two system. Both rich
10:23 is a system and that this class a rich, rich system. Both
10:29 be developed in a top two Yeah. But the is in a
10:35 rich system because the the iron content low in the water column also in
10:42 water below. So the gene, sulfide gene from bacteria. So actually
10:49 the no matter you are carbon, things happen. But the only difference
10:58 generate hundreds of the preservation of the way that the hydro generation
11:05 And for the carbon system system, think so far that it will be
11:11 the reactive to the organic matter Didn't reach that don't reach the
11:18 And uh the portion of you will reacted with the from the why the
11:25 did they put the the the the still available for the for the for
11:32 organic match for the sulfur reach the matter? Uh because uh because they
11:37 really low concentration of in the so a result, you have a higher
11:48 in the system. Oh So this a classic rich system, you,
11:54 still have bacteria reduction. That is equivalent to reducing. But so that
12:03 be very, very quickly consumed by pilots. Why that happens? Because
12:11 , you know, like if you on so they can be very
12:15 react to each other extension. So do not have too much available hydrogen
12:23 far in the water column and the water reactor in the organ market resulted
12:31 a low. So, yeah, a, that's, that's why I
12:40 , so or, and uh I'm going to shoot other things and other
12:53 all good in particular. You the I think the last two,
12:57 , I really want to let you that why the, why are
13:01 the the two time critical time moments you can read it from the burial
13:08 and they gave the reason and I that's you, you interpretation is
13:14 And also I ask you that, , that's about based on the barrier
13:19 and gave a specific formation and let to describe the sedimentary process, I
13:29 , I think that's all good and will stop share this one.
14:18 you know, this, uh last I put a, put a
14:22 it's in particular, you know, the question six on the question
14:27 And, uh I'm pretty sure I'm sure in the final exam, I
14:33 definitely not the same as same as , the, the, this,
14:37 , the, the this one, the same as this one, not
14:41 as this one but uh very very similar things which I will provided
14:46 the literature. And uh let you let you to apply your knowledge.
14:53 why I want to emphasize more about two. And uh yeah, for
15:01 one, you see that uh the , oil, the the those are
15:06 rock from this, from this same kind of church, same,
15:13 similar or same kind of chat I provided for in the final, I
15:17 to want to all the knowledge that learned from our system to to to
15:24 to to to your work in the . So the, you see that
15:30 , we have a petroleum elements of from the geological time. You
15:36 we, we, we have definition the petroleum and the petroleum elements.
15:41 have five petro soft rock rock, rock and the, and the the
15:49 seals. And uh also the process like a generation expulsion, migration,
15:58 all kinds of things. We, , we discussed the uh concept that
16:02 do that. Now it is, know, this, this is the
16:05 of the final product about the We want to definitely want to,
16:12 , to. So that's like this is actually developed really. So that
16:21 that is the rock. And if look at the red light actually develop
16:27 was and if you look at ra is developed at same time. And
16:34 the group, and uh I see you over it's actually the distribution and
16:44 the track information, half information is . It, it's actually, it's
16:51 very similar, very similar to your the, to the, to
17:01 the, the the 20 million extended very wide range and the indicated to
17:13 and our is actually developing field. means that is actually forms, forms
17:20 long period of time. And then have to look at the oil generation
17:27 to the oil generation, oil generation actually fast very which is 100 and
17:34 million years. And, and the until the, until what until the
17:42 minutes. So that the see the extortion eventually rather later than the because
17:54 early generation oil oil is you need meet the meet the absorption of the
18:02 . Yeah. So and that's why need more oil and that is 100
18:13 and the generation 100 30 100 730 years. Ok. And then you
18:25 the, that means that if you have available types and uh if you
18:31 have available trap, eventually your oil be trapped and, and it after
18:39 yeah, and then that available, available property that here and we do
18:46 a critical critical time here. That because the end of end of the
18:54 information, this is one of the important critical time. That means if
19:00 , if you, this is the of the and then you see at
19:06 time, what happens in your and that will be a critical,
19:13 not critical time. And then this is OK. This is another time
19:19 this the end of the explosion and the explosion. That means that anything
19:25 this, if anything happens, if have a problem happens before this,
19:31 period of time, that's all And after this period of time,
19:35 no oil. So if you this the almost they can say,
19:41 if this system is OK, after 10 minutes, 10 minutes, the
19:46 20 million years to now and those of time is not good for the
19:52 accumulation so that you can make this on this charge and not like
20:06 But like this kid you analysis that say that a OK. If,
20:12 the, let, let me, me see that if, if I
20:15 this one, if I move this to here and also those those two
20:22 and then you, your critical time is not here. I think that
20:28 , it really depends on your track . See here is the generation and
20:36 the end of oil generation is time is slightly slightly later than the
20:44 of oil and but is not But the the tap information is really
20:53 information is really this two are it's almost, that's true. That's
21:02 it's critical a second, critical And here is that there's no oil
21:11 , all expelled the about two million ago. So, anything,
21:18 if you see that you, if trust, suppose you have traps from
21:22 , from the family is good. there, it's good, but there's
21:28 chance for oil charge because oil explosion been ended at 10 million. So
21:40 , uh, you know, you , you learn, learn the issues
21:44 the OK, from here. Let, let us look at my
21:49 animals. So, OK. So been developed in the lower Jurassic.
21:55 great. And I have even much than in other, in other
22:04 You, you, this is all column in your mind. You,
22:08 your here so is here. much shallow. So and then you
22:19 also develop in the same time. and then, and then you,
22:27 oil generation, your oil generation is , oh your brother, you have
22:32 , you have a really good, , really good at that start from
22:39 years. That means that you, , you receive a significant amount of
22:46 rock as you are all and uh is not issue for this case.
22:55 then, and then the, the that the seal and open racks and
23:03 know that they all good and the trap, yes, they had a
23:08 and that's the, and then if look at the information, OK.
23:12 time is it is great because this before this develop, this kind
23:20 is the information that it, it the, the the time is just
23:25 , just a very good here once the the the red deposit and then
23:37 , then the end to the many that has been formed has been formed
23:47 the many years that before and then we look at our oil, oil
23:55 that, but that's all we have reached. And, uh, and
24:04 look at the path, the path from about 100 million years to and
24:14 look at and then you have there's a high possibility this track because
24:24 time, the timing is very If this truck supposed, if I
24:28 this truck here, the risk will high. This will be if I
24:36 the this part here, risk is as well. But that's travel from
24:43 early that he says, no, , no oil, these two cases
24:53 then the risk is very high. is very, why would it be
25:02 ? Yeah, it talk about at time, oil, oil generations back
25:13 100 130 years ago, many years , 50 years ago, this kid
25:23 because the track, the track forms or that was a good thing.
25:32 what that, that, that could , that could be, could be
25:37 . But, and then you need think about that. If you,
25:44 the, the here is actually all learn from the right from here and
25:52 you see that you have very, , the, the, the the
25:57 there and then very just the slightly of the reservoir forms at that time
26:04 the reservoir form transforms and uh you not really have a oil, the
26:11 . Not that is still, I that's, that's about it. Unless
26:19 have something. This is really This is really good because it's all
26:29 , all the time. It's massive or so that's a very good
26:40 that's the one thing I want to want to. When, when we
26:46 final exam, I, I cannot this one and that is not good
26:51 you as well. Yeah, we , I will test, it's actually
26:56 , test, test means that we to know how, how good you
27:01 . And then if I, if make something, if I make something
27:05 the, the the is all I select one from the reference, the
27:11 , the many, many of those of things available in, in
27:15 you don't need to, you don't to, to, to read those
27:19 . If you have some, you read some reference to this system and
27:24 you really need to know. You need to understand how you can read
27:35 . And uh another, another you know, this is the,
27:38 I ask you you say, I it is uh which, what I
27:42 you to support the Bill cox have rack. The real have a,
27:48 you read this one, you see when you see that this, this
27:51 the, this is called I have formation names here. It's uh like
27:58 one. And this one, this is actually, and actually this one
28:04 OK, this, this one here the, and this one is the
28:09 , middle. And then this this one is the real, that
28:15 the corresponding each other. So you, you read it, this
28:20 , if you want to read real real is actually uh that's,
28:30 that's the, let me, let put the, the, the,
28:33 , the, the, the app you, OK? The same app
28:36 your app about 100 million years ago , or about 15 million years
28:47 And then continuously, you see that line, this is the cancer in
28:58 position in the range of this about 20 it's about 18 million years
29:03 to 22 million years ago. the, the sediment reach is
29:09 And then from here, you see , the slower actually from here to
29:16 . And then you use that, use the formation name or use
29:20 you use the, the to define . So the is is slow.
29:32 . And then what we see is about two million or one million years
29:37 we have a significant increase of the each. So you, you
29:43 you can, based on those you can get, get the,
29:46 read, read like this about Well, so the the direction is
29:54 on the temperature, right, and temperature is operational to the gap.
30:02 why would we see the curve Don't, don't. So I think
30:12 not. Yeah. Yeah, that because the, because, you
30:17 we have different definition rate and uh , the the what our maturity is
30:25 depends on the two things, maturity , we call the some maturity.
30:30 depends on the 22 factors. One about another one is, yeah,
30:37 why the that's why, you if you have a relatively, relatively
30:42 temperature but you have a longer time then you choose it could be equivalent
30:49 that very, very short term. uh but the, the higher that
30:56 that why you see that they see range, the, the this the
31:00 range and the green range or red they are shaping, shaping is not
31:06 not really the black line or Yeah, that's all difference on the
31:12 , different and the difference of the and also also the,
31:21 the, the silicon ridge is that's a true, that's why I
31:38 then any other question because this two in our final, we, we
31:43 have this kind of things. We it, it is not the
31:47 not definitely not the same on this , but we will use knowledge,
31:51 knowledge what we have we learn from here. And then like all
32:04 is someone who has not is actually . So that's I know like if
32:16 look at the real, that's another . You know, when we,
32:21 we talk about it, we talk the, the, the and uh
32:27 oil generation, all kinds of things the gas generation we will talk
32:32 So that's why if I have a , I will say, OK,
32:35 on this uh based on this various history and uh this history is including
32:42 the rocks. Yeah, in the , including all those kind of the
32:47 formation rocks. Then the graph Photograph is the, and then you
32:53 , OK, what happened about the . OK. And uh to this
33:04 is called, is called, which 30 to the 2028. OK.
33:20 then there is uh uh from this to here and then from the,
33:27 14 million years old as a and everything, everything younger than that or
33:49 , every, every everything, everything the, to the it's about 30
33:59 and it actually they do not really the window yet that something. And
34:10 we, we have a, this , this is our, you
34:14 you know, for real is not and then if we look at,
34:18 know, for real. OK. OK. Go there. Let do
34:23 all in the Zumba. That's the that, that, that's, and
34:32 and then to the, to the than that, then the,
34:38 the, the, the whole all really into or for this one,
34:43 this one is that the older generation going to happen? Yeah, that's
34:57 those things. You cannot really hear , but you have an idea
35:05 that this, that this formation increase a very short period of time.
35:13 , then that, that really increase signs that suggest that sediment real
35:25 right? That was just like, , that's uh it's still the the
35:32 in the high and referring it action referring that you, your signature which
35:36 high. OK? That is actually is back to this point. See
35:55 I think that the over burden overburden uh that is something what, what
36:00 guess. So the rock this is uh we say, OK, so
36:10 after this one, I don't know happens here after I do not really
36:25 otherwise, otherwise all from here, this one. So you for this
36:33 of thing, this table is what can see that here. OK.
36:51 else? It's, this is very simple. It's some, I I
37:00 some of them is the OK. , and, and then we watch
37:20 the, all the, the, , the history, what we,
37:23 we, what we show is we not really show the app yet in
37:28 , in, in the outside. . And, uh, I don't
37:34 to make that too complicated to you I want to have a relatively,
37:39 easy, simple system and in the , if you really work on the
37:45 basis and that more than you will that on that because if you have
37:51 , if you have some and for people and for this period of
37:57 we have no, no, any of and then, but the other
38:05 of things is too complicated. those are the relatively, relatively
38:19 So and then you inhabited the things the, about those, those
38:32 33 still the concept was still right the show. So I, and
38:45 get so close to and then all here and OK, the additional cost
39:08 and uh no doubt all the pressure pressure and chance you have and
39:21 I gonna ask some of them and, and call that the abnormally
39:28 pressure. And then in order to that this is a kind of a
39:39 to concept to plot. OK, , OK, the reason, the
39:44 you have a higher pressure and the processing because that to the uh go
39:57 the, the pressure is amazing. the only three s are using the
40:08 . Hi. Yeah. So if want to buy the same on,
40:15 that, so we just give 33 . Yeah, but you, I
40:25 on that one, those two do affect even those, this not
40:33 So this is what we call Not a very that, no,
40:44 , no, already, not really to the AIS but better than to
40:57 . Yeah, I, I know you, you, you, you
41:04 thinking if you have a offshore, can watch a column and you
41:09 but the water column, it has pressure, the pressure will be lower
41:17 the ology itself. You need you need to cut that in a
41:37 . OK. This uh this concept reflections we we talk about, talk
41:43 a lot of this one and uh think this is a very important part
41:48 well. You need to, in , you definitely need to, to
41:53 the what, what means normal linear that there's a depth versus the original
42:01 that was suggested to us. And the the normal ones versus the normal
42:10 and all that tells us in particular in particular the the those those kind
42:16 the those kind of the the typical are not relate to the one and
42:26 need to, you need to you need, you need to explain
42:30 . And I because the like this very, very different but because of
42:44 it, use it. Yeah. That's a lot. If the normal
43:02 is actually very well, this, is about the intrusion the intrusion is
43:14 the, because, you know, the, the, the, you
43:18 a, you have a in, the formation that the effect effect,
43:29 only very few me above and below and is really high in that,
43:39 few meters range. Wow. I, all things, I think
43:58 the people that you have a, have a same, same kind of
44:09 or, you know, to, two, uh, which, which
44:15 blocks. Yeah, that's all the . What, what I think is
44:33 is the, that is one of things is that for the mature,
44:37 know, when, when the history you see the sediment different and then
44:43 sediment is different. Yeah, that's , yeah, this is very easy
44:58 understand, see that. And this is linear one and this one is
45:02 one but not really, really have same, I guess that that is
45:13 reflecting the and a couple of Why is it? Why? Oh
45:22 , those are so this one? , let, let me, let
45:27 check. This one have continuously, sent to. Yeah. And we
45:34 over there, I think. And line of that is very, very
45:48 when you think of the very very narrow version of reflection change what
45:56 tells us. Yeah, there's still sediment to reach the sediment to reach
46:07 faster here, much faster compared to of them. That's why we're not
46:14 not really see the increasing like this one, you know, we
46:26 , there's two real online and another is uh so, so that the
46:37 guys, this, this almost, , this uh on this side is
46:45 . The reason, the reason they different and also different, that's,
46:54 not good, that's not good enough go. It's actually maybe the good
47:00 is this one if you like, you have a, you know,
47:08 of your you have and then you , they do not really, really
47:20 uh all the of, of, , of the because we do have
47:25 people. The the the this is OK for the thermal gradients support support
48:00 formation thermal gradient. Uh We we, we check that the thermal
48:07 is is the heat flu divided by thermal conductivity. Yeah. Is he
48:15 by semiconducting secon activity is functional group no, no, no, the
48:25 its function of this knowledge because Suntone and they have this conductivity.
48:32 And uh that's functional and the heat heat blue. That is what
48:37 we learned the key point. What learned last week. It's uh it's
48:43 the you need to count the this so that's you see really depends you
48:54 think about that's really depends on your larger tectonic environment. Yeah, it's
49:00 really small things. Yeah. So you can see here is of
49:05 you have a similar is don't have different, it's uh yeah,
49:18 well up to that is that your, your, your sedimentary age
49:24 not have significant change. And uh bigger challenge for bridge instead of
49:34 but he, it's, it's for , for the base and given period
49:38 time. He is almost, that's , I think that's the key
49:45 The key key lessons of what I last week when they do. Do
49:52 have that one here? Yeah. look at this model, this model
50:01 that this is the that use the to Christ for this kind of concept
50:08 of instead of sickness of our best on, I do not really this
50:16 concept to introduce the normal and they about the 120 kilometers, those fences
50:27 uh for our sediment basin, many places, you know, five
50:31 , 10 kilometers our but still still about 10% of that. This is
50:40 that's why they call it the normal , thin ones and the ones that
50:48 how, how they they they they thinking about China. So this is
50:56 this concept, this this kind of . We we should, we should
51:00 that because this this this kind of clearly gives us a indication says if
51:06 really want to change your heat flow your base model, that means you
51:12 to have some evidence shows that your activities, everything is significant difference in
51:19 this age of can work can can to another age of rocks. Otherwise
51:27 your heat flow cannot really charge too . You need to have a
51:34 I I think this is very very important concept. And in this
51:40 , we not on the the heat , it depends depends on the depends
51:48 the heated conductivity and also some geothermal . And the gradient is a
51:55 I think Q we know that this of this kind of set, big
52:05 set. Yeah. OK. One the actual, let me see.
52:15 I have no I, so the know the your input is unusual for
52:25 the foil fielding North Sea, you there is volcano there in, in
52:32 . So you know that boy is follow this global pattern. How do
52:39 ? Yeah. Correct. Yeah, a good question. I said that
52:48 that means let me let me keep this one in mind. It
52:52 a very important concept for heat and that has to go back, go
52:58 here, go back to look at , this, this I don't know
53:06 big body of the, the this kind of in. And if
53:14 look at this, yeah, it's uh uh 50 page whatever. And
53:26 see that you, that you, the, the which so in the
53:35 , real abnormally high temperature don't affected here and the top and bottom of
53:46 very, it's still very narrow. I want to say that if you
53:52 have the significant volcanic in, in the, the area that the area
54:03 your, your, it's very narrow only the only the volcanic rock interacted
54:13 the, with the that range of this uh this kind of thing.
54:20 , yeah, I, I don't we will be significant kilometers at.
54:31 . It's, and then go to , go get into the best.
54:37 then this, this case, they really affected too much. If
54:46 if you put this one, let , let me, I don't know
54:50 you can quickly change, you change mind or make a another thing.
54:55 this is, this is vertically talk elementary nutrition. And even if,
55:06 , if I, you know, it in a map in a map
55:10 I suppose it's the area have rock in the base in one corner of
55:18 base. And uh how significant is , that one corner of the,
55:25 nutrition that one of the best will the, the center of the they
55:37 be small if you look at if you look at this,
55:42 this thickness and the only effect that very small of your interactive bras.
55:53 you cannot, it's even that you cannot really, that they not really
55:59 your pitch too much. What we here. We do not really affect
56:05 too much. No. Yes, , yes. What else? We
56:24 to share. OK. It's uh the equation and with Sarah and
56:33 this concept definitely will be definitely will in our final as well. And
56:39 reason why it, it is important because the, the, the the
56:50 similar to the oil which is and that we call the solid material.
57:03 . And uh that's the in the chemistry. When you think about
57:09 , what are, what are very concept is about that if we have
57:16 oil, the gas and just think just look at the the hydrogen carbon
57:24 atomic ratios for the gas is 42 the oil, which we use the
57:36 . So just look at that the , hydrogen medicine in the enrich the
57:47 . So it definitely definitely have to some uh some carbon will stay in
57:55 the as a as a which is that's that is that you understand that
58:03 , this kind of very simple, uh and then I say,
58:09 I come, yeah, OK. thing about that, that uh if
58:16 want to look at the rate of reaction, what happened is that the
58:25 of the change of the, of big, big time that that is
58:35 very important that yeah, that's a , very important a problem volume of
58:48 equal, equal to the, the volume change initially of the the
59:01 um and also the, and she which is great. So that is
59:19 , and, and uh once the proceeds chief in and the department,
59:49 see that the time the, and with that one there, and
60:01 this equation can be this way and the K of the energy and
60:15 but that's the, and here you that the activation energy that is
60:24 the energy to su supply the, break it down, break down the
60:30 carbon of the cat. So that's and then you, you, you
60:36 some linkage, linkage of the carbon to our organic type. They are
60:42 because different organic type, we have chemical composition. So that is uh
60:48 actually energy is related to our organic then which is, which is,
61:03 this is, this is how, important of this the the help us
61:11 understand the generation of the oil and from the. And uh that's definitely
61:20 want to, to know that I that's uh you know, I have
61:32 the most important is that what we ? Oh yeah. Another thing is
61:39 the original, it's very, very measurement for the history collaboration. And
61:48 that the rest of the rest of parameters, even the T MA still
61:53 as good as black direction if you have available data, which are and
62:01 you definitely try to use that data your thermal history. Uh kind
62:09 yeah, but when you do the you read the report of the rich
62:15 of Black, I already show a times about that time, the,
62:22 Excel Sheet or whatever. Since I the report is about, let's say
62:28 , each group of, you need at least 20 or 30 parts to
62:35 it. That's why, you and that's why, you know,
62:39 need to really find the microscope, identify, really clearly identify which one
62:46 work we have not really represent, the, the, the history of
62:56 rock of that, right? Because is before they transported to the
63:07 So they already already by the the summer evolution cannot be good for
63:16 for the and then, and then other things about other things about only
63:27 only which means that, that, is deposit or organ organic matter at
63:34 same time as a set, you what you call it that and can
63:43 used for the, this is this is a very important, very
63:48 slide out. And uh you need need to, to, to know
64:04 I think that's all that's all for , you know, first week,
64:09 week, the homework assignment is much . It's all builders try to
64:15 That concept is much, much easier the last week's assignment. Last week's
64:21 is uh it's the, in we have profile and the base modeling
64:28 the petroleum system. Those are things important. We try to uh try
64:34 use the knowledge which we learned from last two weeks to, to,
64:41 , to that, to this two . Yeah. Any, any
64:53 Yeah, go, go tell you more time. We definitely will in
65:00 final, it's not the same as one, but I will give you
65:05 , let you to let you to . And what is the critical
65:10 Why? And uh what the, each of the geological elements including,
65:19 know, when you say OK, is the Jurassic Jurassic, the,
65:27 , and look like this line is , the uh and the is and
65:41 the all open racks to rock and from lower that in the beginning of
65:51 pressure to, to the, to to, to present and the track
65:59 and, and the for to, that and, and yeah, that's
66:07 you can do that with all the time, 50 million years to not
66:18 any guess and the generation and for kind of those kind of things,
66:26 know, read, read all those . When you, you answer
66:30 when you answer the answer this slide uh we provide a different slide but
66:35 same kind of the concept, same, same thing here. This
66:45 the, this is the, the again actually know that the formation
66:52 uh those, those are the different geological, a different formation here.
67:00 uh this is a geological age. that's 7123444 all line up and then
67:12 see the curve and also about my , let me stop. Share this
68:08 . OK. And our class will cover the issues about the alteration.
68:17 know, we have an oil forms a but the various of of alteration
68:25 will destroy the oil quality. So I'm going to cover the cover because
68:31 is I think that this class will alteration of petroleum in. OK.
69:02 good. Yeah. And uh so oil was formed from the carro through
69:11 maturation and uh after accumulated in a and then that there will be various
69:20 processes can be out the oil quality is we call the alteration of petroleum
69:27 re so that and we know that , you know, we, we
69:35 about a lot of the sauce rack from today and tomorrow we will locate
69:42 oil itself and the petroleum characteristics can influenced by the numbers of factors.
69:51 know that organic type and source rocks affect the potential product composition. We
70:00 a took the lunch time to describe one and he is still some kind
70:07 the high level, the summarized we talk about them. And the
70:12 thing is that if we have a evaporate and including the gypsum Adra and
70:22 , and these are the inadequate source . If we, if we have
70:27 lower price and uh refresh, refresh indicate the slight refreshing of the water
70:40 and deposits the fine grade cabinet and are often the excellent source rocks.
70:49 we, we already show a lot times about the two very important parameters
70:59 effect a source rock evaluation. And mine is a which is organic
71:12 organic content. So it's, in words, if we should do the
71:16 rock characterization, abundance of organ matter is uh is one very important factor
71:27 is QC we talk about. And the second one is a total
71:34 potential off the rocks. So here see, you can see that high
71:43 uh I see the red red points actually have a lower and a lower
71:52 and the age on the mouth and on the very become very contains the
72:02 O C and the high uh generation . And we also uh divide the
72:13 become oil proof and the gas pro . And uh this is the summary
72:20 the cur. So we have a one, type two and type three
72:26 . And we use a different word the term called, called top one
72:31 a character. It's actually, you , that's a microscopy s characteristics show
72:41 offer and uh at car elemental That's uh so just that one contains
72:48 high hydrocarbon carbon ratios and uh also a high content which is uh deposed
73:00 marine and the Lucas shell, the and which have three is actually structurally
73:09 called a matter and uh chemically chemically composition content, the lower hydrogen carbon
73:19 , higher cell content and those are from the source. And uh they
73:29 have a mixed humi and gens which developing in the near and data
73:39 And those three kind of went through maturation, shut down oil that's from
73:47 one gen and oil and gas from two and the mainly gas from top
73:56 . So we know that gen types be characterized by three different methods.
74:04 is the morphology to use the organic graph. And another one is the
74:11 elemental composition, including carbon, atomic ratio and oxygen, carbon atomic
74:19 . And uh and the third which is a very useful one,
74:24 is a paralysis. So when when I talk about those three
74:30 I believe that you have a, have some plots in your mind.
74:35 . And uh those are the things , you need to to know that
74:42 for the morphologically classification of organic matter uh those are the results. And
74:51 you can see that the organic the the structures on the microscope is
75:00 different, know that have one knows that type two character knows that
75:05 three character. And also when you at the, the pyrosis which is
75:13 hydrogen index or oxygen index, once can see that shows up here.
75:20 uh and uh last week, I say that hydrogen index, oxygen index
75:28 rock rockery is it got a full parameters from Parader, which is S
75:37 S two S3 and the TMAX. uh and also, you know,
75:44 one and S two peak, we be separated even more the same,
75:51 more back use the PC. That what we, we did talk about
75:58 one last week. Those PC C don't need to know that one,
76:04 you definitely need to know the Is that what are four key parameters
76:12 for that? What each one represented and the index, oxygen index.
76:23 is the summary of the classification of and their depositional environments. And uh
76:31 have a current type one type two three and metal compositions which is the
76:38 pet graphic method. And uh the column is about hydrogen index which is
76:45 the rock paralysis and the the is is, which are and uh have
76:54 here and uh which is based on uh organic graphic environment of the rich
77:03 the indigenous indigenous of and uh also product which is generate the hydrocarbons,
77:13 we talk about the C 15, know, based on the C 15
77:18 and look at that and uh corresponding the depositional environments and that this is
77:25 very good summary table. And uh hope, yeah. So four
77:35 Yeah, top four is, we do not that too much because
77:40 four is uh see the top ratio in is less than 50. So
77:47 almost uh no oil on a cat but today actually exist in. So
77:57 why the table including the and in , in our whole whole lecture,
78:03 do not really talk too much about this table that is a little gas
78:11 if if and also of the hydrogen . And uh if you look at
78:17 metals that, that yeah, top do not pay too much attention.
78:26 top four have 123. That is , that's the, that's a very
78:31 things. And I want to know and have 123. It's the,
78:37 the they are characteristics, the reason that is important because the that is
78:47 to our oil compositions. And uh know, the top one collagen type
78:53 collagen is that and the bacteria dominant organisms, the pre precursor that is
79:01 living organisms that is dominated by the and the algae. So the as
79:06 result, the other result, see oil mainly composed by the car number
79:13 than 6 25. So it's but is that if you take the
79:20 three and then you have, so is the, that's the kind of
79:27 why we see the the importance of current type of effect to the oil
79:37 , you don't have, you don't to remember those things. This is
79:39 those those kind of any anything, like those ones that will help,
79:45 us to build a concept in our . And once we say,
79:49 type one, type two, type , those are the those those those
79:54 important because they are contained a different carbon atomic ratios, oxygen carbon atomic
80:04 , which can be the the use the can be similar or as a
80:12 of the hydrogen carbon atomic ratio and carbon ratio use the rocky hydrogen
80:19 oxygen index. And uh why they they are they are different under the
80:25 . Under the microscope, you can their structures, chemical structures are
80:30 Yeah. And uh why they are because it's uh because they originally originally
80:36 are living organisms in for form, the different kind of the the the
80:43 matter is different. So this is whole, this is the whole things
80:47 we want to to you bring bring together in your mind. So organic
80:52 up. OK. That's quickly you say oh that organ top carbon ratio
80:57 high and uh it's dominated by the and bacteria and under the microscope.
81:06 we can see the structures is mainly mainly composed by the that some
81:13 And uh I think that's that's good and it is oil proof and top
81:21 is OK. It's also oil probe it contains also higher hydrogen carbon
81:26 atomic ratios and the hydro higher hydrogen . And uh it's uh it's also
81:33 from the organism or living organisms is by the bacteria and the algae.
81:40 uh that's the, it's uh it's good for the oil and gas
81:46 and pa recursion is dominantly composed by some high plant materials. And uh
81:57 those, those ones have a con lower hydrogen carbon ratios and the lower
82:03 index is good for the gas And uh if you look at the
82:09 the microscope, organ ma is dominated the high plus mass groups, I
82:16 that's the, those those things, know, once, once we talk
82:19 top +123 and then those information is to your mind and uh that's good
82:27 you don't need to. And also that those things, those, those
82:33 all help to help you to, bring this concept together. OK.
82:45 , we talk about the, the already. So another thing is about
82:50 still some concepts. The, the why we, we emphasize this things
82:57 that's later on, you will see we will use these things in our
83:04 . And uh for the talks. the definition is that this is the
83:10 and the nu contain the same number protons, but different number of
83:19 So the po I use the, , this this kind of element basically
83:27 at the mask. And uh and I represented the mass number and
83:35 represented the atomic number. And for is the, the carbon, we
83:42 a no, no atomic ratio, number is six. And uh they
83:49 three different kinds of uh this one uh have a contain another six
83:59 So actually the actually the mass with 12, I think this uh this
84:09 the, it still, I think is still to belong to a definition
84:15 . And uh from a, you to know, you need to know
84:19 we talk about. The, what means is and what definition, you
84:23 , like if you can give, , give an example in your,
84:27 me one sec, hold on. then we have really three, it's
84:33 the, the, the three important the one is the problem. And
84:42 for the oil and the, for the oil and uh they use
84:51 not, I use the third, have a, you need to,
85:00 , you need to also know that this type of notation on there and
85:17 you got and uh for, for head that's actually in the, the
85:38 , the better to the I don't the avocado and then, and over
85:54 over 4 to 32 the standard. these are three different standards for
86:04 each of the, each of the . And uh those are the standards
86:13 like ocean water and the the the , the basic standard? OK.
86:23 , B to hydrogen. This is this is the standard for the C
86:28 to C 12 and this kind of four to second two. And uh
86:39 . I'm happy to hear to see those are the delta D all due
86:46 the delta H two by referring to here equals two heavier ones divided by
86:57 larger ones for the samples. The minus standard standard is this one and
87:05 by the standard of the numbers So the reason why the why is
87:13 because the variation the difference between the sample is and the standards and the
87:23 is small. So that is why use time. So to make this
87:29 of data notation number is bigger is easy for comparison. So the point
87:37 which I want to want to to know that is for the stable of
87:44 fundamentals that is OK. And you that, OK, if I use
87:57 OK, now hi please if I the carbon as an example, all
88:08 that to replace the replace the of carbon sounds like. So if I
88:16 this is for hydro and that not 100 and now I I want to
88:22 at a better for the for this it looks like can replace the hydrogen
88:35 , I I would see how, good they are very good. Do
88:41 do that to be real. Let me, let me just put
88:46 . So that time, yeah. the true on the table? See
88:58 the, the notation is the, heavier because the, the abundance of
89:04 heavier carbon carbon or b of any of things of the, the heavier
89:10 side, the abundance of that, is much lower than abundance of this
89:17 lattice. That's, that's, that's lot I know to the better
89:26 So that's equals two. So there's about a sea for the to the
90:05 557 seven. Um So that is the for the carbon. Hopefully it
90:21 me. And now I if I it to the sofa, can,
90:27 you if I change the sofa? this equation? OK. Cool and
90:49 . Yes. On Friday. Great. That, that is about
91:00 you say that it's actually if you this, this equation is a very
91:15 . Yeah, that's a, you that is that when we for
91:21 for the, for the, when marry the, as we marry the
91:27 , a mask abundance of the to abundance of the, that's that,
91:36 how we made ma ma and once measure this, it's no matter which
91:42 of sample, the maximum we measure carbon. So you buy see 12
91:55 that to the and then at the ratio compared to this gap is standard
92:05 and then it to get the figure how that reach in the samples compared
92:17 the so that this is how if I trans translated to that means
92:25 enrichment of the samples to be Oh me to the standard standard is
92:34 standard? And that, that, , that right. What do we
92:45 to come here with the standard? the same with this ocean water?
92:52 . Yeah. No, no, , no, no that's, that's
92:55 the carbon. Yeah, this the think this is the one we use
93:04 ratio. Yeah, that's a good know be because you know the the
93:13 have many layers. Yeah, we many layer layers. We have many
93:18 better than similar, similar level with same level. You made many many
93:22 from different. And uh what when , when you talk about when
93:28 when you talk about it, they OK, it's a carbon 13 is
93:33 0.1% and the current is about It can tell you this number.
93:45 will, you will feel difficult to . Yeah. And also difficult to
93:51 . And uh so it's actually, you married, you married, you
93:57 the abundance of the and abundance of black and uh you, you,
94:10 will remember that that that's kind of the the the the the numbers and
94:15 you report it, when you report , if you report that kind of
94:20 and uh the number is too no one really can understand it
94:28 it's very difficult to compare. So why, that that's why they come
94:35 . It's a kind of I have , everything you compare it to a
94:44 , that standard is fixed for the all the levels, no matter which
94:49 of level you have. The United in China. Look in the in
94:52 Europe, if you all use the kind of standard and better than your
95:01 to your standard. To think how you act of the, have you
95:11 of this international? So this is big, this is how the big
95:19 works, the communicator, you need have a communication language and the like
95:27 likely to be speaking speaking OK. if I first time come to
95:34 I say, OK, we he said, what are we talking
95:39 ? And then now after, after class to make three weeks of class
95:44 after the two weeks class and they , oh yeah, if I talk
95:51 OK, and that is a measure the extent of symmetry. If I
95:58 OK, you should have like 0.5 in our class. Yeah, you
96:04 like 0.5. OK. It's not the oil window yet. So the
96:09 not good. So you can make kind of communication. They are if
96:17 , if you say if you, you want to talk to buy
96:20 buy something, I will I will both richer. Oh, what did
96:28 read through that down? I do . You will use that. You
96:34 do that to them. Is that ? And, uh, the
96:45 the reason now we contract contract, know, you know, we don't
96:59 , ok, for the, we be very similar to what I talk
97:13 . Very, very, we talk , they talk about and we
97:22 we go 500 guests during the I know. And the you know
97:34 oil, oil. OK. Yeah, that right. Mhm And
97:53 for, for the, if I have I, how did
98:10 this is uh generation stage? Oh That, that, that all the
98:38 the only things you can tell is as a choice and I want to
98:47 a little bit of, little bit more knowledge for, for here.
98:54 uh if you look at the, at, look at the, the
98:58 binding in, in the process of start to assume the organic matter and
99:07 they will consume it very easily assuming push like eating the food,
99:14 some animals for eating the food. like the food. Yeah, because
99:23 , if I didn't turn on Yeah, that's, that's OK.
99:29 there's some, some delay, that's OK. So stage of the
99:36 organic matter react consumed by bacteria, consumed very easily, consume a portion
99:45 organs. In other words, in words, you know, we have
99:49 common bond in our organic PM that break down a very easy, very
99:56 about which is the container relatively. don't know about this because we know
100:06 carbon, carbon bonding determine the because massive smaller than 6 13, 13
100:16 that balance is easier to broke in the reaction. So as you reach
100:29 time, he reached and, and , that's true. Awesome. Look
100:46 the common and I will leave this and we will, we will answer
100:50 question to the my, how much the should the oil and gas
101:07 No. So that's also break down carbon bonds like that kind of a
101:19 , carbon 12, 12. And you put more energy than the carbon
101:27 £30 to be. So as you , oil, we do generate the
101:33 gas have a search because uh because down in the bacteria process and now
102:13 not that hot. We will have also have a to Yeah, in
102:26 , that that is it the the oil then oil is not some
102:47 . We heat the temperature deeper, , very organ deeper. OK.
102:56 to strike again. Yeah. And there is not after that because high
103:08 that you graduate easily broke down because get up. That's the order.
103:26 quite cheap. Have an and also that time you have a message you
103:36 any OK? We have three stages data values. And you see the
103:46 enrichment of the 13 enrichment of data will be increasing from the gas through
103:58 oil window to drag. You can that. Yeah. So as a
104:04 , what you can see that it have any use of the in the
104:10 , you will be look smaller will smaller than, than, than this
104:17 . Yeah, and this one will smaller than this one because the enrichment
104:23 the sensor is getting it is stronger to the and all the people,
104:43 number that time that that that a values in this. Bye. Uh
104:58 associate the gas fuel in the middle be a case that generation in the
105:07 , the after oil crashing. And you see that actually how that you
105:16 that we have and then you can that. Oh uh-huh uh-huh, the
105:46 awesome. That's the best location and the range of. Oh OK.
106:11 . Wow. Mm I'm not getting . That's when you read this.
106:27 , you get that point. Mhm is how that is about the uh
106:47 talk to differentiate different kind of OK the organic uh after organ position,
107:00 the organ symmetric on our so it's hopefully get this and I hope,
107:09 hope that's uh you know, my gradually easier for you to, to
107:16 as a as chemistry is a for I I my whole career to
107:29 to work on this those. Uh oh, that's a good,
107:42 point is that we, we look that data values, you know,
107:51 called the, and that's, that's enrichment of the healthier in your
108:17 That's why, that's why, you , I, I, I hear
108:20 use enrichment for enrichment. So the English word is used for the our
108:45 of a system. So this, two kind of words, it's actually
108:49 all related to that data, that definition. Yeah, it's that is
108:57 what what you see here. It's you, you can definitely I think
109:05 the because when you look at the I originally Yeah. Alright, bye
109:27 to your pre what? Yeah. maybe is more, more meaning more
109:38 . So this process, you see this is the whole in order to
109:42 all this kind of the processes is that's only the one the process of
109:47 we are talking about. The the generation of the chemical reactions doesn't
109:54 increase that against the they are hydrogen trope will follow the same kind
110:05 as the carbon is the reason is you know, those are the co
110:11 are the all follow the chemical reactions uh the through the through the increase
110:19 the concrete, we have a significant conversion of your precursor to your product
110:28 all from your car to the oil gas. So this process is that
110:33 actually that's in the, uh, call, the con is controlled by
110:39 , the temperature dependent the reaction process , uh, uh, that this
110:45 will cause cause the astro fractionation we the. And that's a, it's
110:55 little bit more, that will be deeper, deeper, deeper part that
111:00 , the, the point, the of which I want to, to
111:04 you here. Just let you know . Why. Yes, that's
111:22 that's all me, all me guess chemistry natural gas. OK. That's
112:00 . And uh you know, this two concepts you, you need
112:03 know because the tops introduce the tops uh a little bit deeper. But
112:09 I'm not really ask you too much remember all these kind of kinetic fluctuations
112:14 is too much. But you need know, you need to know the
112:17 the definition of a tops and in as top geochemistry, we use the
112:23 , not what that data notation equation what that means. It relatively enrichment
112:32 heavier heart a to the standards, standards, the notation after this.
112:42 uh OK. This is uh this just to give you an example about
112:48 , carbon. Top three. that's a, that's a heavy,
112:56 brick. We, we have um materials this afternoon. And uh I
113:06 it's the, the, you just me about the, you know,
113:11 the, the for the many geologist chemist they're working on the geological data
113:18 the geological time and those kind of and they use the, use the
113:25 carbon and the carbon 14 is it's used, used for the environmental
113:32 a lot because, uh, because half life time for the carbon
113:37 much shorter, three years, I think it's 5000 years.
113:44 it's about 500 years. 14. used a lot for the, I
113:51 . Hm. Yeah, for the . And also for the, for
113:57 people who, who do the, , do the, do the research
114:01 the. Yeah, I called the pad stuff. You know, some
114:06 is that they, they use the to a few 1000 years ago.
114:10 people buried and, uh, they their bomb and then, then
114:15 the, the, they get some piece of that they are bone
114:19 whatever stuff and even the hair and they can take the management of the
114:25 tops of the carbon 14 because the 14 content abundance will be decay,
114:31 , decay with the, and then can determine the, the, what's
114:37 age of that kind of the, , the, the place 5000 years
114:44 considered small is small. Yeah. love is his love but he is
114:53 . Ok. Ok. Ok. is a, that is relatively
115:00 And, uh, you see that is the, this is third time
115:05 . It's good. This is the part. I, I,
115:14 you see the why data because that the the the change, that's
115:20 small, very small change, you it actually change it only one that's
115:28 999. And uh and then if look at the ratio for that,
115:32 only minus one change. Yeah. what that's why the it's very
115:40 very small change if you, if say ok, 999 and the
115:45 if, if I report that 1999.2 you cannot really, really stupid,
115:53 don't know, 989, if you those things too much and people can
116:00 follow to follow the and if you , OK, by the small commute
116:08 to that, that means you only a one differences, the,
116:15 the of the and then if they to that, go to that,
116:23 to say OK, here's about here the that uh that uh it's about
116:33 the differences we talk about all those of very small, very small
116:43 So that is that I think this makes the, the, this last
116:48 , maybe, maybe help, help understand this, the del notation as
116:53 . And uh yeah, they, already show this one a different type
116:58 the source is actually formed, the , different uh all the composition of
117:06 oil that just shows how the C plus carbon distribution in, in
117:13 this is the of the oil and marine source, you see the vocabulary
117:21 the components, there's a two fewer two pi one here, those
117:28 those are called OK. You see , so that's the, the the
117:38 if I talk about this one, will become a say OK, familiar
117:42 know that I know that what data value is I say yeah,
117:49 This is the, you know that referring the different uh normal compounds contain
118:01 different yeah, number 13. So that individual, each individual and then
118:15 measure the aspect of the which which is the right one. Um
118:30 from the number of people on I know I'm not almost come to
118:44 the differences, the other one other this time, this time number 13
118:53 13. And so it's just just the same and then look at this
119:08 , this is another one. But can see that is you increase your
119:14 , your cover is actually increasing, and uh actually maybe suggest that they
119:22 not mixing cause. So you, can see that you consider that this
119:30 a, this is some of samples the river and the is about less
119:39 9 26 and this one is the minus 20. So that different
119:49 different samples can do have different carbon sign signature. So that is
119:59 that is the, I think that a very important concept of tomorrow.
120:04 will use it and uh to, , to refer it. So
120:09 that is like for natural gas, just show that for natural gas.
120:13 you have a natural gas, it's, that's all composed by
120:19 How do you know that, that medicine is sourced from the biogenic
120:24 , less than all the generator from oil or me gene in the
120:32 Or do you know that the only you can do that is to measure
120:37 ass and then trace back and once that number, if you understand the
120:44 , then you OK, you management 70 per so oh we minus 70
120:52 . That's a guess because why you make that statement quick because there is
120:58 people already do the many kind of studies and uh identify that minus 70
121:07 less than minus 65 that is in so that once you, once you
121:15 that kind of, then you refer and same thing here if you have
121:20 accumulating in red and how do you that the oil is sourced from top
121:26 Carro or top two Carro or rich this system or all the classic,
121:35 it with all the, you need measure that you need to measure the
121:44 of the parameters of the or and trace it back to the, the
121:52 . So particle I is one of one of the important things and uh
122:02 another another to today, right? and I this one actually this this
122:26 to natural, it also have a , those are the things, those
122:31 the things, things that to, get the best, the the people
122:37 really work, work, work, on uh Joe workers working in the
122:42 . You need to, you need build all this kind of uh key
122:47 and model and say, OK, gene from top two characters and what
122:53 typical character. And then you need build up this kind of the the
122:59 be called the references, once you up this references and then say,
123:05 , my best produce all like You only have one sample from all
123:10 samples. How you can make story samples, how you can make
123:17 I do the wrong my I had , my company through the wrong success
123:21 little bit. Produce about uh you , 1000 barrels a day and in
123:28 and you, you make some say, OK, this is
123:33 how you come from and what you and what kind of are all kind
123:40 how you can do that. And you need to build up, you
123:44 to build up this kind of and this kind of phase, that kind
123:50 that kind of very, very or uh also, you know,
123:59 very, very different uh different secondary process in the build up this kind
124:06 uh reference. Once you have this build up and then put your oil
124:12 analysis and what, what the, the things they were doing and then
124:18 all the samples in the reference you know, different plots and then
124:24 have some ideas. So the, that that is how, how you
124:30 , how you can provide useful information your company and that your company realize
124:36 you are very useful. OK. uh for the rock for from the
124:49 topic, uh the, the, , this the, the, the
124:52 slides that talk about the set so can be formed from the, the
125:00 , reach the close and uh and ring reach the cause can be.
125:07 you said that, I think that said that we know that three which
125:13 a structures, yeah, is a character and some bass, they found
125:20 con sets condensate accumulation that is, is actually related to the core.
125:28 why they, that's why they, they are still the rich. And
125:38 there could be some degree of oil the at high completion or could it
125:43 space separation cause the and uh uh in the center accumulation and the impact
125:54 the disability of P S and the product, the product, crude oil
126:00 . And uh there can be uh heavy oil that can be a sulfur
126:06 , enrich the oil. And uh there, there are some uh some
126:12 source reduction in the oil reservoir, I the focusing few, few
126:21 And we already talked about this line this line is actually we, we
126:27 in our homework. We, we just let you know that how
126:31 different uh system, carbon rich system the system, the sour content in
126:40 oil will be different. And uh is a, this is a,
126:47 that I can see that that's at beginning, we have all the organ
126:55 usually have a he calls over the in the water column and in the
127:04 water, both of that. Um uh and that's that. And if
127:33 go to the carbon rich system and still, you know, through the
127:37 reduction, you form the hydro and part is the, the form and
127:47 still have a valuable hydrogen sulfide react the form that organ can reach
127:54 reach the car and I that have a high and if they continue the
128:03 of increased temperature and form the high if the further increased temperature sub,
128:10 know, see that high oil, crude oil, it can be also
128:16 be become low sulfur oil, the in the increase of the, the
128:22 because the hydrogen sulfide can be quickly from high over cut. I have
128:30 to read to their lower package. this is the how is this
128:35 This is actually this is so petroleum are influenced the mostly profoundly by alteration
128:56 the petroleum within the reservoir. In words, you know, it's the
129:00 generated from source rocks that is oil de determined by the current types,
129:07 by the maturity. Once they charge inter there are some alteration processes
129:19 And uh I try to look at alteration processes in the reservoir.
129:24 This slide, I I really want pay more attention about this slide.
129:28 is the the how how you can the alteration process is alteration for
129:35 We have a carbon and a classic continental all marine system. Those are
129:45 sauce. This is, those are sauce and then generate the oil after
129:53 accumulated in the you in a re know what happens, OK? That's
130:01 in the water of the water. of course, I I I did
130:10 one time as what was it can the oil and watch a contact
130:17 If the you know the oil and surface is like this. If you
130:23 a type of additional charging and then say additional water comes in and cause
130:28 oil water comes to service like Yeah, that's the water and then
130:35 degradation because the water will bring some to the river and will cause the
130:44 some portion of the oil and cause cause the oil to bad degradation at
130:51 side. That's a exit the I'm sorry. Look at this.
131:01 you, you can go to a and uh the form can perform the
131:09 gas actually to say, OK, the oil for the the and also
131:20 uh gene generation more gas. And got another process actually, the area
131:32 process if the maturation process mo mo the increase of the called the called
131:42 called the auto charge. And uh thing thing is about the increase and
131:48 temperature in the reservoir and also can called called the red and the oil
131:57 the organic oil and oil can be oxide by age. So this is
132:06 this this this is this is the of the this this slide. And
132:14 so this is a very important I definitely want to know that and
132:18 know that I I always put put the the description questions for you
132:25 your homework assignment. This will be alteration after accumulation and uh by the
132:34 the bacteria alteration reaching the didn't really at a lower out. And then
132:42 was the water? Water is really on the solubility of the organic,
132:50 oil components in the water. We that some oil components like aromatics have
132:58 much higher solubility in the water compared a so that the difference in the
133:03 . So change change the composition and gas, which is uh called the
133:14 that secondary gas check is actually like from oil charge and sometimes indued aspect
133:27 . And the garlic is a dish referring to the the thermodynamic cur and
133:35 the reduction which are occurring at high and between the high carbon and the
133:47 the car eventually. Yes, which talking about a lot occurring at high
133:54 the also some stability, not stable then some. So those are the
134:04 or six alteration processes. We definitely to know this slide. And uh
134:14 also to see here is a further about the petroleum fire degradation. This
134:20 a very important process because the degradation the oil process in the stages.
134:26 uh this just shows the shows the of the oil, the the oil
134:34 to the original. So this is those are all this, this,
134:41 is the original oil without any bio . And uh I I like the
134:52 apple level. You can see that the whole apple and the whole without
135:02 operation and then the has a very and then you see the to the
135:19 the idea that more you see that this point, this point, those
135:27 that increases the the yeah, not be consumed by bacteria. Yeah,
135:55 uh like we have an apple apple and a little apple but then
136:01 they eating apples and then without in without the consume and the US is
136:13 still still there. This is all by the you see the, the
136:19 gravity become 29 it also increasing and still have a 70% saturation. And
136:29 you go to here, this is same at the beginning. It such
136:37 what you can see that is all almost you cannot. And uh what
136:47 here is the from 14 to So what that tells us is that
136:54 , this one is very good very to the high court normally.
137:01 this one become heavier, become The oil quality is that it changes
137:10 and uh this increase to significant, a 0.5. This is the 60
137:16 almost 100 times increase. Let me . Yeah, more than and
137:25 then the satu saturated hydrocarbons saturated carbons a 30%. You see that with
137:33 the degree of the degradation, the dramatically decrease representing the lower saturated
137:46 you know, there, you and uh further, yeah, we
137:54 this, this, this graph already what you can see that and the
138:00 all generation that are here and anything in the best and uh about about
138:13 the normal and then the and the uh and like this of the that
138:33 of and go to here got here the become 22. And uh c
138:43 system remains a very small portion of hydrocarbon is what you can see that
138:50 , this, this oil contains So the aroma is not good,
138:56 , good for the, the more to against. That's why, that's
139:07 they see the, the oil oil, oil quality change to imagine
139:12 . So when, when you drill well here as the original oil is
139:17 from over there. But, but the fact, I think this
139:28 we already did the show this one . I don't want to spend too
139:31 time for this one. And uh shows the different, this is
139:43 the oil and uh all that oil oil and go to the heavier
140:04 high and that we get the oil the hero when you normal car is
140:18 , this is another one that just the oh this is not the,
140:22 is the that or it's uh this not the old one is uh uh
140:36 , the oil and uh and the there for 32 days, they consume
140:46 kind of and this is for the , but there is still no more
141:03 for the and go to the, 44 days and they that so that's
141:18 natural level of observation compared to the , laboratory uh experimental bi degradation.
141:25 shows a very similar trends. those, those shows the process is
141:32 and uh original, very highly the . And this, this is the
141:45 original. And uh another another issue very interesting is that, so that
141:59 percentage of normal, the temperature and see that increasing, increasing of
142:08 the one smaller and smaller and the one and uh uh the, you
142:18 , your normal uh concentration curve, can get a really good corresponding to
142:24 sum shooting. And those shows the the oil gravity, the oil density
142:32 to the, correspond to the gas this, this area. And it
142:37 the uh so for the, the of the barrier depth and to and
142:46 , and the, and the increase the oil to be getting better.
142:55 is uh doesn't look at a comparison oil. You see, look at
143:07 , the diagram looks like different, uh proportional those and the saturate become
143:29 less. And uh as so, the no oil is actually only
143:47 This is one key study shows about in the north front of the Wilton
143:53 . And uh the oil variety, is that the oil gravity very
144:05 sad and uh all is increasing. if you look at content, that
144:15 another thing that content is that this I go towards this side is
144:24 And that is because of the, the increase of the summit increase of
144:30 chain, the sulfur, the oil less. Originally, originally, the
144:37 mature oil can be the 3% of sulfur. And once you reach the
144:44 off oil, the oil contribute will less than zero. And uh this
144:52 the shows some uh some concept to drawing about the uh type of those
145:03 of the and the, and uh line that should show the, the
145:29 . And because the black was is , the attack presentation and, but
145:38 the that is still that area still oil. Yeah, this graph,
145:47 spent some time to learn this graph actually look at this one that
145:59 Well, so that very deeply enough oil gas and everything I'm talking about
146:15 oil. It's, it's because that's pressure is high temperature is high
146:21 there's no separate gas, no all gas, all form the
146:30 the original original if this one and then cause the separation because the pressure
146:43 . So you have a and for get to the in the shadow shadow
146:50 and then you have the separation on , you have, you have this
146:57 of uh or separation process during the thing here, you, you directly
147:06 to have some and uh you could about the or something else and uh
147:16 separation. And then then for you can even more significant separation from
147:25 shadow from shadow. I think actually kind of technology that want to want
147:31 deliver from this slide. So this how the affect the, the uh
147:42 the oil for the on the gas . And uh this is the dash
147:48 after the 1.5 I I don't know 1.5 or two, that doesn't give
147:57 better idea that the, from the , the increasing of the and then
148:05 can see that clearly corresponding to a . This is, this is,
148:13 is very obvious in a, if go to a G I discover it
148:19 you before, from north to south the, the increase of bar
148:24 that's an unconventional play. And you a very clear separation of uh heavy
148:31 zone, normal oil zone to the condensate to the gas, to get
148:37 , very clear trend that qualify Yeah, this line is I
148:46 What is this for the oil? the was the and this is on
148:57 actually what you, what you is increase of the increase of the that
149:09 uh that, that, that that is, that is by
149:14 our and they, they have they have some publication about the ego
149:20 the, for the, the oil . I don't think you have time
149:25 read that one. I I hope have some time to show some of
149:29 result if I have time tomorrow. uh I think that's the the
149:42 Let let us have a very short and then I will get into the
149:48 of soft reduction. Yeah, let talk about another very important processes out
150:02 oil quality in nature. And uh is thermal chemical surface reduction. And
150:10 previously, we just show that on the body gradation affect oil quality that's
150:16 by the water of ocean. And bacteria of for this process is nothing
150:22 to bacteria is really related to the itself and also the heart temperature,
150:29 temperature. So this is the definition the T S R. The most
150:37 prominent a biogenic her biogenic alteration hot carbonate reservoir. That is the
150:45 of sulfate to sulfide coupled with the car carbons two carbon dioxide, which
150:55 determined as a thermo chemical action paid attention here and the whole thing about
151:08 process with nothing bacteria. And the thing is that is a in the
151:20 and uh and also including the in the reduction of the sulfide and the
151:28 of carbon to 202. So that can see that from the, the
151:36 the two products we are going to , one is about the hydrogen sulfide
151:43 another one is CO2 and uh and , and the hydrogen sulfide and CO2
151:50 become a big risk for the for oil, this kind of oil reservoir
151:57 and development. So that's, that back to 2000. Uh yeah,
152:04 back to 2000 above. And uh that time, shale oil and shale
152:10 is not really come to the play . And uh that many, many
152:19 and gas exploration go to the deeper and uh and and that, that's
152:29 that is including the, including the and onshore at that time. You
152:35 , it's the based on our based on our current regeneration model,
152:39 know, that is the oil can similar stable in the oil window.
152:45 , oil and the battery beyond the window. If the oil controlled by
152:50 thermal alter, that is the product be condensate unnatural gas. But when
153:00 people start to explode in a deeper hot carbon reservoirs, some
153:07 they found a very high concentration of hydrogen sulfide. And the CO2 that
153:14 you as you know that and the economics become a, become, become
153:18 lower, the risk become much So that is back, that is
153:23 2001. The people try to understand these processes are occurring. I that
153:30 that how I was involved in this study in a caltech. We try
153:37 look at the the key mechanisms to the this reaction in the sub subsurface
153:45 and how we can predict this this because once you can predict it and
153:51 you have a ability to avoid getting that area for your exploration activities.
154:01 also also if you really want you prepare for that say,
154:06 this will be going to be a hydrogen sulfide risk area and then you
154:13 for, for that and for your and for your product, the production
154:19 you need to remove the, remove hydrogen sulfide from your, from your
154:25 . And also hydrogen sulfide is toxic corrosive. And if you do not
154:32 treat well, they will cause issues safety issues. And uh there's a
154:42 general except T si reaction mechanism and you can do that is um look
154:51 , look at the, look at problem in the presence of the formation
155:03 form by the CO2. And you , and this, this reaction can
155:14 into two reactions which is with the and the, and there is
155:26 And so this is a very general of reaction and 2003. And uh
155:40 this means this means is that if you have a, if you
155:45 have, have the C I action and uh you need to reduce the
155:54 , which should have a proper balance six to the sulfur sofa, which
156:03 so minus two. So you see this is the, the,
156:08 the, the, the status is change from, from here to the
156:16 of the, it is the reaction this is a very clear, very
156:25 . I think we realize that and also the sulfate as we know that
156:32 the, in, in our we have the that developed, those
156:38 the main sulfate and uh your sausage to be dissolved in the, in
156:45 formation water to contribute to the, sausage ssl o uh the,
156:58 so, so I usually say, , maybe the soluble sulfate and
157:07 so those are the two factors control reaction. And uh also what we
157:17 here in order to take off this , you needed to the initial initial
157:25 sulfur species like so like a in to make the reaction go. So
157:33 is the statement, this is this is the, the, the
157:38 understanding, OK, This is the of we should get, they should
157:43 the show, the show, the the occurring in a and uh so
157:50 I just say that the because they the value of carbon resources because of
157:58 carbonation and will affect the the ratio result in a higher uh uh affect
158:09 and also affect the maximum depth of the oil occurs. We call the
158:15 data and as I said, hydrogen toxic of the of the corrosive and
158:24 can cause the, the the the can be corros. And in other
158:29 , you need to really, if really want to develop this, this
158:33 the deep of the oil and with higher to have a really a higher
158:39 pipeline good. And also also that need to remove the hydrogen sulfide before
158:48 , before you really sell, sell products to the, to the market
158:53 add the add additional cost to, remove the hydrogen sulfide. And uh
159:04 for the naturally the people over that that look at this, this
159:09 the scale of this six kilometers. uh what you can see that the
159:17 of what put it here, that the concentration of the hydrogen sulfide and
159:23 that concentration and so far in this is high and uh this is about
159:30 kilometers away, so six kilometers away then concentration become lower, it become
159:37 coin. So how how you can really can predict those things know that
159:45 that oil know that the oil do contain the hydrogen sulfide. No,
159:51 the oil field contain the low hydro that oil contain a high sulfur.
160:01 then the range here is it about over all from here to there is
160:07 than less than 20 to 30 kilometers . And the boundary between the high
160:13 the road, the hydrogen sulfide, oil, it is less than three
160:19 . So this this make the prediction very difficult. It clearly suggest that
160:27 suggest that the temperature is not only factor. So how you can have
160:32 really significant temperature change to cause this so that the temperature is not the
160:38 factor. So the if you make make the, we really cannot
160:44 really, really see that too much here to something else, which is
160:50 we talk about. And once you see that also the next one that
160:57 that now you can get you can you look at this, this part
161:01 say, oh yeah, I this is for me other content and the
161:14 which is the standard, the standard actually my phone either drink or the
161:53 site drink decreasing over the. So is this is this is very,
162:08 good observation that go go he is is. So this give you another
162:27 see that the is is useful and for us to make uh some
162:35 OK. And uh I don't want to remember these things, but I
162:41 I want you to understand this Yeah. And so this shows the
162:47 act of change of the oil and gas. OK. Is that means
162:53 organ uh all the organic or the in the water, OK? In
163:02 water and the with the sea water through the microbio sulfate reaction and the
163:17 to the to the generator product. , so high and organic.
163:24 so you can understand why this process taking place. Yeah, because bacteria
163:30 the reduction in A and A is ions from the and the so called
163:40 interaction reactivate the organic matter to form organic reach. So that is how
163:53 then then go to the go go the the further further you know,
163:59 water with some you know, you organic. So and then then you
164:07 the further in the in, in hot water. And uh still we
164:13 the can be went through the bi reduction and uh released some hydrogen release
164:23 CO2 and form some additional hydrogen So on the p one thing those
164:32 in the water column is occurring in water and the shadow sediment as
164:38 And as a result, as a will formula I for and I and
164:48 the early stage and the, the back and generate the sulfur
164:56 high sulfur country in the oil, is yeah. And then before
165:01 before they go to this station and action you will continue to, to
165:06 a lot of oil that immature oil release the happiness of. So let's
165:14 that, think about that during during the early oil generation and uh
165:20 sulfide is released arch from the high carro and uh as the sulfide and
165:28 oil is become a sulfur because the sulfide has been released. Hydrogen sulfur
165:34 been released as hydrogen sulfide. And for the, this this range is
165:44 if you have a involved in and have a more mature, involved in
165:53 car and generate the additional sulfide on sulfur that's through the thermo chemical production
166:01 much deeper. It's even beyond the of and from the look at
166:10 what, what's the result form that mature oil? That is a higher
166:16 sulfide and also comes with the higher in this oil actually because you generate
166:23 sulfide and the react reaction, the occurring here. But, but here
166:29 that with the oil and then increase sulfur content in the oil and even
166:35 , the, the all the high oil but still have a higher because
166:42 was because of this. Ok. one is just to look at the
166:59 the C 15 class groups type of for the T S R or the
167:08 from, from Alabama. And uh are the different fields and they indicate
167:14 different kind of the different kind of alteration of the, the, the
167:21 phone. The, the what you see that we have and, and
167:31 of the oil and second line what you can see that here and
167:37 actually the old, much greater. , so that in a range
167:44 and then you look at the, at those, those ones and
167:49 the, the, the blue one , and the red is a and
167:55 yellow is the, and the, , the uh actually what you can
168:05 that actually, actually you see the, the here are all the
168:11 contains a much compared to the also including all contains the much lower
168:33 to the original original and uh such increasing the Ame and there is some
168:43 of increasing of unless, unless will outside there that know that how
168:51 how the T SI can significantly alter oil composition. OK. This will
169:01 even more, little bit more. you so much. It, it
169:10 be more complicated what you can see we have a T S R on
169:17 this is the black to black And also we have uh we have
169:23 T S R oil which is the , red point here. And what
169:29 can see that is after the, those are all the this is from
169:39 all these and this is the all, all that. Uh and
169:50 you can see that uh no matter components after T S R, after
169:57 S R and the carbon all become , the the the the remain
170:07 What you can see that that is because the after after the products,
170:16 from organic is of the products of products of the car after P S
170:28 is what kind of form of the , they are coming by Oxide Bridge
170:38 what you can see that what you that is uh just run, you
170:43 , just run your mind that run mass balance a little bit. We
170:49 an original carbon, original oil carbon have much less smaller numbers. And
170:59 reaction after P S R reaction, the carbon ice talks of the oil
171:06 heavier. In other words, there be more carbon enriched in the T
171:15 R or how much product of the . What are your expectation of the
171:23 the carbon light or heavy based on mass balance, think about a little
171:38 the mass balance. So initially it and uh and then you know,
171:46 reaction and then you, you move up to here, you lose
171:50 Yeah, you lose something. So , those, those lost of
171:56 some of them become 02. So carbon I should be. So that
172:02 what? Yeah. Yeah. So come in this, it's about minus
172:15 or something for the, that's But the reason I, I want
172:20 pay that little bit of attention because uh you know, uh I try
172:24 let you, I'm not, not ask you to remember all these things
172:27 you don't need to remember all these . What do you really need to
172:31 this process? This process? So be reduced, oil itself will
172:41 oxidized to and remain the oil to enriched in the 13. So the
172:52 of the CO2 should be in, C 12. Yeah. So that's
172:58 last. So let us look at main controls of the P S.
173:10 that's supposed to question them is to the phone that is uh initially use
173:16 like a hydrogen sulfide or animal sulfide to be existed or required or
173:25 In other words, in other they say, OK, because we
173:28 that the hydrogen sulfide, that is product. Yeah, that's the
173:34 And uh that means if you, you really want to make this kind
173:38 the reaction go and then you need require that you require initial presence of
173:46 hydrogen sulfide. What that means? means if you do have a,
173:51 initially you character a type two S and your products, your products have
173:59 contain a higher hydrogen supply, that of a fact that two could be
174:06 a place is more likely what? then go to the to take
174:12 the go through the S R processes that is true or not, if
174:19 is true. And our prediction to will say, OK, the truth
174:24 be, you will look at top character, type, type, type
174:28 S character developed two. But when look at the, the real
174:34 natural piece that some, some they do not really have a as
174:41 this but still have a significant potential the S R reaction. So that's
174:47 why, why this country. Um thing is about the reactive space.
174:56 a, it's a itself or so actually enough or need something else in
175:05 to initiate this reaction. And uh in mind on it in a,
175:11 a slide which I show the higher the higher the hydrogen sulfide oil versus
175:20 low hydrogen sulfide container oil. It's separation three kilometers, three kilometers.
175:28 cannot, you cannot really, really uh something like uh similar to
175:34 those are things to make a It could be, could be really
175:40 water chemistry. That is why the , that's why we uh real
175:47 This is underwater chemistry. So what , what we really make a very
175:55 contribution to the this scenario is uh our work and we proposed by formation
176:03 chemistry which is uh Megan. So is considered to uh the and the
176:15 . But this is a very very important statement, very, very
176:21 discovery what we made for from our . And uh let us show,
176:28 you here and see that we, run an experiment that we have to
176:35 so and in the presence of watch which which which which can be really
176:46 be reduced by the organic ma you see that see that sodium sodium
176:54 sodium sulfate will be known as very . Yeah, very soluble. The
176:59 of sulf is unlimited even for that this reaction do not. And then
177:08 say, OK, this is the abundant minerals that are in the,
177:19 the action you think of it kind go out there alone. And then
177:33 and we only, we, we make a reaction to that.
177:39 making sausage. So mechanism of you can directly directly reactor with hydrocarbons
177:49 generate the hydrogen sulfide. In other , we make the S R reaction
177:54 . So we answer the first question that in order to make your T
177:58 R reaction go, you don't need really need to initial hydrogen sulfide
178:05 And once you have a right water chemistry and then you can make
178:11 reaction. So this is very important uh observations which remain. And then
178:20 me explain why the why the phage cannot be reduced. So this is
178:28 , this is symmetry of the age the itself that is the like tetra
178:39 . That's the, the, the like me molecules. It's the,
178:44 , the the structurally is very You cannot really, really think this
178:50 , this one. However, the itself is that it increases the concentration
179:02 the sheep to keep them to this . The peak of 995, that's
179:08 , that's the specific peak of the . The go to the bank
179:18 that suggest that the symmetry of the has been charged, which I I
179:27 can I, that's, that's not it work, but the, the
179:34 theory or theory really help us a . So that's uh I just want
179:40 tell, tell you some, some , you know, as your chemist
179:44 do when you, when you use knowledge, when you use your
179:49 you, you, you, I want to bring you here and
179:53 it's actually geology and geochemist use a of the lot of knowledge I have
179:58 use a lot of knowledge of the chemistry. And uh those are
180:03 , those those are just a little of chemistry here, you see that
180:07 are the the structure of the Those are the structure of the
180:16 OK. What you can see that the, you sit in this bun
180:21 length of this bond become, become that suggest that you actually, you
180:29 the symmetry. Actually, you change symmetry of the 4 50. This
180:34 important once you change the symmetry, you change the symmetry of the
180:40 In other words, that means that reaction could have occurring and make this
180:47 in the last seven. So that's , that is the how, how
180:51 know we, we use this technology look at that. And uh one
180:57 the researchers in our group and he the run the initial the the simulation
181:07 reaction simulation and find the find some that that is the that is the
181:14 in interpreted how the ma so itself not to get less stable in the
181:23 of the car. And the, point, the point to what I
181:28 to look at is that what you see that the level of the here
181:40 initially is 1.557 and seven increase. also also the difference difference to different
181:53 of the elements and the the lens different and the, the, the
182:03 graphic symmetry has been destroyed. And we did, we did run
182:16 the, the the the kind of simulation, this is very important
182:25 very important part. And this really, really make, make us
182:31 make us uh give us a very confidence. You know, sometimes when
182:35 do the research, you do your and uh you need to, in
182:40 , when you run some experimental work you need to, you need to
182:46 the right path the right week to determine that that is the the
182:52 direction you want to go. And you pay too much of your efforts
182:58 this is what you and uh because it will take less time, less
183:05 compared to our really experimental work. your reaction? When you look
183:11 you look at them and see that , this is a favorable reactions for
183:22 the for the the the activation look at the activation energy uh the
183:30 to the real and what have what you really fun about. So
183:35 content that I impair energy reactor with oil, that's, that's the reaction
183:44 think six after the show, which very similar to another reaction that five
184:00 that is almost the same kind of damage. It's really encourage us a
184:11 if you, yes and we we could make this reaction good in
184:16 lab and also this kind of activity actually is uh can mix the natural
184:24 that natural. And uh let's have look at the, look at what
184:33 in about the water chemistry formation, chemistry. OK. That's uh
184:39 you see that this temperature actually the and uh there's a different the for
184:49 aqueous calcium storage concentration. That's where line with an increased temperature is actually
184:58 , this concentration is increasing. And another one is uh contact i black
185:11 yellow line. And what we can that and what we can see that
185:17 is actually the condition yes, is . But once you reach the temperature
185:28 the 200 degrees C and the concentration almost zero and the itself concentration condition
185:38 the ice. And also also the, the, the, the
185:44 in the, the condition is high also in the laboratory conditions and also
185:55 . What we see there is another , you can see that this curve
186:03 is the and hydro oxide called the M I H complex was formed because
186:14 one form is actually the Magne in presence of magnes. And the,
186:19 the, the temperature above the 200 C is actually a which is uh
186:27 that the, the, the, you formation water h here to become
186:35 a and we spend about two we do not really know, we
186:42 not really know that because you see if you make the solutions of magnet
186:49 in the, in the room and phd neutron condition, we just do
186:54 have knowledge about the. And so presence and in the nature and
187:01 the the temperature above the 200 degrees and uh form this, this kind
187:08 pre main, the main hydro oxide release is actually this, this kind
187:20 the reactions had been over there in hot water as all the,
187:27 the, the, the, the , ocean, the ocean water studies
187:32 we do the, the, the water, deep Ocean water study.
187:37 over the the already and with increasing the temperature and the the the the
187:45 water become acidic conditions over the back the 19 seventies. But we are
187:53 in that area. We we are an organic geochemistry area. We do
187:58 really have knowledge about knowledge with the with the formation in organic chemistry.
188:07 once we realize that at OK, that our laboratory condition, we simulate
188:13 normally we should be greater than 300 C. But in a regular
188:20 it's uh so and go to go to the, the, the
188:31 labor conditions that the bias of the is actually the rector of the
188:39 So we cannot really, really compare to direct what that is why I
188:46 that this really will help us molecular , really help us do that activity
188:54 the bio and the magnetic. So is the energy react to the reaction
189:01 the oil, it, it have more and more very similar activity.
189:08 that give us the indication that if we, that both the left
189:21 the reaction we can use this as pro to the in the. So
189:34 is that, that is give, to give you ideas, you
189:37 how complicated this process is. And what what we are doing, this
189:46 the kind of thing that what it's really, we spent a few
189:51 and then we got a really good . And what you can see
189:56 this is a reaction path. And I have that this is the back
190:06 actually the reaction of the oil and in the subsurface there should be two
190:13 of reactions. The fourth stage is open prison, this reaction to
190:25 And the because the initial that is the there no initial happiness of other
190:40 . That's, that's it. And once you see here, you have
190:55 some numbers threshold and then this reaction then another reaction picks on actually.
191:07 that's there's two stages of reactions. reaction is so crazy because is reaction
191:19 and the thresholds and the whole reaction . So this is the how this
191:27 the, how the, how the reaction to the our understanding of
191:31 , the the this reaction, the S R reaction system. And then
191:37 did a kinetic studies so that if look at the, this one,
191:42 see that we, we look at different levels, the angles and the
191:49 and that is all the different. . And the included the two additional
192:00 sad which is, yeah, which have a, has a very
192:09 , uh very strong, similar to . And uh interestingly, so reaction
192:37 and, and a condition to get and stronger. It's a really,
192:49 , really at this time, they , and then, then actually the
192:57 depends on the concentration of the sulfate in the lab. And then if
193:04 make corrections of the, of that is how I use the
193:10 to hear that on the, say to the after I correct the
193:18 the correct the concentration correspond to different and the back of each of those
193:26 lines, oh oh I have a . This is this is the
193:32 the benefit. And because the, , the, the, the light
193:38 still above here is not really over . So the, and the,
193:45 they still took the two different positives uh with that, and uh
193:54 we run the, run the kinetics also the, the, we build
194:00 kinetic model and predict the onset of T S R reaction. But this
194:07 the, this is the, look at the, look at the
194:11 model of the and the, what can see that uh those are concentration
194:23 the mechanism in the formation, you higher concentration and then your other will
194:31 to the and then you buy blue. But you can see that
194:41 , the reaction based on I and is the, that's the, you
194:57 , that's the before our work. then there's the many people who did
195:04 kind of work back to 19 19 seventies, even 19 nineties,
195:08 different groups, they do do this of work. And what they,
195:14 , the, the very big issues that they cannot really simulate the T
195:19 reactions for current conditions. The reason reason is that the reason is this
195:28 that all the previous experimental work that about, they either they can,
195:37 initially have a very high hydrogen all animal sulfur presence. And once
195:45 have that condition and so production will very quick as a result. You
195:54 , it's the, the activation energy got is all low lower than the
195:59 kg kilo kilocalories per month. And you do use the to that model
196:06 make a prediction in the subsurface, temperature is a T S R reaction
196:11 happen at 80 degrees C never, can be, never can be to
196:17 , the lower the fat. But nature, obviously, it happens much
196:24 coverage and all the models, all models and they cannot really predict that
196:30 S R can happen, that can happens about at 100 and 40 degrees
196:37 . That's the only model that based what I understand similar really occurring at
196:47 and 40 degrees C in the That's the, that's how, that's
196:53 the, how big the, think , this kind of, uh I
196:58 it's, you know, that, our work and in, in
197:03 in the hydrogen sulfide, the prediction T S R reaction as a benchmark
197:09 uh for the, for the, , the, the sulfide risk prediction
197:15 uh you know, eventually we, generate that we generate the software and
197:21 and then you propose that R predicting , what are we doing there?
197:27 need to think about those. You to think about the, let's think
197:33 the P T condition of the and other. And then you need to
197:41 at the video, look at the information, what I can see
197:46 a chemistry. And uh and from you can see the and uh
198:18 and also, and uh another reaction , no reaction path. Actually,
198:28 call the second, the two stage . This is a thing, the
198:32 thing with R reaction. And that but the, the key point for
198:41 prediction that the, the threshold for average reactions, we need to keep
198:51 as stress. And uh what you see that is uh you have and
198:59 cabinet presentation and uh as a result the T SI you can make a
199:07 of your gas or ratios and the and also the hydrogen sulfide,
199:16 the, the, the. So of the, and uh I think
199:23 is the, this is the kind the things which I added in.
199:27 this this class class material to present only one part of our research
199:36 to this class to the, this . When I review the uh the
199:41 and the I found that on the T S R portion, they
199:46 have one slide about T S And it's actually not really, not
199:52 after the new knowledge, what we in this area. So I think
199:58 uh kind of the things I want see. And we, we made
200:01 really good publications and uh and the , many public in that uh and
200:14 I, I make, I make both of the publications and also also
200:20 think it's uh because of this and think it's uh build our reputations in
200:26 United States. And uh and uh easy for, for, for me
200:31 also my group and uh in a . And we, we got,
200:36 , we have a see that he our boss and uh he has uh
200:44 has the, the research center in and to build a research center that
200:52 2000 0. And I joined his center at 2005 and the US
201:04 And uh last name and, and Jerusalem Israel, he, he has
201:17 wonderful, so fast in the individual and uh water and they, they
201:29 the and join the I AM S airport. I think that uh I
201:50 that's all what I want to share you. Any, any questions.
202:03 , that this is just tell you story that tell you a story and
202:07 that, you know, it's a and they really said that work on
202:15 specific geological geochemistry and geological geological que and uh all natural observations,
202:25 how they they can make this, contributions like the thermo chemical surface
202:32 The key key issues that you need really predict, make something predictable.
202:40 that's the in other words, you need to, you need
202:43 you like like a equation. you need to use that equation to
202:48 a prediction of your generation from. the same thing for the same thing
202:55 the T S R. You need , to understand the mechanisms come up
203:00 uh some kinetics to make a prediction the hydrogen sulfide. That any
203:24 Any questions? Not for this OK. So I think this is
203:32 , this afternoon's work the the the and we talk about the the
203:41 two alteration processes to the oil in reservoir. One is the bad
203:48 which is a low temperature involved in water and the bacteria and uh consumes
203:57 light hydrocarbons. Consumers, the large carbons and Ks and uh eventually resulted
204:17 the heavy oil after the for the after the degradation. So
204:26 this one, this one is that you see that one, that
204:31 more time, it's a lower temperature the water and the bacteria.
204:39 and then I also introduce another, , another alteration process which is uh
204:47 temperature in a mode of water but , not a bacteria. So
204:55 that is that the, that, that is, you know, that
204:59 the so, so, so further reduced and generate the hydrogen. So
205:07 uh CO2 also the auto change, oil quality oil quality is uh as
205:14 said to, to show this here uh it's uh this increase of the
205:21 of the T S R reaction is more saturates and uh aromatics is to
205:36 more aromatics. And also there's some geochemical characteristics. You can use that
205:47 identify them, identify the extent of T SI reactions in your order.
205:56 uh I introduced some uh some key mechanisms so that 22 stage reactions
206:05 the of the thermo chemical reduction, think this is a, this is
206:11 of the key, one of the key observations what we met at.
206:16 the, that's the the reaction can this reaction coming slowly but now and
206:31 the threshold and then the catalog reaction and the whole reaction will occur.
206:40 that's back to back to this And then maybe you have a,
206:45 have a, could there be home understanding why the concentration of so bad
206:55 ? It's much higher than here. uh this portion is much lower.
207:01 that could be to see that, that this area also have high hydrogen
207:08 that could be to the really locally water chemistry that as we know that
207:16 chemistry is so the Sufi Maan can and the main content I pair concentration
207:24 is real, real space in the . So maybe maybe the action that
207:33 need to, you definitely need to that one in and then you,
207:37 get a better understanding how, how watch a chemistry change in your information
207:43 uh that maybe produce, produce, a better prediction. This area
207:51 maybe that's somehow your your reaction reach in the first stage of the reaction
207:59 not really accumulate the enough hydrogen sulfide kick off the hydrogen sulfide, take
208:06 lot of action and then go here you kick off to kick off the
208:12 sofa and the catalog of reactions. once we have, once, once
208:18 have technology and could get a better of the this special distribution, this
208:26 about hybrid sour. OK. Stop .
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