Laboratory studies of differences between oil-derived and kerogen maturation gases

Guo Liguo; Xiao Xianming; Tian Hui

doi:10.11781/sysydz201104428

Volume 33 Issue 4

Turn off MathJax

Article Contents

Article Navigation > PETROLEUM GEOLOGY & EXPERIMENT > 2011 > 33(4): 428-436

Guo Liguo, Xiao Xianming, Tian Hui. Laboratory studies of differences between oil-derived and kerogen maturation gases[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2011, 33(4): 428-436. doi: 10.11781/sysydz201104428

Citation:

Guo Liguo, Xiao Xianming, Tian Hui. Laboratory studies of differences between oil-derived and kerogen maturation gases[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2011, 33(4): 428-436. doi: 10.11781/sysydz201104428

Citation:

PDF( 1084 KB)

Laboratory studies of differences between oil-derived and kerogen maturation gases

doi: 10.11781/sysydz201104428

1.
Department of Geosciences, Geosciences and Engineering Institute, Nanjing University, Nanjing, Jiangsu 210093, China
2. Wuxi Research Institute of Petroleum Geology, SINOPEC, Wuxi, Jiangsu 214151, China
3. State Key Laboratory of Organic Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou, Guangdong 510640, China

Received Date: 2010-12-09
Rev Recd Date: 2011-06-13
Publish Date: 2011-08-28

Abstract

Abstract

An immature type-I mudstone collected from the third section of the Tertiary Shahejie Formation (Es₃³) in the Dongying Sag of the Bohai Bay Basin was studied with laboratory experiments.Products were extracted,fractionated into chemical groups,and re-mixed to obtain synthetic oil (s-oil) with a group composition similar to reservoir oil and a pseudo-kerogen (p-kerogen) composed of 83% kerogen and 17% residual soluble organic matter.The two samples were pyrolyzed in sealed gold tubes under constant pressure and non-isothermal heating conditions and the generated gases were analyzed.The two gases are quite different in their chemical and isotopic composition.Compared with the gas derived from p-kerogen,the s-oil-derived gas is rich in C₂-C₅ hydrocarbons during the early cracking stages and C₁-C₃ hydrocarbons are depleted in δ¹³C throughout the cracking stages.The carbon isotopic ratio differences between the two gases can reach 10‰ (δ¹³ C₁),14‰ (δ¹³ C₂),and 9‰ (δ¹³ C₃).The δ¹³C₂-δ¹³C₃ value of the s-oil gas is much more sensitive to thermal stress than that of the p-kerogen gas and the plots of (δ¹³C₂-δ¹³C₃) versus δ¹³ C₁ and (δ¹³C₂-δ¹³C₃) versus ln(C₂/C₃) are effective in identifying the two gas types.These results provide a guide to differentiate gases derived from oil cracking from those derived from kerogen maturation.
- oil-derived gas,
- kerogen-derived gas,
- carbon isotopic fractionation,
- pyrolysis experiment

FullText(HTML)

References(41)

References

[1]	Lorant F,Prinzhofer A,Behar F.Carbon isotopic and molecular constraints on the formation and the expulsion of thermogenic hydrocarbon gases[J].Chemical Geology,1998,147:249-264.
[2]	Behar F,Kressman S,Rudkiewicz J L,et al.Experimental simulation in a confined system and kinetic modeling of kerogen and oil cracking[J].Advances in Organic Geochemistry,1992,19:173-189.
[3]	Berner U,Faber E,Scheeder G,et al.Primary cracking of algal and land plant kerogens:Kinetic modeling of kerogen and oil cracking[J].Chemical Geology,1995,126:233-245.
[4]	Horsfield B,Schenk H J,Mills N,et al.An investigation of the in-reservoir conversion of oil to gas:Compositional and kinetic findings from closed-system programmed-temperature pyrolysis[J].Organic Geochemistry,1992,19(1-3):191-204.
[5]	赵孟军,卢双舫.原油二次裂解气:天然气重要的生成途径[J].地质论评,2000,46(6):645-650.
[6]	Hill R H,Tang Yongchun,Kaplan I R.Insights into oil cracking based on laboratory experiments[J].Organic Geochemistry,2003,34(12):1651-1672.
[7]	赵孟军,曾凡刚,秦胜飞,等.塔里木发现和证实两种裂解气[J].天然气工业,2001,21(1):35-39.
[8]	郑伦举,王强,秦建中,等.海相古油藏及可溶有机质再生烃气能力研究[J].石油实验地质,2008,30(4):390-395.
[9]	Vandenbroucke M,Behar F,Rudkiewicz J L.Kinetic modeling or petroleum formation and cracking:Implications from the high pressure/high temperature Elgin Field (UK,North Sea)[J].Organic Geochemistry,1999,30(9):1105-1125.
[10]	赵孟军,张水昌,刘丰忠.油藏演化的两个极端过程[J].石油勘探与开发,2003,30(5):21-23.
[11]	Waples D W.The kinetics of in-reservoir oil destruction and gas formation:Constraints from experimental and empirical data,and from thermodynamics[J].Organic Geochemistry,2000,31(6):553-575.
[12]	Wang Yunpeng,Zhang Shuichang,Wang Feiyu,et al.Thermal cracking history by laboratory kinetic simulation of Paleozoic oil in eastern Tarim Basin,NW China,implications for the occurrence of residual oil reservoirs[J].Organic Geochemistry,2006,37(12):1803-1815.
[13]	Tian Hui,Xiao Xianming,Wilkins R W T,et al.Gas sources of the YN2 gas pool in the Tarim Basin:Evidence from gas generation and methane carbon isotope fractionation kinetics of source rocks and crude oils[J].Marine and Petroleum Geology,2007,24:29-41.
[14]	Tian Hui,Xiao Xianming,Wilkins R W T,et al.New insights into the volume and pressure changes during the thermal cracking of oil to gas in reservoirs:Implications for the in-situ accumulation of gas cracked from oils[J].American Association of Petroleum Geologists Bulletin,2008,92:181-200.
[15]	胡国艺,肖中尧,罗霞,等.两种裂解气中轻烃组成差异性及其应用[J].天然气工业,2005,25(9):23-25.
[16]	Prinzhofer A A,Huc A Y.Genetic and post-genetic molecular and isotopic fractionations in natural gases[J].Chemical Geology,1995,126:281-290.
[17]	Tian Hui,Xiao Xianming,Ronald W T,et al.Genetic origins of marine gases in the Tazhong area of the Tarim basin,NW China:Implications from the pyrolysis of marine kerogens and crude oil[J].International Journal of Coal Geology,2010,82:17-26.
[18]	田辉,肖贤明,李贤庆,等.海相干酪根与原油裂解气甲烷生成及碳同位素分馏的差异研究[J].地球化学,2007,36(1):71-77.
[19]	王招明,王清华,王媛.塔里木盆地和田河气田成藏条件及控制因素[J].海相油气地质,2000,5(2):124-132.
[20]	王招明,王清华,赵孟军,等.塔里木盆地和田河气田天然气地球化学特征及成藏过程[J].中国科学(D辑:地球科学),2007,37 (SⅡ):69-72.
[21]	赵孟军.塔里木盆地和田河天然气的特殊来源及非烃组分的成因[J].地质论评,2002,48(5):480-486.
[22]	Cai Chunfang,Worden R H,Wang Qinghua,et al.Chemical and isotopic evidence for secondary alteration of natural gases in the Hetianhe Field,Bachu uplift of the Tarim basin[J].Organic Geochemistry,2003,33(12):1415-1427.
[23]	秦胜飞,贾承造,李梅.和田河气田天然气东西部差异及原因[J].石油勘探与开发,2002,29(5):16-18.
[24]	秦胜飞,李梅,戴金星,等.塔里木盆地和田河气田天然气裂解类型[J].石油与天然气地质,2005,26(4):455-460.
[25]	赵文智,汪泽成,王一刚.四川盆地东北部飞仙关组高效气藏形成机理[J].地质论评,2006,52(5):708-718.
[26]	马永生.四川盆地普光超大型气田的形成机制[J].石油学报,2007,28(2):9-14.
[27]	张水昌,朱光有,陈建平,等.四川盆地川东北部飞仙关组高含硫化氢大型气田群气源探讨[J].科学通报,2007,52(SⅠ):86-94.
[28]	谢增业,李剑,单秀琴,等.川东北罗家寨飞仙关组气藏成藏过程及聚集效率[J].石油与天然气地质,2005,26(6):765-769.
[29]	文志刚,唐友军,宋换新,等.渤海海域中部地区天然气组成与成因类型[J].石油勘探与开发,2005,32(4):111-114.
[30]	鹿洪友,肖贤明,刘中云,等.东营凹陷北部原油有机地化特征与成因类型[J].沉积学报,2003,21(4):707-712.
[31]	Tang Yongchun,Huang Yongsong,Ellis G S,et al.Kinetic model for thermally induced hydrogen and carbon isotope fractionation of individual n-alkanes in crude oil[J].Geochimica et Cosmochimica Acta,2005,69:4505-4520.
[32]	承秋泉,范明,黄继文,等.塔里木盆地库车坳陷烃源岩热模拟实验中甲烷碳同位素的二阶分馏[J].石油实验地质,2009,31(1):101-104.
[33]	Tsuzuki N,Takeda N,Suzuki M,et al.The kinetic modeling of oil cracking by hydrothermal pyrolysis experiments[J].International Journal of Coal Geology,1999,30:227-250.
[34]	Darouich T A,Behar F,Largeau C.Thermal cracking of the light aromatic fraction of Safaniya crude oil-Experimental study and compositional modeling of molecular classes[J].Organic Geochemistry,2006,37(9):1130-1154.
[35]	Darouich T A,Behar F,Largeau C.Pressure effect on the thermal cracking of the light aromatic fraction of Safaniya crude oil:Implications for deep prospects[J].Organic Geochemistry,2006,37(9):1155-1169.
[36]	尹长河,王廷栋,王顺玉,等.威远、资阳震旦系干酪根与油裂解气的鉴别[J].沉积学报,2001,19(1):156-160.
[37]	Seewald J S.Aqueous geochemistry of low molecular weight hydrocarbons at elevated temperatures and pressures:Constraints from mineral buffered laboratory experiments[J].Geochimica et Cosmochimica Acta,2001,65(10):1641-1664.
[38]	Pan Changchun,Yu Linping,Liu Jinzhong,et al.Chemical and carbon isotopic fractionations of gaseous hydrocarbons during abiogenic oxidation[J].Earth and Planetary Science Letters,2006,246(1-2):70-89.
[39]	Rooney M A,Claypool G E,Chung H M.Modeling therogenic gas generation using carbon isotope ratios of natural gas hydrocarbons[J].Chemical Geology,1995,126:129-232.
[40]	Tang Y,Perry J K,Jenden P D,et al.Mathematical modeling of stable carbon isotope ratios in natural gases[J].Geochimica et Cosmochimica Acta,2000,64:2673-2687.
[41]	Xiao X M,Zeng Q H,Tian H,et al.Origin and accumulation model of the AK1 natural gas pool from the Tarim Basin,China[J].Organic Geochemistry,2005,36(9):1285-1298.

Relative Articles

Supplements(0)

Cited By

Proportional views

Proportional views

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Citation

XML

PDF-CN

Article Metrics

Article views (2876) PDF downloads(1009)

Laboratory studies of differences between oil-derived and kerogen maturation gases

doi: 10.11781/sysydz201104428

Abstract

References

Proportional views

Catalog

通讯作者: 陈斌, bchen63@163.com

Article Metrics

Proportional views

Related

Laboratory studies of differences between oil-derived and kerogen maturation gases

doi: 10.11781/sysydz201104428

Abstract

References

Proportional views

Catalog

通讯作者: 陈斌, bchen63@163.com

Article Metrics

Proportional views

Related

Export File

Citation

Format

Content