CO2羽流地热系统与水基增强型地热系统换热效果对比实验

doi:10.3969/j.issn.1006-6535.2025.02.015

特种油气藏 ›› 2025, Vol. 32 ›› Issue (2): 117-122.DOI: 10.3969/j.issn.1006-6535.2025.02.015

CO₂羽流地热系统与水基增强型地热系统换热效果对比实验

樊阳杰, 付美龙, 刘漪雯, 李国俊, 宿志昊

长江大学湖北省油气钻采工程重点实验室,湖北武汉 430100

收稿日期:2024-05-02 修回日期:2025-01-11 出版日期:2025-04-25 发布日期:2025-06-16
通讯作者: 付美龙(1967—),男,教授,1990年毕业于西南石油学院应用化学专业,2009年毕业于西南石油大学应用化学专业,获博士学位,现主要从事油田化学和提高采收率方面的教学与科研工作。
作者简介:樊阳杰(2000—),男,2022年毕业于电子科技大学(成都学院)机械设计制造及其自动化专业,现为长江大学油气田应用化学专业在读硕士研究生,主要从事油田化学和提高采收率方面的研究工作。
基金资助:
国家自然基金“低渗透油藏CO₂驱气窜通道表征识别与调控优化方法研究”(52104018)

Comparison experiment of heat transfer effect between CO₂-plume geothermal system and water-based enhanced geothermal system

FAN Yangjie, FU Meilong, LIU Yiwen, LI Guojun, SU Zhihao

Hubei Key Laboratory of Oil and Gas Drilling and Production Engineering, Yangtze University, Wuhan, Hubei 430100, China

Received:2024-05-02 Revised:2025-01-11 Online:2025-04-25 Published:2025-06-16

摘要/Abstract

摘要： 针对水基增强型地热系统在地热开采过程中易损失流量,造成资源浪费等问题,选取CO₂作为CO₂羽流地热系统的传热工质,通过热交换实验、溶蚀实验和CO₂驱后气水相渗曲线评价实验等手段,定量评估超临界CO₂在不同条件下的换热性能和CO₂-水溶液对岩石的溶蚀效果,并对CO₂和水的携热能力及采热速率进行评价。研究表明:在传热工质的质量流量相同的条件下,当注入温度为24 ℃时,CO₂换热效率比水高27%以上,当注入温度为35 ℃时,CO₂换热效率比水高8%以上,CO₂的换热效率和携热能力均高于水;当储层压力升至25 MPa时,CO₂热容值为水热容值的0.45倍,流动能力为水的2.5倍,CO₂的采热优势更强;CO₂与绿泥石反应的溶蚀作用较强,导致岩心孔隙空间和渗流通道增大,有效提高了储层渗透率,增强了流体在孔隙中的对流,提高了热传递效率。该研究为CO₂羽流地热资源开采技术的应用推广提供了基础理论依据。

关键词: 地热, CO₂羽流地热系统, CO₂埋存, 溶蚀作用, CCUS

Abstract: To address the issues of flow loss and resource waste during geothermal extraction in water-based enhanced geothermal systems,CO₂ was selected as the heat transfer fluid for the CO₂-plume geothermal system. Through methods such as heat transfer experiments,dissolution experiments,and post-CO₂ flooding gas-water relative permeability curve evaluation experiments,the heat transfer performance of supercritical CO₂ under different conditions and the dissolution effect of CO₂ aqueous solution on rocks were quantitatively assessed. Additionally,the heat-carrying capacity and heat extraction rate of CO₂ and water were evaluated. The study shows that under the condition of the same mass flow rate of the heat transfer fluid,when the injection temperature is 24 ℃,the heat transfer efficiency of CO₂ is over 27% higher than that of water;when the injection temperature is 35 ℃,the heat transfer efficiency of CO₂ is over 8% higher than that of water,indicating that CO₂ has higher heat transfer efficiency and heat-carrying capacity than water. When the formation pressure of the gas reservoir rises to 25 MPa,the heat capacity value of CO₂ is 0.45 times that of water,and its mobility is 2.5 times that of water,making CO₂′s heat extraction advantage more pronounced. The dissolution reaction of CO₂ with chlorite is strong,leading to an increase in the pore space and permeation channels of the core,effectively enhancing the reservoir permeability,strengthening the convection of fluids in the pores,and improving the heat transfer efficiency. This study provides a fundamental theoretical basis for the application and promotion of CO₂-plume geothermal resource extraction technology.

Key words: geothermal, CO₂-plume geothermal system, CO₂ storage, dissolution, CCUS

中图分类号:

TK529

樊阳杰, 付美龙, 刘漪雯, 李国俊, 宿志昊. CO₂羽流地热系统与水基增强型地热系统换热效果对比实验[J]. 特种油气藏, 2025, 32(2): 117-122.

FAN Yangjie, FU Meilong, LIU Yiwen, LI Guojun, SU Zhihao. Comparison experiment of heat transfer effect between CO₂-plume geothermal system and water-based enhanced geothermal system[J]. Special Oil & Gas Reservoirs, 2025, 32(2): 117-122.

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CO₂羽流地热系统与水基增强型地热系统换热效果对比实验

Comparison experiment of heat transfer effect between CO₂-plume geothermal system and water-based enhanced geothermal system

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