人工裂缝参数对CO2-ESGR中CO2封存和CH4开采的影响

Effects of artificial fracture parameters on CO2 sequestration and CH4 production in CO2-ESGR

刘思雨 ¹杨国栋 ¹黄冕 ¹尹书郭 ¹马鑫 ²包琦³

扫码查看

作者信息

1. 武汉科技大学资源与环境工程学院
2. 中国地质调查局水文地质环境地质调查中心
3. 中国石油大学(北京)非常规油气科学技术研究院
折叠

摘要

目的页岩储层中的裂缝系统对CH4产量和CO2封存量有着重要的影响,不同的储层地质特征有其对应的最优压裂方案.对鄂尔多斯盆地延长组页岩储层人工裂缝参数对CO2封存和CH4开采的影响进行分析.方法基于鄂尔多斯盆地延长组页岩储层地质条件建立了页岩基质-裂缝双孔双渗均质模型,分析CO2增强页岩气开采技术(CO2-ESGR)中人工裂缝半长、裂缝宽度、裂缝高度、裂缝间距和裂缝数量对CO2封存量和CH4产量的影响.结果 CO2封存量和CH4产量与裂缝半长、裂缝宽度和裂缝高度呈正相关,其中裂缝宽度的影响最大,从5 mm增加到25 mm时,最多可使CO2封存量和CH4产量分别增加112.69％和87.11％.裂缝间距和裂缝数量增加可提高CO2封存量和CH4产量,但水平井长度相同时裂缝数量增加对CO2封存量和CH4产量的影响幅度远大于裂缝间距,当裂缝数量从2条增加到6条,最多可使CO2封存量和CH4产量分别增加151.92％和137.81％.结论在开发过程中,合理增加人工裂缝的半长、高度、宽度和数量,可以实现高效CO2封存和CH4开采.

Abstract

Objective Fracture systems in shale reservoirs have an important impact on CH4 production and CO2 sequestration,and different geological characteristics of reservoirs have their corresponding optimal fracturing schemes.The study aims to investigate the effect of artificial fracture parameters on CO2 sequestration and CH4 production of Yanchang formation shale reservoirs in Ordos Basin.Methods Based on the geological conditions of shale reservoirs of Yanchang formation in Ordos Basin,a dual-porosity,dual-permeability homogeneous model was established to analyze the effects of artificial fracture half-lengths,fracture width,fracture height,fracture spacing,and the number of fractures on CO2 sequestration and CH4 production in CO2-ESGR.Results The results showed that fracture half-length,fracture width and fracture height were positively correlated with CO2 sequestration and CH4 production,among which fracture width had the greatest influence.When the fracture width increased from 5 mm to 25 mm,CO2 sequestration increased by 112.69％and CH4 production increased by 87.11％at most.Both fracture interval and fracture number increased CO2 sequestration and CH4 production.However,when the horizontal well length was the same,the increasing of fracture number had a far greater impact on CO2 sequestration and CH4 production than that of fracture interval.When the number of fracture increased from 2 to 6,CO2 sequestration increased by 151.92％and CH4 production increased by 137.81％at most.Conclusions During the development process,strategically enhancing the half-length,height,width,and quantity of artificial fractures can facilitate efficient sequestration of CO2 and extraction of CH4.

关键词

CO2地质封存/页岩气/人工裂缝/数值模拟/CO2-ESGR

Key words

CO2 sequestration/shale gas/artificial fracture/numerical simulation/CO2-ESGR

引用本文复制引用

基金项目

国家重点研发计划(2019YFE0100100)

国家自然科学基金(42141009)

海洋地质资源湖北省重点试验开放基金(MGR202003)

出版年

2024

石油与天然气化工

西南油气田分公司天然气研究院　西南油气田公司重庆天然气净化总厂

石油与天然气化工

CSCD北大核心

影响因子：0.805

ISSN：1007-3426

参考文献量31

段落导航