胶东半岛温泉的地热特征

胶东半岛位于欧亚板块与太平洋板块边缘内侧 ,是地壳长期稳定缓慢隆起地段 ,区内地质构造发育 ,大部分温泉出露在背斜核部 ,NE、NNE向与NW、NNW向断裂交汇处。地热系统属中低温深循环对流型 ,略为偏高的大地热流是其主要热源 ,地表水是地下热水的补给水源 ,地下水通过发育在花岗岩和变质岩中的断层或断裂破碎带 ,下渗和深循环对流 ,在径流过程中不断吸取围岩热量成为热水 ,沿断裂上升过程中 ,与地下浅部裂隙水混合而成为化学成分各异 ,温度高低不等的温泉水     

山东省地热信息系统建设与功能简介

山东省地热信息系统建设工作 ,把以往分散和零乱的地热地质条件、普查勘探及地热资源勘查开发利用等资料 ,通过文、图、表、声、像等形式综合地、直观地反映出来 ,以有助于政府管理部门更好地开展地热资源勘查规划、开发管理与利用指导。     

Study on transmission mechanism of thermal infrared remote sensing for abrupt geothermal anomaly in volcanic region

Ｇｅｏｔｈｅｒｍａｌａｎｏｍａｌｙｉｓａｐｈｅｎｏｍｅｎｏｎｔｈａｔｕｎｄｅｒｇｒｏｕｎｄｔｅｍｐｅｒａｔｕｒｅａｎｄｇｅｏｔｈｅｒｍａｌｇｒａｄｉｅｎｔｉｎｃｒｅａｓｅｓｍｕｃｈｍｏｒｅｉｎｔｈｅａｒｅａｔｈａｎｉｔｓｓｕｒｒｏｕｎｄｉｎｇｓ（Ｘｉａ,１９７９）．Ａｂｒｕｐｔｇｅｏｔｈｅｒｍａｌａｎｏｍａｌｙｍｅａｎｓｔｈａｔｕｎｄｅｒｇｒｏｕｎｄｔｅｍｐｅｒａｔｕｒｅｏｎｓｏｍｅｓｐｏｔｓａｓｗｅｌｌａｓｔｈｅａｆｆｅｃｔｅｄｔｅｍｐｅｒａｔｕｒｅｏｆｓｕｒｒｏｕｎｄｉｎｇａｒｅａａｂｒ…     

西安地热田医疗热矿水的产出状况分析

本文介绍了西安地热田概况及开采现状, 重点讨论了西安地热田医疗热矿水的产出状况     

对黄土地区钻孔和探井试样试验指标的分析评价

通过对济南地区次生黄土所采集的钻孔和探井土样进行浸水试验,并对其主要物理力学指标进行了分析评价,得出探井试样比钻孔试样所具有的试验指标更为真实可靠,因此次生黄土分布区采集探井试样进行湿陷性浸水试验是十分必要的。     

Genesis of Geothermal Fluid in Typical Geothermal Fields in Western Sichuan,China

The hydrogeochemical characteristics of geothermal fluids can reveal the genesis of geothermal systems and act as important references for developing and using geothermal resources.This study presents hydrogeochemical processes and thermal cycle mechanisms of typical geothermal fields in Western Sichuan.Based on the geological conditions in Western Sichuan,29 hot springs in three geothermal fields in the Batang and Litang areas were selected for hydrochemical and isotopic (δD andδ~(18)O) analyses.Furthermore,the temperature of the thermal reservoir was calculated and the upflow cooling process of the hot springs was analyzed.Most of the subterranean hot waters in Batang and Litang are of the HCO_3-Na hydrochemical type.The ion variation in Batang is primarily affected by water-rock interactions.There is a strong positive correlation between Na~+,B~-,and Cl~-in Litang,suggesting that they have the same material source.The Na~+and metaboric acid content is relatively high,which indicates that the groundwater runoff in both areas is relatively long-lasting,with reduced flow velocity;moreover,the metasilicic acid content is relatively high,which supports this conclusion.Both hydrogen and oxygen isotopes plot near the atmospheric precipitation line,indicating that groundwater recharge is functionally obtained from precipitation.The calculated thermal storage temperatures in Batang and Litang were 88–199°C and 96–154°C,respectively.The proportion of cold water mixing in Batang was 64%–67%,while that in Litang was 60%–68%.According to the calculated results,the initial thermal cycle depth of the Batang area (4540–4780 m) was greater than that of the Litang area (3150–3960 m).The enthalpy of the deep parental geothermal fluid in Batang was 1550 J/g with a Cl~-concentration of 37 mg/L,while that in Litang was 2100 J/g with a Cl~-concentration of 48 mg/L.     

PRESSURE GRADIENT FROM THE CONTRIBUTION OF BOTH GEOTHERMAL AND GRAVITY IN THE LITHOSPHERE

1 Introduction The pressure, a scalar quantity, is defined as P = F/S (F is force, S is the area for F) which can be widely used for both solid and fluid. The formula P = g ρh (g-gravitation acceleration,ρ-density, h-depth) is only used for even density static solid and fluid. The delivery of pressure in the fluid follows the law of Pascal, and the average pressure of uneven density fluid can be calculated with the formula of P = g ρh. The temperature influence on pressure is notHU Ba…     

不受地理位置限制的地热和太阳能联合发电系统

为解决能源问题,开发可再生能源,利用闭式循环将地热系统和太阳能系统联合起来发电.发电系统可以避免因大规模开发利用地热水资源可能造成的地震、地面沉降、地热水资源衰减、地热水有害成分污染、热污染等环境问题,也可以克服地热发电和太阳能发电受地理位置限制的缺点.地热系统地下部分由两垂深3～5km的井在井底由一5～7km的水平井连接而成,水平井中流体温度可达150℃左右,适合于ORC发电.太阳能系统采用槽式聚光镜集热,集热流体可选水或油,最高温度可达350℃以上.ORC一级循环工质为水,二级循环工质为异丁烷;ORC发电效率,白天最大为20%,晚上最大为12%.系统采用化学储能,储能密度为显热储能和潜热储能的10倍以上.钻井和完井、太阳能热能转换、载热流体、ORC和储能等技术的研究结果证明该系统是可行的.     

遥感与电法在青海甘子河断裂对流型地热勘查中的应用

利用遥感解译资料分析研究区域地质构造背景,确定甘子河为地热勘查靶区。首先用可控源音濒大地电磁测深法确定控热构造位置,然后辅以多种电法进行相互验证,查明了隐伏断裂构造带的部位、深度、倾向、倾角等形态特征,有效降低了地热勘探风险,勘查成果显著,对隐伏断裂地热勘查具有重要的指导意义。     

淄博市张店南部地热异常成因

通过研究井温曲线类型,确定研究区纯传导地温梯度为2 5℃100m;结合各单井地温梯度,圈定了地热异常区域;揭示了该区地热异常具有下段以对流为主、上段以传导为主的特点。通过热水水化学和同位素数据的综合分析表明,该区地下热水补给来源为大气降水,热水赋存于断裂裂隙系统中,且沿断裂裂隙垂向运动十分强烈。