Journal of Jilin University(Earth Science Edition) ›› 2017, Vol. 47 ›› Issue (6): 1668-1677.doi: 10.13278/j.cnki.jjuese.201706106

Previous Articles     Next Articles

Resource Assessment of Heavy Oil Potential Based on Spatial Grid Interpolation Method:A Case Study of Cretaceous Heavy-Oil Deposits in Zagros Fold Belt

Liu Zuodong1, Wang Hongjun2, Ma Feng1, Wu Zhenzhen1, Du Shang3, Wang Yonghua1   

  1. 1. Department of Global Resources Assessment and Exploration Plan, Petrochina Research Institute of Exploration & Development, Beijing 100083, China;
    2. Department of Asia-Pacific E & P, Petrochina Research Institute of Exploration & Development, Beijing 100083, China;
    3. College of Earth Science, Jilin University, Changchun 130061, China
  • Received:2017-04-09 Online:2017-11-26 Published:2017-11-26
  • Supported by:
    Supported by Key Projects in the National Science & Technology Pillar Program During the Twelfth Five-Year Plan Period (2011ZX05028-002) and Key Project of CNPC Science & Technology (2012E-0501)

PDF (PC)

355

Abstract: Heavy oil is characterized by its large viscosity, large-scale continuous accumulation, strong reservoir heterogeneity,and difficult for exploration etc. It is impossible to reveal the difference of heavy oil enrichment in 3D space, and to predict the distribution of the "sweet spots" by using the traditional volumetric method. Based on the geographic information technology,the spatial interpolation method is to take play as a basic evaluation unit to demarcate the distribution area of each unit so as to count and analyze the spatial distribution patterns of the four key parameters incl. reservoir thickness, oil saturation, porosity, and the recovery rate; and then based on actual situation to further select suitable interpolation methods (inverse distance weighted interpolation, Kriging interpolation method etc.), to achieve spatial superposition calculation of the grid maps of the key parameters, and finally to calculate the abundance map of heavy oil of each reservoir formation. This method can quantitatively characterize the spatial distribution of heavy oil resources, and confirm the "sweet spots" of heavy oil. We applied this method to evaluate the potential of heavy oil in the Zagros fold belt in Middle East. According to the evaluation results, the total recoverable heavy oil resources of the four plays (Triassic-Jurassic Butmah, Jurassic, Cretaceous and Tertiary) reaches about 14×109 t. Among them, the Cretaceous play is the favorable exploration target in the future with 8.5×109 t of recoverable heavy oil resources. According to an initial prediction, the "sweet spot" is located at the southwest of the basin.

Key words: heavy oil, resource assessment methodologies, play, interpolation, Zagros fold belt, unconventional

CLC Number: 

  • P618.13
[1] 中国石油天然气集团公司.全球油气勘探形势[R]. 北京:中国石油勘探开发研究院,2018:2-15. CNPC.Global Oil and Gas Exploration Outlook[R]. Beijing:RIPED, 2018:2-15.
[2] 刘成林,车长波,杨虎林,等.常规与非常规油气资源评价方法与应用[M]. 北京:地质出版社, 2012:183-188. Liu Chenglin, Che Changbo, Yang Hulin, et al. Conventional and Unconventional Resources Evaluation Methodology and Application[M]. Beijing:Geological Publishing House, 2012:183-188.
[3] 郭秋麟,周长迁,陈宁生,等.非常规油气资源评价方法研究[J]. 岩性油气藏, 2011, 23(4):12-18. Guo Qiulin, Zhou Changqian, Chen Ningsheng, et al.Evaluation Methods for Unconventional Hydrocarbon Resources[J]. Lithologic Reservoirs, 2011, 23(4):12-18.
[4] 童晓光,张光亚,王兆明,等.全球油气资源潜力与分布[J].地学前缘,2014,21(3):1-9. Tong Xiaoguang, Zhang Guangya, Wang Zhaoming, et al. Global Oil and Gas Potential and Distribution[J]. Earth Science Frontiers, 2014, 21(3):1-9.
[5] 贾承造.美国SEC油气储量评估方法[M]. 北京:石油工业出版社,2004:28-29. Jia Chengzao. SEC Estimation Application for Oil & Gas Reserves[M]. Beijing:Petroleum Industry Press, 2004:28-29.
[6] USGS. Heavy Oil and Natural Bitumen Resources in Geological Basins of the World[R]. New York:USGS, 2007:1083-1084.
[7] Birn K, Khanna P. A Discussion Paper on the Oil Sands:Challenges and Opportunities[R]. Toronto:Natural Resources Canada, 2010:1-2.
[8] Blacklock M. World Petroleum Council Guide:Uncon-ventional Oil[R]. London:WPC, 2014:79.
[9] 穆龙新,韩国庆,徐宝军.委内瑞拉奥里诺科重油带地质与油气资源储量[J].石油勘探与开发,2009, 36(6):784-789. Mu Longxin, Han Guoqing, Xu Baojun. Geology and Reserve of the Orinoco Heavy Oil Belt, Venezuela[J]. Petroleum Exploration and Development, 2009, 36(6):784-789.
[10] Meyer R F. Heavy Oil and Natural Bitumen Deposits of Latin America[R]. New York:USGS, 1991:1-33.
[11] Buza J W. An Overview of Heavy Oil Carbonate Reservior in the Middle East[C]//AAPG Convention. New Orleans:[s. n.], 2010:4-29.
[12] 张光亚,王红军,马锋,等.全球重油与油砂资源潜力与勘探方向[C]//穆龙新.重油和油砂开发技术新进展.北京:石油工业出版社, 2012:35-47. Zhang Guangya, Wang Hongjun, Ma Feng, et al. Potential and Exploration Trend of Global Heavy Oil and Oil Sands[C]//Mu Longxin. New Development Technique of Heavy Oil and Oil Sands. Beijing:Petroleum Industry Press, 2012:35-47.
[13] 马锋,张光亚,王红军,等. 全球重油与油砂资源潜力、分布与勘探方向[J].吉林大学学报(地球科学版), 2015, 45(4):1042-1051. Ma Feng, Zhang Guangya, Wang Hongjun, et al. Potential, Distribution and Exploration Trend of Global Heavy Oil and Oil Sand Resource[J]. Journal of Jilin University (Earth Science Edition), 2015, 45(4):1042-1051.
[14] 童晓光,李浩武,肖坤叶,等. 成藏组合快速分析技术在海外低勘探程度盆地的应用[J].石油学报,2009, 30(3):317-323. Tong Xiaoguang, Li Haowu, Xiao Kunye, et al. Application of Play Quick Analysis Technique in Oversea Basins with Low-Degree Exploration[J]. Acta Petrolei Sinica, 2009, 30(3):317-323.
[15] 童晓光.论成藏组合在勘探评价中的意义[J].西南石油大学学报, 2009, 31(6):1-8. Tong Xiaoguang. A Discussion on the Role of Accumulation Association in the Exploration Evaluation[J]. Journal of Southwest Petroleum University, 2009, 31(6):1-8.
[16] White D A. Assessing Oil and Gas Plays in Faces-Cycle Wedges[J]. AAPG Bulletin, 1980, 64(8):1158-1178.
[17] Parsley A J. North Sea Hydrocarbon Plays[M]//Glennie K W. Introduction to the Petroleum Geology of the North Sea. London:Blackwell Scientific Publishing, 1983:205-209.
[18] Podruski J A, Fitzgerald-Moore P. Conventional Oil Resources of Western Canada (Light and Medium)[R]. Calgary:Geology Survey of Canada, 1988:58-72.
[19] Lee P J, Gill D. Comparison of Discovery Process Methods for Estimating Undiscovered Resources[J]. Bulletin of Canada Petroleum Geology, 1990, 47(1):19-30.
[20] 谢寅符,马中振,刘亚明,等.以成藏组合为核心的油气资源评价方法及应用:以巴西坎波斯(Campos)盆地为例[J]. 地质科技情报,2012,31(2):45-49. Xie Yinfu, Ma Zhongzhen, Liu Yaming, et al. Method of Play Cored Oil and Gas Resource Assessment and Application:Taking Campos Basin in Brazil as an Example[J]. Geological Science and Technology Information, 2012, 31(2):45-49.
[21] Zieger M A. Late Permian to Holocene Paleofacies Evolution of the Arabian Plate and Its Hydrocarbon Occurrences[J]. GeoArabia, 2001, 6(3):445-504.
[22] 邹才能.常规-非常规油气"有序聚集"理论认识及实践意义[J]. 石油勘探与开发, 2013, 41(1):14-27. Zou Caineng. Conventional and Unconventional Petroleum "Orderly Accumulation":Concept and Practical Significance[J]. Petroleum Exploration and Development, 2013, 41(1):14-27.
[23] 付小东,张金区,王云鹏,等.基于网格与GIS的油气资源空间分布与定量评价系统及其应用[J].地质科技情报, 2006, 25(5):69-74. Fu Xiaodong, Zhang Jinqu, Wang Yunpeng, et al. Oil and Gas Resources Spatial Distribution and Quantitative Evaluation System Based on the Grids and GIS and Its Application[J]. Geological Science and Technology Information, 2006, 25(5):69-74.
[24] 乔美萍,周荣福,王培玉,等.基于GIS的空间插值法在矿井地质构造预测中的应用研究[J]. 矿业工程, 2010, 8(1):58-60. Qiao Meiping, Zhou Rongfu, Wang Peiyu, et al. Research of Space Data Interpolation Method Applied in Prediction of Geological Structure of Mine's Shaft[J]. Mining Engineering, 2010, 8(1):58-60.
[25] Ricardo A O, Troy A C, James L C. Methodology for the Assessment of Unconventional (Continuous) Resources with an Application to the Greater Natural Buttes Gas Field, Utah[J]. Natural Resources Research, 2010, 19(4):237-251.
[26] Ronald R C, Troy A C. Improved USGS Methodo-logy for Assessing Continuous Petroleum Resources[R]. Virginia:USGS, 2010:2-5.
[27] Hood K C. Assessing Continuous Resources:Buil-ding the Bridge Between Static and Dynamic Analyses[J]. Bulletion of Canadian Petroleum Geology, 2012, 60(3):112-133.
[28] 邹才能,陶士振,袁选俊,等."连续型"油气藏及其在全球的重要性:成藏、分布与评价[J]. 石油勘探与开发, 2009, 36(6):669-682. Zou Caineng, Tao Shizhen, Yuan Xuanjun, et al. Global Importance of "Continuous" Petroleum Reservoirs:Accumulation, Distribution and Evaluation[J]. Petroleum Exploration and Development, 2009, 36(6):669-682.
[29] 谌卓恒, Kirk G Osadetz.西加拿大沉积盆地Cardium组致密油资源评价[J]. 石油勘探与开发, 2013,40(3):14-27. Chen Zhuoheng, Kirk G O. An Assessment of Tight Oil Resource Potential in the Upper Cretaceous Cardium Formation, Western Canada Sedimentary Basin[J]. Petroleum Exploration and Development, 2013, 40(3):14-27.
[30] 胡文瑞,鲍敬伟,胡滨.全球油气勘探进展与趋势[J]. 石油勘探与开发, 2013, 40(4):409-413. Hu Wenrui, Bao Jingwei, Hu Bin. Trend and Progress in Global Oil and Gas Exploration[J]. Petroleum Exploration and Development, 2013, 40(4):409-413.
[31] Steffen J K. Using Bayesian Belief Networks to Eva-luate Continuous Gas[C]//AAPG Annual Convention and Exhibition. New Oreleans:USGS, 2010:1441-1455.
[32] 刘世平.国内外页岩气资源评价方法综述[J].江汉石油科技, 2013, 23(2):30-35. Liu Shiping. Review of Shale Gas Resource Assessment[J]. Jianghan Petroleum and Technology, 2013, 23(2):30-35.
[33] 郭秋麟,陈宁生,吴晓智,等.致密油资源评价方法研究[J]. 中国石油勘探, 2013, 18(2):67-76. Guo Qiulin, Chen Ningsheng, Wu Xiaozhi, et al. Method for Assessment of Tight Oil Resources[J]. China Petroleum Exploration, 2013, 18(2):67-76.
[1] Zhang Bo, Cao Hongkai, Sun Jianmeng, Zhang Pengyun, Yan Weichao. Numerical Simulation of Response Characteristics of Array Induction Logging in Heavy Oil Thermal Recovery Formation [J]. Journal of Jilin University(Earth Science Edition), 2018, 48(4): 1277-1286.
[2] Liu Chengming, Wang Deli, Hu Bin, Wang Tong. Seismic Data Interpolation Based on Sparse Constraint in Shearlet Domain [J]. Journal of Jilin University(Earth Science Edition), 2016, 46(6): 1855-1864.
[3] Du Xiaodi, Li Feng, Qiu Haijun, Li Zhao, Xu Yinbo. Characteristics of Heavy Oil Hosted in Permian Lucaogou Formation Discovered in Bogeda Mountain of Zhunggar Basin and Its Importance for Further Exploration [J]. Journal of Jilin University(Earth Science Edition), 2016, 46(2): 368-378.
[4] Ma Feng, Zhang Guangya, Wang Hongjun, Liu Zuodong, Jiang Lingzhi, Xie Yinfu, Li Fei, Ju Liang. Potential,Distribution and Exploration Trend of Global Heavy Oil and Oil Sand Resources [J]. Journal of Jilin University(Earth Science Edition), 2015, 45(4): 1042-1051.
[5] Yu Chu, Zhang Yilong, Meng Ruifang, Cao Wengeng. Optimization Design of the Shallow Groundwater Dynamic Monitoring Network in Hetao Plain [J]. Journal of Jilin University(Earth Science Edition), 2015, 45(4): 1173-1179.
[6] Wang Zhaoguo, Cheng Shunyou, Liu Cai. Error Analysis of Several Two-Dimensional Interpolation Methods in the Geophysical Exploration [J]. Journal of Jilin University(Earth Science Edition), 2013, 43(6): 1997-2004.
[7] Ye Pei,Li Qingchun. Improvements of Linear Traveltime Interpolation Ray Tracing for the Accuracy and Efficiency [J]. Journal of Jilin University(Earth Science Edition), 2013, 43(1): 291-298.
[8] NAI Lei, PENG Wen, YUAN Ming-zhe, ZHOU Neng-juan. Ground Collapse Prediction of Mined-Out Area Based on EMD and WLS-SVM [J]. J4, 2011, 41(3): 799-804.
[9] YANG Ting, JIN Zhen-kui, ZHANG Lei, ZHAO Kun, BAI Xue-feng, WANG Jing-xian. Sequence Stratigraphic Characteristic of the Nantun Formation in the Western Area of Beier Depression|Hailaer Basin [J]. J4, 2011, 41(3): 629-638.
[10] LI Xiang-ling, ZHANG Ying-hui, YANG Shan-mou, YUAN Feng, ZHOU Tao-fa. Comparison of Typical Interpolation Methods for Pollution Evaluation of Soil Heavy Metals in Yicheng District, Hefei [J]. J4, 2011, 41(1): 222-227.
[11] ZHANG Ji-feng, TANG Jing-tian, YU Yan, LIU Chang-sheng. Finite Element Numerical Simulation on Line Controlled Source Based on Quadratic Interpolation [J]. J4, 2009, 39(5): 929-935.
[12] ZHANG Dong-liang, SUN Jian-guo. Interpolation Mapping in F-K Demigration [J]. J4, 2009, 39(4): 749-754.
[13] GU Chun-hua,TAO Chun-hui,ZHANG Jin-hui,ZHOU Jian-ping,ZHOU Li-sheng,LI Hong-xing,LIU Cai. Design and Realization of the Real Time Gathering and Display System EchoViewer of Super Broad-Band Sea-Bottom Profile Instrument [J]. J4, 2008, 38(3): 495-0501.
[14] HAN Fu-xing,SUN Jian-guo,YANG Hao. Ray-Tracing of Wavefront Construction by Bicubic Convolution Interpolation [J]. J4, 2008, 38(2): 336-0340.
[15] SUN Jian-guo. F-K Demigration in Media with Constant Velocity:Basic Concepts, Formulas, and Applications in Inhomogeneous Media [J]. J4, 2008, 38(1): 135-0143.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Copyright © Journal of Jilin University(Earth Science Edition), All Rights Reserved.
Tel: +86-431-88502374;13756165364 E-mail: xuebao1956@jlu.edu.cn
Powered by Beijing Magtech Co. Ltd