油气地热研究

doi:10.11867/j.issn.1001-8166.1992.03.0015

地球科学进展 ›› 1992, Vol. 7 ›› Issue (3): 15 -. doi: 10.11867/j.issn.1001-8166.1992.03.0015

油气地热研究

汪辑安

中国科学院地质研究所北京 100029

收稿日期:1991-07-13 出版日期:1992-05-01

GEOTHERMAL STUDIES ON OIL—GAS RESOURCES

Wang Ji-an

Institute of Geology，Academia Sinica，Beijing 100029

Received:1991-07-13 Online:1992-05-01 Published:1992-05-01

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地热条件是油气形成、演化最基本的控制条件之一，这也是地热研究能成为油气资源评价与预测l行之有效的一种方法的基本依据。自地热研究方法被引入油气研究领域以来，地热工作者在油气‘区通过地遥:.舌地温、大地热流、地热演化史等方面的系统观测并结合其他油气地质条件的研究，在油气形成理论和油气资源评价与预浏方面，己充分显示出其重大意义，这也是油气研究的重大进展。可以断言，油气地热研究是一项极有发展远景的新技术方法。

关键词: 地热条件, 油气成因, 油气资源, 评价

Geothermal condition is one of the main controlling factor for hydrocarbon occurence and their evolution. This is the essential basis that geothermal studies can be used as a effective method to evaluate and forecast the oil-gas resources.
Since geothermaltechnique was introduced into oil一gas research domain，systematic studise of geotemperature，palaeo-geotemperature，terrestrial heat flow and thermal evolution history of oil-gas district and combined with other geological conditions of oil-gas genesis have manifested their significanoe in oil-gas resources assessment and prediction. It is great progression of oil-gas studies as well.We may well say，geothermal method have broad prospects in oil-gas resources studies.

Key words: geothermal condition, oil-gas occurence and evolution, assessment and prediction of oil-gas resources

[1]朱夏生编.中国中新生代盆地构造和演化.科学出版社，1983; 230页

[2]陈墨香主编华北地热.科学出版社,1988;218

[3]Bostick, N H, Time as a factor in thermal metamorphism of phytoclasts (coaly particles). Cong lnternat Strat Geol Carbonif.7th krefeld (1971)，1973, Compte Rendu (2):183-193

[4]Buntebarth G and Stegena L (eds). Paleogeothermics.Springer-Verlag, 1986; 234.

[5]Connan J. Time--temperature relation in the oil genesis. AAPG Bull，1979;(58):2516-2527.

[6]Hood A, Gutjahr(’C M and Heacock R L. Organic metamorphism and the generation of petroleum. AAPG, 1975;(59):986-99ti.

[7]Karweil J. The determination of paleotemperature from the optical rebloctance of coaly particles in sediments. 1n, petrographic organique et potential petrolier. Paris, 1975; 195-203

[8]Naeser N D and Mcculloh T H (eds). Thermal history of sedimentary basins. Methods and Case Histories. Springer-Verlag.1989, 319.

[9]Phillipi G T. On the depth，time and mechanism of petroleum generation. Gecxhem et Cosmochem Acts, 1965; (29):1021-1044.

[10]Pusey W C. How to evaluate potential gas and oil source rocks·World Oit; 1973; 176 (5):

[11]Sajgo C. Hydrocarbon generation in a super-thick Neogene sequence in South--East Hungary. A study of the extractalle or-
ganic matter. Advances in Organic Geochemistry. 1979; 103-133

[12]Teichmuller M. Application }f coal一petrographic method in petroleum and nature gas prospecting. Erdol U Kohle. 1971;(21):69-76

[13]Tissot B P and Walte」 D H. Petroleum formation and +:curence. New York; Springer--Verlag. 1978; 538

[14]Turcotte D L. Ahem J L. On the thermal and subsidence history of sedimentary basins. F G R. 1977; (82):3762-3766

[15]Waples D W. Time and temperature in petroleum formation. Application of Lopatin's method in petroleum exploration.AAPG.1980:(69)::916-926.

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