文章摘要
张森,赵艳婷,卢宝,宗振海,蔡芸,王冰,高新智.井下分层多参数监测系统的研制及其在地热回灌井的应用[J].矿产勘查,2025,16(3):606-613
井下分层多参数监测系统的研制及其在地热回灌井的应用
Development of downhole stratified multi-parameter monitoring system and its application in geothermal reinjection wells
投稿时间:2024-06-16  
DOI:10.20008/j.kckc.202503018
中文关键词: 地热  井下分层  多参数  监测系统  回灌井
英文关键词: geothermal  downhole stratification  multi-parameter  monitoring system  reinjection wells
基金项目:本文受“砂岩热储层采灌增效技术及装备”项目(2019YFB1504204)资助。
作者单位
张森 天津地热勘查开发设计院天津 300250
自然资源部天津中低温地热野外科学观测研究站天津 300250 
赵艳婷 天津地热勘查开发设计院天津 300250
自然资源部天津中低温地热野外科学观测研究站天津 300250 
卢宝 天津地热勘查开发设计院天津 300250
自然资源部天津中低温地热野外科学观测研究站天津 300250 
宗振海 天津地热勘查开发设计院天津 300250
自然资源部天津中低温地热野外科学观测研究站天津 300250 
蔡芸 天津地热勘查开发设计院天津 300250
自然资源部天津中低温地热野外科学观测研究站天津 300250 
王冰 天津地热勘查开发设计院天津 300250
自然资源部天津中低温地热野外科学观测研究站天津 300250 
高新智 天津地热勘查开发设计院天津 300250
自然资源部天津中低温地热野外科学观测研究站天津 300250 
摘要点击次数: 10
全文下载次数: 5
中文摘要:
      以往的回灌试验、监测和研究仅针对整个热储层,并不能确定回灌流体的具体流向。砂岩热储含水段多 构成水平透镜状层或连续的水平层,之间有透水性差的黏土、泥岩层,阻止了垂向上地热流体的交换,导 致热储层间无明显的水力联系,注入的回灌流体在储层内以水平径流为主。本文从井下长置式测试仪、 井口固定升降装置、地面控制系统和远程通信系统 4个方面开展研究工作。成功研制井下分层多参数监 测系统,并引入到地热回灌井监测,实现了地热回灌井井下分层动态流速、压力及温度测量。该系统在 2 眼砂岩热储回灌井进行了野外试验测试,实现了砂岩储层回灌流体主渗流通道精确识别。本研究将为回 灌主渗流层位优选、采灌布局优化等研究提供基础数据和技术支撑。
英文摘要:
      Previous reinjection tests, monitoring and research only focused on the whole thermal reservoir, andcould not determine the specific flow direction of the reinjection fluid. The water-bearing section of the sandstone thermal reservoir mostly constitutes a horizontal lenticular layer or a continuous horizontal layer, and there are clayand mudstone layers with poor permeability between them, which prevents the exchange of geothermal fluids verti-cally. As a result, there is no obvious hydraulic connection between the thermal reservoirs, and the injected reinjec-tion fluid is mainly horizontal runoff in the reservoir. In this paper, the research was carried out from four aspects:underground long-term tester, wellhead fixed lifting device, ground control system and remote communication sys-tem. A multi-parameter monitoring system for downhole stratification had been successfully developed and intro-duced into the monitoring of geothermal reinjection wells, which realized the measurement of dynamic velocity, pres-sure and temperature of geothermal recharge wells. The system was tested in two sandstone thermal reservoir rein-jection wells, and the main seepage channel of reinjection fluid in sandstone reservoir could be accurately identi-fied. This research will provide basic data and technical support for the optimization of the main seepage layer of re-injection and the optimization of the layout of mining and reinject.
查看全文   查看/发表评论  下载PDF阅读器
关闭