煤田地质与勘探2025,Vol.53Issue(5):93-103,11.DOI:10.12363/issn.1001-1986.24.12.0830
注热过程中高温蒸汽渗流与煤体热应变动态演化规律
Dynamic evolutionary patterns of high-temperature steam seepage and thermal strains of coals during heat injection
摘要
Abstract
[Background]Thermal stimulation of coal seams using high-temperature steam is recognized as a highly promising technology used to increase gas production.Steam permeability serves as a critical parameter for characteriz-ing the injection capacity of thermal fluids.However,the seepage patterns and evolutionary mechanism of steam in coals remain unclear,and exploring these issues holds critical scientific significance for gas production enhancement via heat injection.[Methods]Through experiments on the seepage and thermal strains of coals during the injection of high-tem-perature steam performed using the steady-state method,this study investigated the dynamic time variation patterns of the steam permeability and thermal strains of coals.Based on the theories of the Kelvin equation for capillary condensa-tion,slug flow,and thermal stress,this study analyzed the evolutionary mechanisms behind the condensation-induced phase transition and pulsating seepage of steam in coals and behind the thermal strain of coals.[Results]The experi-mental results indicate that during the injection of high-temperature steam into coals,the liquid-measured permeability of steam showed an intermittent pulsating pattern with an increase in the heat injection time.A higher steam temperature corresponded to a decreased pulsating peak,a shortened pulsating cycle,and more intense pulsation.During heat injec-tion,the radial and volumetric strains of coals exhibited two to three stages of expansion.The axial strain was manifes-ted as compressive strain under lower steam temperatures and shifted to expansion strain under higher steam temperat-ures.[Conclusions]The equilibrium pressure of steam in the micropores of coals is below the saturated vapor pressure in a large space.A smaller pore size is associated with a lower pressure required for steam condensation and higher sus-ceptibility to condensation-induced phase transition.The gas-liquid slug flow generated by steam in coals is identified as the main cause of the intermittent pulsation of steam permeability.Additionally,the inward and outward expansion ef-fects are superimposed onto the influence of high-temperature steam on the permeability of coals,leading to decreased steam permeability of macropores but increased steam permeability of small pores within the matrix.During steam injec-tion,the rapid expansion strain in the early stage is primarily dictated by pore pressure,while the slow expansion strain in the middle and late stages is predominantly subjected to the thermal strain induced by a temperature rise.The results of this study will provide a factual basis and theoretical reference for the engineering and numerical simulation of gas re-covery via steam injection.关键词
瓦斯/蒸汽/温度/两相渗流/热应变/注热Key words
gas/steam/temperature/two-phase seepage/thermal strain/heat injection分类
矿山工程引用本文复制引用
李志强,张宁超,陈金生,陈立伟,冯文祥,刘龙威,王云刚..注热过程中高温蒸汽渗流与煤体热应变动态演化规律[J].煤田地质与勘探,2025,53(5):93-103,11.基金项目
国家自然科学基金项目(52304213) (52304213)
河南理工大学"双一流"学科创建工程项目(AQ20250702) (AQ20250702)
