THE DEVELOPMENT AND PROSPECT IN THE SIMULATION OF PETROLEUM POOL-FORMING DYNAMICS
-
摘要: 油气成藏是包括油气生成、运移、聚集以及保存和破坏各个环节在内的复杂过程,受多种地质因素控制,与生烃中心、古今构造、生储盖组合、沉积相带、储层岩性等要素的演化均有关系。成藏动力学系统是含油气系统理论的新发展,是一门刚刚起步的新学科。油气成藏动力学研究有强大的计算机工作平台支持,模型研究与模拟研究结果的迭代反馈降低了地质解释中的多解性,是新一代的石油地质勘探研究的重要技术支撑系统。该文介绍了油气成藏动力学的产生与技术背景、原理模拟系统。最后对成藏动力学的发展提出展望。Abstract: Petroleum pool-forming is complicated processes that includes generating,transportation,accumulation,storage and breaking of petroleum.It is under the control of many geological factors,thus that has relation with center of hydrocarbon-generating,ancient-modern structure,petroleum bearing assemblage,belt of sedimentary facies,property of reservoir rock and its variation.The system of petroleum pool-forming dynamics is the new development of theory of petroleum system and new underway subject.The study of petroleum pool-forming dynamics is based on the support of computer workstation,alternative feedback in study of model and result of simulation reduces fuzzy property of geological interpretation.Thus it is the new supporting system of main technology in geological survey of petroleum.This paper has introduced the development,technological background,principle and simulation system of petroleum pool-forming dynamics.Lastly the prospect for the progress of petroleum accumulation dynamics is put forward.
-
[1] 刘新月,赵德力,郑斌等.油气成藏研究历史、现状及发展趋势[J].河南石油,2001,15(3):10~14. [2] Bethke C M.American model of compaction driven ground water flow and heat transfer and its application to the paleohychology of intracratonic sedimentary basins[J].Journal of Geophysical Research,1985,90:6 817~6 828. [3] Garven G.A hydrogeologic model for the formationl of the giant oil sands deposits of the Western Canada sedimentary basin[J].American Journal of Science,1989,289:105~166. [4] Magoon L B,Dow W G.Petroleum System-from source to trap[M].Tulsa:AAPG,1994.655. [5] Perrodon A.Petroleum systems models and applications[J].Journal of Petroleum Geology,1992,15:319~326. [6] Demaison G,Huizinga B J.Genetic classification and petroleum systems[J].AAPG Bulletin,1991,75:1 626~1 643. [7] Hubbert M K.Entrapment of petroleum under hydrodynamic condition[J].AAPG Bulletin,1953,37:1 954~2 026. [8] 田世澄.论成藏动力学系统的划分和类型[M].北京:石油工业出版社,1997. [9] 田世澄,毕研鹏.论成藏动力学系统[M].北京:地震出版社,2000.3~9. [10] 康永尚,郭黔杰.论油气成藏流体动力系统[J].地球科学—中国地质大学学报,1998,23(3):281~284. [11] 康永尚,郭黔杰.盆地流体动力系统研究—指导油气勘探的一条有效途径[A].见:中国科协第21次"青年科学家论坛"报告文集[C].北京:石油工业出版社,1997.230~235. [12] 褚庆忠,张树林.含油气盆地成藏动力学研究综述[J].世界地质,2002,21(2):24~29. [13] 傅承德.科学技术对石油工业的作用及发展对策[M].北京:石油工业出版社,1999:73~75. [14] 赵文智,何登发.中国复合含油气系统的概念及其意义[J].勘探家,2000,5(3):1~11. [15] Waples D W.The Modeling of sedimentary basin and petroleum system[A].In:Magoon L B,Dow W G,eds.The petroleum system-from source to trap[M].Tulsa:AAPG,1994.307~322. [16] Yukler M A,Cornford C,Welte D H.One-dimensional model to simulate geologic,hydrodynamic and thermodynamic development of a sedimentary basin[J].Geol Rundschau,1978,67:960~979. [17] Ungerer P,Burrus J,Doligez B.Basin evaluation by integrated two-dimensional modeling of heat transfer,fluid flow,hydrocarbon generation,and migration[J].AAPG Bulletin,1990,74:309~335. [18] England W A,Mackenzie A S,Mann D M,et al.The move ment and entropment of petroleum fluids in the subsurface[J].Journal of the Geological Society,1987,144:327~347. [19] Nakyama K D,Siclen C V.Simulation model for petroleum exploration[J].AAPG Bulletin,1981,65:1 230~1 255. [20] 吴冲龙,张洪年,周江羽.盆地模拟的系统观和方法论[J].地球科学—中国地质大学学报,1993,18(6):741~747. [21] 吴冲龙,毛小平,王燮培等.三维油气成藏动力学建模与软件开发[J].石油实验地质,2001,23(3):301~311. [22] 吴冲龙,王燮培,毛小平等.油气系统动力学的概念模型与方法原理[J].石油实验地质,1998,20(4):319~327. [23] 吴景富,何大伟,吴冲龙等.含油气盆地成藏动力学系统模拟评价方法[J].中国海上油气(地质),1999,13(4):240~247
点击查看大图
计量
- 文章访问数: 764
- HTML全文浏览量: 43
- PDF下载量: 412
- 被引次数: 0