Characterizing Fracture Characteristics of Heterogeneous Oil and Gas Reservoir by Using Microscopic Infrared Spectroscopy Technique ——Taking Carbonate Reservoir of the Wumishan Formation of Jixian System in Renqiu Burried Hill as an Example
ZHOU Han-guo1,2, GUO Jian-chun1, LI Jing3*, LIU Si-meng4, PENG Cheng-le3, HOU Jiang-peng3
1. State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation,Southwest Petroleum University, Chengdu 610500, China 2. Manage Center of Oil and Gas Exploration of SINOPEC Shengli Oilfield Company,Dongying 257000, China 3. College of Pipeline and Civil Engineering in China University of Petroleum, Qingdao 266580, China 4. China Petrolum Pipeline Bureau,Langfang 065000, China
Abstract:Oil and gas reservoir fracture is not only the important reservoir space, but also the main passage of the oil and gas migration. Therefore, the characterization of fracture is of great importance. However, reservoir rocks have strong heterogeneity, how to characterize heterogeneous reservoir fracture accurately is an urgent problem to be solved. Microscopic infrared spectroscopy imaging technique can be used to analyze spectral curve of the mineral molecules, different peak characteristics were got, and rock medium composition, the size of the rock fracture, and fracture filler properties and other characteristics were obtained accurately. In this work, carbonate heterogeneous reservoir of Renqiu buried hill was taken as an example, based on the microscopic infrared spectroscopy imaging technique, by the analysis of core sample infrared imaging spectrogram and spectral curves of different characteristic regions, the physicochemical characteristics of the target sample and spatial distribution of the rock medium were obtained, the regions where rock fracture maybe occurred were predicted and the effectiveness of the fractures was analyzed. The results show that the main medium of rock sample is dolomite. The rock fractures contain hydrocarbon organic and salt-water inclusion,which mainly exist in dolomite medium. The proportion of salt-water inclusion is 51.7%, and that of alkane organic matter is 26.0% in the fracture filler. The fracutres extend from the upper left region of core sample to the lower right region, which shows that the extended region of the core sample may be the passage of fluid migration. The salt-water inclusions can impede the migration of oil and gas, resulting in the decrease of fractures permeability. The experimental results show that the width of fractures is 1~1.5 mm, which belongs to large fracture, oil and gas can pass the fractures smoothly, therefore, the effectiveness of the fracture is good. The results showed that it is feasible to characterize the fracture of heterogeneous reservoir by means of microscopic infrared spectroscopy imaging technique, and it provides a new method for the accurate characterization of the fracture of heterogeneous reservoir.
周汉国1,2,郭建春1,李 静3*,刘思萌4,彭成乐3,侯江朋3 . 利用显微红外光谱技术表征非均质油气储层裂缝特征——以任丘潜山蓟县系雾迷山组碳酸盐岩储层为例 [J]. 光谱学与光谱分析, 2016, 36(12): 3926-3930.
ZHOU Han-guo1,2, GUO Jian-chun1, LI Jing3*, LIU Si-meng4, PENG Cheng-le3, HOU Jiang-peng3 . Characterizing Fracture Characteristics of Heterogeneous Oil and Gas Reservoir by Using Microscopic Infrared Spectroscopy Technique ——Taking Carbonate Reservoir of the Wumishan Formation of Jixian System in Renqiu Burried Hill as an Example. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2016, 36(12): 3926-3930.
[1] WANG Jian-yu, SHU Rong, LIU Yin-nian, et al(王建宇,舒 嵘,刘银年,等). Introduction to Imaging Spectral Technology(成像光谱技术导论). Beijing: Science Press(北京:科学出版社),2011. [2] Bakker R J. The Canadian Mineralogist,2004, 42: 1283. [3] Ali Sdiri, Teruo Higashi, Tamao Hatta, et al. Environ. Earth Sciences, 2010, 61: 1275. [4] LI Jing, ZHA Ming(李 静,查 明). Journal of China University of Petroleum·Edition of Natural Sciences(中国石油大学学报), 2010, 34(4): 38. [5] TIAN Fei, JIN Qiang, LI Yang, et al(田 飞,金 强,李 阳,等). Oil & Gas Geology(石油与天然气地质), 2012, 33(6): 900. [6] ZHU Li-fen, CHEN Hong-han, FENG Yong(朱丽芬,陈红汉,丰 勇). Lithologic Reserviors(岩性油气藏), 2013, 25(4): 38. [7] XIA Mao-long, FAN Yi,JIANG Rong-rong, et al(夏茂龙, 范 毅, 江蓉蓉, 等). Acta Petrolei Sinica(石油学报), 2012, 33(s2): 74. [8] Gunasekaran S, Anbalagan G, Pandi S. J. Raman Spectrosc., 2006, 37: 892. [9] ZHANG Peng, HOU Gui-ting, PAN Wen-qing, et al(张 鹏,侯贵廷,潘文庆,等). Acta Scientiarum Naturalium Universitatis Pekinensis(北京大学学报), 2013, 49(6): 993. [10] JIAO Cun-li, XING Xiu-juan, HE Bi-zhu, et al(焦存礼, 邢秀娟, 何碧竹,等). Geology in China(中国地质), 2011, 38(4): 1000. [11] ZHOU Ying-jie(周英杰). Fractured Buried Hill Reservoir Characterization and Prediction(裂缝性潜山油藏表征与预测). Beijing: Petroleum Industry Press(北京: 石油工业出版社), 2006.