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| Fracturing geological layer selection and fracturing transformation technology of coalbed methane wells of Wenjiaba block in Zhijin County of Guizhou Province |
| Zou Jianghai1, 2, Xiang Gang1, 2 |
| 1. Key Laboratory of Unconventional Natural Gas Evaluation and Development in Complex Structural Area, Ministry of Natural Resources, Guiyang 550081, China; 2. Guizhou Institute of Petroleum Exploration and Development Engineering, Guiyang 550081, China |
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Abstract The geological resources of coalbed methane in Guizhou Province are very abundant. The Upper Permian Longtan Formation and Changxing Formation are the main coal-bearing strata in Zhijin area. In recent years, with the gradual advancement of exploration and development, coalbed methane production in Wenjiaba block achieved great results. In this paper, the reservoir reconstruction technology of high-yield coalbed methane wells in Wenjiaba block was studied, and the fracturing reconstruction process system suitable for the block was established. Based on the study of coal reservoir characteristics in this block, the rock mechanics characteristics, porosity and permeability conditions and gas content of coal reservoir were clarified, and the fracturing geological layer selection was optimized. In view of the characteristics of many and thin coal seams and shallow burial, a fracturing technology suitable for multi-seam ' staged fracturing and multi-layer production ' was formed, large-scale fracturing transformation was carried out to increase the SRV, ensure the gas production effect, and strive to increase the storage and production of coalbed methane in the block.
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| [ 1 ] 金 军,杨兆彪,秦 勇,等. 贵州省煤层气开发进展、潜力及前景[ J ]. 煤炭学报,2022,47( 11 ):4 113 - 4 126.
[ 2 ] 窦新钊. 黔西地区构造演化及其对煤层气成藏的控制[ D ]. 徐州:中国矿业大学,2012.
[ 3 ] 徐晓乾,孟应芳,段正鹏,等. 贵州省煤层气(瓦斯)开发适用性技术分析[ J ]. 煤田地质与勘探,2019,47( 6 ):8 - 13.
[ 4 ] 赵福平,孙 钊,桑树勋,等. 贵州省煤层气勘探开发进展及“十四五”开发战略[ J ]. 天然气工业,2022,42( 6 ): 65 - 75.
[ 5 ] 任海鹰,孟贵希,郭晋华. 贵州含煤小向斜煤储层特征及试采效果研究——以毕节市织金县阿弓向斜为例[ J ]. 中国煤炭地质,2020,32( 1 ):1 - 3,32.
[ 6 ] 陈畅然,周效志,赵福平,等. 薄—中厚煤层群煤层气井高产的地质与工程协同控制技术——以贵州织纳文家坝区块为例[ J ]. 天然气工业,2023,43( 1 ):55 - 64.
[ 7 ] 张 慧. 煤孔隙的成因类型及其研究[ J ]. 煤炭学报,2001( 1 ):40 - 44.
[ 8 ] 李小刚,张 平,贺宇廷,等. 滇东黔西煤层气井高压气动力诱导起裂压裂与前置二氧化碳压裂先导试验[ C ]//中国煤炭学会煤层气专业委员会,中国石油学会石油地质专业委员会,煤层气产业技术创新战略联盟. 2021年煤层气学术研讨会论文集:中国煤层气勘探开发技术与产业化.油气藏地质与开发国家重点实验室西南石油大学;中联煤层气有限责任公司;中海油能源发展股份有限公司工程技术分公司;2021:11.
[ 9 ] 李全中,胡海洋,吉小峰. 厚煤层煤层气井水力压裂特点及效果评价[ J ]. 矿业安全与环保,2023,50( 1 ):92 - 96.
[ 10 ] 管保山,刘玉婷,刘 萍,等. 煤层气压裂液研究现状与发展[ J ]. 煤炭科学技术,2016,44( 5 ):11 - 17.
[ 11 ] 张高群,肖 兵,胡娅娅,等. 新型活性水压裂液在煤层气井的应用[ J ]. 钻井液与完井液,2013,30( 2 ):66 - 68. |
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