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煤层气水平井开发的理论技术初探

王红岩周尚文杨明伟王聪段瑶瑶刘洪林赵群陈尚斌卢海兵施振生孙钦平陈振宏

煤田地质与勘探2024，Vol.52Issue(4)：47-59,13.

煤田地质与勘探2024，Vol.52Issue(4)：47-59,13.DOI:10.12363/issn.1001-1986.23.11.0794

煤层气水平井开发的理论技术初探

Preliminarily exploring the theories and technologies for coalbed methane production using horizontal wells:Comparison of conditions for coalbed methane and shale gas exploitation

王红岩 ¹周尚文 ¹杨明伟 ¹王聪 ¹段瑶瑶 ²刘洪林 ³赵群 ³陈尚斌 ⁴卢海兵 ²施振生 ³孙钦平 ²陈振宏⁵

作者信息

1. 中国石油国家卓越工程师学院,北京 102200||国家能源页岩气研发(实验)中心,北京 100083
2. 中国石油勘探开发研究院,北京 100083
3. 国家能源页岩气研发(实验)中心,北京 100083||中国石油勘探开发研究院,北京 100083
4. 中国矿业大学资源与地球科学学院,江苏徐州 221008
5. 中国石油国家卓越工程师学院,北京 102200
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摘要

Abstract

Through 30 years of unremitting explorations,coalbed methane(CBM)wells in China have gradually transitioned from vertical to horizontal wells.However,the lack of basic theories on CBM production using horizontal wells is the main challenge to current CBM development.Compared to shales,coal seams exhibit heterogeneity and a minor presence of foliations and brittle minerals,hindering the formation of volumetric fracture networks.Nevertheless,the roofs and floors of coal seams have high sealing capacities and mechanical strength,creating excellent conditions for hydraulic fracturing.Some fractures in coals are filled with calcite,rendering acidification conducive to the improve-ment of reservoir permeability and the formation of complex fractures.Hence,it is particularly important to develop a technology for CBM production using horizontal wells that is tailored for CBM reservoir characteristics.Targeting the geological characteristics of coal seams,this study systematically analyzed the technical and economic policies for CBM production using horizontal wells from six aspects:the optimization of the horizontal well section length and cluster spa-cing,the selection of fracturing fluids and proppants,flowback rate,and estimated ultimate recovery(EUR).Key find-ings are as follows:(1)Encouraging reservoir stimulation performance can be achieved under a horizontal well section length of 1 000 m or below and a cluster spacing ranging between 15 m and 30 m;(2)Adding slippery water gel break-ers and a small quantity of low-temperature auxiliary gel breakers into fracturing fluids can improve the gel-breaking ef-ficiency of deep CBM reservoirs;(3)Compared to middle and shallow CBM reservoirs,the ratio of proppants with large grain sizes(0.425/0.850 mm)should be increased for deep CBM reservoir fracturing;(4)Under the highest gas yield,the fracturing fluids'flowback rate for deep CBM reservoirs(e.g.,the No.8 coal seam in the Daji block)resembles that for shale gas reservoirs in the Weiyuan-Changning area;(5)Given the low EUR but high fracturing liquid and proppant in-tensities of CBM production,it is necessary to improve its efficiency and economic benefits.The CBM production per-formance is jointly controlled by geological characteristics and engineering technologies.From the perspective of the geo-engineering integration,this study put forward the countermeasures for future CBM production using horizontal wells and proposed suggestions.Specifically,it is necessary to further optimize the technology for CBM production us-ing horizontal wells,improve the drilling and completion technologies of horizontal wells to reduce the cost of single-well drilling and completion,achieve the orderly flowback of pulverized coal in CBM horizontal wells as per the migra-tion pattern of pulverized coals to improve the drainage and production efficiency,and optimize the production control technologies based on free and adsorbed gases'proportions to increase single-well EUR.

关键词

深部煤层气/页岩气/开发条件/储层对比/水平井

Key words

deep coalbed methane/shale gas/production condition/reservoir comparison/horizontal well

分类

能源科技

引用本文复制引用

王红岩,周尚文,杨明伟,王聪,段瑶瑶,刘洪林,赵群,陈尚斌,卢海兵,施振生,孙钦平,陈振宏..煤层气水平井开发的理论技术初探[J].煤田地质与勘探,2024,52(4):47-59,13.

基金项目

中石油集团公司前瞻性基础性科技项目(2021DJ19,2022DJ80) （2021DJ19,2022DJ80）

煤田地质与勘探

OA北大核心CSTPCD

ISSN：1001-1986

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