Difference between revisions of "Total organic carbon (TOC)"
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+ | {{publication | ||
+ | | image = exploring-for-oil-and-gas-traps.png | ||
+ | | width = 120px | ||
+ | | series = Treatise in Petroleum Geology | ||
+ | | title = Exploring for Oil and Gas Traps | ||
+ | | part = Critical elements of the petroleum system | ||
+ | | chapter = Evaluating source rocks | ||
+ | | frompg = 6-8 | ||
+ | | topg = 6-9 | ||
+ | | author = Carol A. Law | ||
+ | | link = http://archives.datapages.com/data/specpubs/beaumont/ch06/ch06.htm | ||
+ | | pdf = | ||
+ | | store = http://store.aapg.org/detail.aspx?id=545 | ||
+ | | isbn = 0-89181-602-X | ||
+ | }} | ||
+ | |||
The amount of organic carbon present in a rock is a determining factor in a rock's ability to generate hydrocarbons. | The amount of organic carbon present in a rock is a determining factor in a rock's ability to generate hydrocarbons. | ||
==Effect of depositional environment== | ==Effect of depositional environment== | ||
− | [[Depositional environment]] controls the amount of organic carbon contained in a rock. [[Source rock]]s are generally associated with areas where high organic productivity is combined with (1) deposition in poorly oxygenated environments ([[anoxic]] to [[dysaerobic]]), (2) upwelling, and (3) rapid sedimentation | + | [[Depositional environments|Depositional environment]] controls the amount of organic carbon contained in a rock. [[Source rock]]s are generally associated with areas where high organic productivity is combined with (1) deposition in poorly oxygenated environments ([[anoxic]] to [[dysaerobic]]), (2) upwelling, and (3) rapid sedimentation,<ref name=ch06r3>Chinn, E., W., 1991, The role of organic geochemistry in petroleum exploration: Basin Research Institute Bulletin, Louisiana State University, Baton Rouge, LA, p. 15–23. ''Short paper that summarizes petroleum geochemistry and its analytical techniques.''</ref> because these processes preserve organic matter. |
==Average TOCs== | ==Average TOCs== | ||
− | The table below | + | The table below<ref name=ch06r3 /> shows average TOC values for different sedimentary rock types. |
{| class = "wikitable" | {| class = "wikitable" | ||
|- | |- | ||
− | ! Rock type | + | ! Rock type || TOC value, % |
− | |||
|- | |- | ||
− | | Average for all shales | + | | Average for all shales || 0.8 |
− | | 0.8 | ||
|- | |- | ||
− | | Average for shale source rocks | + | | Average for shale source rocks || 2.2 |
− | | 2.2 | ||
|- | |- | ||
− | | Average for calcareous shale source rocks | + | | Average for calcareous shale source rocks || 1.8 |
− | | 1.8 | ||
|- | |- | ||
− | | Average for carbonate source rocks | + | | Average for carbonate source rocks || 0.7 |
− | | 0.7 | ||
|- | |- | ||
− | | Average for all source rocks | + | | Average for all source rocks || 1.8 |
− | | 1.8 | ||
|} | |} | ||
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{| class = "wikitable" | {| class = "wikitable" | ||
|- | |- | ||
− | ! Generation potential | + | ! [[Petroleum generation|Generation]] potential || Wt % TOC, shales || Wt % TOC, carbonates |
− | |||
− | |||
|- | |- | ||
− | | Poor | + | | Poor || 0.0-0.5 || 0.0-0.2 |
− | | 0.0-0.5 | ||
− | | 0.0-0.2 | ||
|- | |- | ||
− | | Fair | + | | Fair || 0.5-1.0 || 0.2-0.5 |
− | | 0.5-1.0 | ||
− | | 0.2-0.5 | ||
|- | |- | ||
− | | Good | + | | Good || 1.0-2.0 || 0.5-1.0 |
− | | 1.0-2.0 | ||
− | | 0.5-1.0 | ||
|- | |- | ||
− | | Very Good | + | | Very Good || 2.0-5.0 || 1.0-2.0 |
− | | 2.0-5.0 | ||
− | | 1.0-2.0 | ||
|- | |- | ||
− | | Excellent | + | | Excellent || > 5.0 || > 2.0 |
− | | > 5.0 | ||
− | | > 2.0 | ||
|} | |} | ||
==Caveat== | ==Caveat== | ||
− | If a sample being analyzed for richness is not in an immature state, then the present-day maturation level of the interval needs to be determined to establish an initial (prematuration) organic carbon value for the interval. The measured TOC value is not indicative of the sample's source potential. | + | If a sample being analyzed for richness is not in an immature state, then the present-day [[maturation]] level of the interval needs to be determined to establish an initial (prematuration) organic carbon value for the interval. The measured TOC value is not indicative of the sample's source potential. |
==See also== | ==See also== | ||
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==References== | ==References== | ||
{{reflist}} | {{reflist}} | ||
+ | |||
+ | [[Category:Treatise Handbook 3]] |
Latest revision as of 16:33, 13 April 2022
The amount of organic carbon present in a rock is a determining factor in a rock's ability to generate hydrocarbons.
Effect of depositional environment
Depositional environment controls the amount of organic carbon contained in a rock. Source rocks are generally associated with areas where high organic productivity is combined with (1) deposition in poorly oxygenated environments (anoxic to dysaerobic), (2) upwelling, and (3) rapid sedimentation,[1] because these processes preserve organic matter.
Average TOCs
The table below[1] shows average TOC values for different sedimentary rock types.
Rock type | TOC value, % |
---|---|
Average for all shales | 0.8 |
Average for shale source rocks | 2.2 |
Average for calcareous shale source rocks | 1.8 |
Average for carbonate source rocks | 0.7 |
Average for all source rocks | 1.8 |
Caveat
Use the table above only as a guide. TOC average values in the real world are meaningless unless we know how the average was calculated. For example, suppose a potential source rock unit is length::100 m thick. What was the average calculated from:
- 1 sample, length::1 cm thick
- 10 samples, length::10 cm thick, taken every 10 m
- 100 samples, length::1 cm thick, taken every 1 m
Was the sampling high-graded, taking only the richest intervals? Without answers to these questions, TOC averages have no value.
Guidelines for assessing richness
The table below gives guidelines for assessing the richness of source rock intervals.
Generation potential | Wt % TOC, shales | Wt % TOC, carbonates |
---|---|---|
Poor | 0.0-0.5 | 0.0-0.2 |
Fair | 0.5-1.0 | 0.2-0.5 |
Good | 1.0-2.0 | 0.5-1.0 |
Very Good | 2.0-5.0 | 1.0-2.0 |
Excellent | > 5.0 | > 2.0 |
Caveat
If a sample being analyzed for richness is not in an immature state, then the present-day maturation level of the interval needs to be determined to establish an initial (prematuration) organic carbon value for the interval. The measured TOC value is not indicative of the sample's source potential.