• 论文
主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
干热岩体热冲击后纵波波速演化规律研究
  • Title

    Study on law of longitudinal wave velocity evolution of dry hot rock filled after thermal shock

  • 作者

    武治盛冯子军惠峥石晓巅赵阳升

  • Author

    WU Zhisheng,FENG Zijun,HUI Zheng,SHI Xiaodian,ZHAO Yangsheng

  • 单位

    太原理工大学 原位改性采矿教育部重点实验室太原理工大学 矿业工程学院

  • Organization
    Key Laboratory of In-situ Modified Mining Ministry of Education,Taiyuan University of Technology;School of Mining Engineering,Taiyuan University of Technology
  • 摘要

    干热岩体花岗岩受构造运动影响,产生规模较大的节理裂隙,形成裂隙干热岩体,这些裂隙在后期被热液充填后,称后期热液充填裂隙干热岩体,充填体与母岩的胶结面是一个弱面,利用该弱面极易于建造干热岩地热人工储留层,大幅节省建造成本。为研究实际干热岩地热开发中注入低温水热冲击后母岩、充填体及其胶结面性质的演化规律,利用超声波检测技术研究了4类50 mm×100 mm标准岩样(花岗岩母岩、充填体、含纵向胶结面充填花岗岩、含横向胶结面充填花岗岩)在室温至600 ℃高温条件下反复热冲击及不同冲击氛围(0 ℃水冷却冲击和室温冷却冲击)下的纵波波速演化规律。研究结果表明: 室温下含胶结面充填花岗岩的开口孔隙率较母岩、充填体低,而波速较母岩、充填体大;室温-300~0 ℃水反复热冲击过程中,4类岩样在首次热冲击后波速降幅可达40%~50%,之后随着热冲击次数增加波速降幅减小,约3%;相同高温下,4类岩样在0 ℃水冷却冲击后的波速降幅均较室温冷却冲击时大,说明0 ℃水冷却冲击对岩石的损伤更强;相同热冲击方式下,含胶结面充填花岗岩波速降幅较母岩、充填体大,这是因为胶结面附近的矿物颗粒尺度差异最大,热破裂程度最强。研究结果对断层模式干热岩地热开发中储留层的建造及开发过程中储留层结构演化的认识有重要指导意义。

  • Abstract

    Due to the influence of tectonic movement,the dry hot rock mass granite produces large-scale joint fissures,forming a fractured dry hot rock mass,these fissures are later filled with hydrothermal fluid to form a late hydrothermal filling fractured dry hot rock mass. The cementation surface between the filling body and the parent rock is a weak surface,which is very easy to build geothermal artificial reservoir of dry hot rock and greatly saves the construction cost. In order to study the evolution law of parent rock,filling body and cementation surface after injecting low temperature hydrothermal shock in the geothermal development of actual dry hot rock,four kinds of standard samples (granite parent rock,filling body,filling granite with longitudinal cementation surface and filling granite with transverse cementation surface) were studied by ultrasonic testing technology under the condition of repeated thermal shock from room temperature to 600 ℃ and different shock atmosphere (water cooling shock at 0 ℃ and cooling shock at room temperature).The results show that:at room temperature,the porosity of granite with cemented surface is lower than that of parent rock and filling body,while the wave velocity is higher than that of parent rock and filling body.During the repeated thermal shock of room temperature-300~0 ℃ water,the wave velocity of the four types of samples can be reduced by 40%-50% after the first thermal shock,and then the wave velocity decreases by about 3% with the increase of the number of thermal shocks. At the same high temperature,the wave velocity drop of four kinds of samples after water cooling shock at 0 ℃ is larger than that at room temperature,which indicates that water cooling shock at 0 ℃ has stronger damage to rock.Under the same thermal shock mode,the wave velocity drop of the filling granite with cemented surface is larger than that of the parent rock and the filling body,because the size difference of the mineral particles near the cemented surface is the largest,and the degree of thermal cracking is the strongest. The research results are of great significance to the understanding of the formation and structural evolution of the reservoirs in the fault model dry hot rock geothermal field.

  • 关键词

    花岗岩热液充填热冲击热破裂干热岩

  • KeyWords

    granite; hydrothermal filling; thermal shock; thermal cracking; dry hot rock

  • 基金项目(Foundation)
    国家自然科学基金资助项目(U1810104);山西省回国留学人员科研教研资助项目(2019)
  • 文章目录

    0 引言

    1 试验概况

       1.1 岩样制备

       1.2 试验方法与步骤

    2 试验结果与分析

       2.1 室温下各类花岗岩的吸水率和波速

       2.2 热冲击次数对各类花岗岩波速的影响

       2.3 热冲击温度对各类花岗岩波速的影响

    3 结论

  • 引用格式
    武治盛,冯子军,惠峥,等.干热岩体热冲击后纵波波速演化规律研究[J].煤炭科学技术,2021,49(10):58-65.
    WU Zhisheng,FENG Zijun,HUI Zheng,et al.Study on law of longitudinal wave velocity evolution of dry hot rock filled after thermal shock[J].Coal Science and Technology,2021,49(10):58-65.
  • 图表
    •  
    •  
    • 0 ℃水冷却后花岗岩波速与温度关系曲线

    图(12) / 表(0)

相关问题

主办单位:煤炭科学研究总院有限公司 中国煤炭学会学术期刊工作委员会

©版权所有2015 煤炭科学研究总院有限公司 地址:北京市朝阳区和平里青年沟东路煤炭大厦 邮编:100013
京ICP备05086979号-16  技术支持:云智互联