共查询到19条相似文献,搜索用时 140 毫秒
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鲁北临盘地热资源丰富,热储层为新近纪黄骅群馆陶组,热储盖层为新近纪黄骅群明化镇组和第四纪平原组,热源主要来自地壳深部正常热流传导。目前已钻凿2口地热井,开发利用效益显著。地热开发要避天油气层,石油开发要防止污染地热储水层。 相似文献
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曹县城区地处鲁西南黄泛平原地区,该区地表被巨厚的第四系和新近系松散层覆盖,区域断裂构造十分发育,地热成矿地质条件有利。可被利用的热储层主要有2个,分别为新近纪明华镇组热储和奥陶纪热储,二个热储层地热资源各具特点。对该区可利用热储层地热资源地质条件进行了分析研究,为下一步曹县城区地热资源的开发利用提供参考性地质依据。 相似文献
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济南北部地热资源较丰富,且多以可直接利用的中低温地热资源为主,开发潜力巨大。济南北部地热资源按地温梯度、地质构造条件及热储类型的不同,可规划为优先开发地热区、较优先开发区、次优先开发地热区、一般开发地热区4个大区。从经济型地热资源考虑,区内地热资源的综合勘查与优先开发的目的层是馆陶组热储和古生代寒武—奥陶纪碳酸盐岩热储。按先易后难、深浅结合的原则,齐—广断裂以北应以勘查开发新近纪馆陶组热水为主;齐—广断裂以南地区,可勘查开发寒武—奥陶纪灰岩热储。 相似文献
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《地下水》2021,(1)
通过对河南省沉积盆地水热型地热资源特征梳理,结合河南省地热地质背景条件和主要热储层水文地质特征,对河南省沉积盆地地热资源特征进行分析。同时选取地热资源可开采量、可采资源模数、单井单位涌水量、热储埋深和热储温度等5个指标,采用主成分分析法建立评估模型,对盆地新生界热储和下古生界热储资源潜力进行评估,并对各构造单元热储层地热资源潜力进行排序。结果可知:(1)河南省沉积盆地水热型地热资源依据热储层时代及储水介质特征,主要分为新近系孔隙热储、古近系裂隙孔隙热储、下古生界岩溶热储,分布在黄淮海平原及山间盆地,为河南省主要地热资源类型,其中以新近系热储层储存的热水量最大。(2)从盆地各构造单元热储分区潜力评估和排序结果来看,河南省地热资源潜力排在前3位的依次为汤阴断陷O-∈热储层、济源-开封凹陷E热储层和通许凸起O-∈热储层。本次研究结果为下一步河南省地热资源勘查开发提供了科学依据。 相似文献
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威水背斜紧邻六盘水市区,具备形成中低温地热资源的有利地热地质条件,潜在地热资源丰富。但因区内地质构造条件复杂,人们对热储构造、类型、地热资源埋藏条件及空间分布特征等认识不够,以致该地区在地热资源开发利用方面尚未取得实质性突破。为研究威水背斜地热赋存规律并进行靶区预测,以前期的实际勘查工作成果为支撑,在对相关勘查资料综合整理和科学分析的基础上,通过对威水背斜地质背景、热源条件、热储构造特征、地热载体及其运移和补给等分析,明确了研究区地热资源类型属受埋深条件控制的板内中低温型,热源主要来自地层自然增温(即地温梯度),地热载体以地下水为主,热储构造类型主要为层状热储类型; 结合已有地热工程施工情况,分析了该工程未能取得预期效果的关键原因,揭示了研究区热储层为泥盆系上统尧梭组、望城坡组和泥盆系中统独山组,根据热储层顶界深度等值线对威水背斜进行了靶区预测,推算可获得的理论保守水温为44.7~59.7 ℃,稳定地热水涌水量不小于500 m3/d,为下一步地热资源勘查与开发工作提供了依据。 相似文献
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《煤田地质与勘探》2021,(2)
为了研究深层地热能开发对热储层流场造成的影响,选取兰考县深层地热能开发为研究对象,分析研究区新生代以来的地质结构和区域构造特征,调查地区地热开采情况及存在的问题。根据地热能类型分析了第四系Q、新近系明化镇组N_2、新近系馆陶组N_1等3个热储层特征,利用可控源音频大地电磁测深查明区内的断裂分布、热储层发育、隔水边界等条件,通过现场试验与测试手段查明不同部位热储层的参数指标,分区计算各层的地热资源量。根据开采方式、边界条件、水文地质参数建立数学模型,通过数值模拟预测出2023年Q热储层流场将恢复到原始流场模式,N_2热储层流场漏斗效应持续减弱,N_1热储层流场漏斗效应明显且分布不规则,为控制地热资源开发对环境造成的影响,提出封闭循环利用地热、同层加压回灌的开采方式及合理布局开采井、综合利用多层地热等措施,为本地及周边地区地热资源开发及环境保护提供参考。 相似文献
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According to the geothermal geological conditions, the geothermal resources in Zibo can be divided into sedimentary basin type and tectonic basin type. The main thermal reservoirs of sedimentary basin type are the Neogene Guantao Formation and the Paleogene Dongying Formation.The thermal reservoirs of tectonic basin type are mainly the Ordovician Majiagou Group. The characteristics of reservoir, cap, pass and source of thermal resource types in different areas are elaborated. Based on the analysis of the well-forming conditions of the existing geothermal wells in the area, combined with the geothermal anomaly areas and hydrogeochemistry, it was discovered that the fault structures in the area, especially the deep faults such as Yuwangshan fault, Wangmushan fault, Zhangdian fault and Chaomizhuang graben, play an important role in controlling the occurrence and distribution of tectonic basin-type geothermal resources in Zibo City. 相似文献
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According to the geothermal geological conditions, the geothermal resources in Zibo can be divided into sedimentary basin type and tectonic basin type. The main thermal reservoirs of sedimentary basin type are the Neogene Guantao Formation and the Paleogene Dongying Formation.The thermal reservoirs of tectonic basin type are mainly the Ordovician Majiagou Group. The characteristics of reservoir, cap, pass and source of thermal resource types in different areas are elaborated. Based on the analysis of the wellforming conditions of the existing geothermal wells in the area, combined with the geothermal anomaly areas and hydrogeochemistry, it was discovered that the fault structures in the area, especially the deep faults such as Yuwangshan fault, Wangmushan fault, Zhangdian fault and Chaomizhuang graben, play an important role in controlling the occurrence and distribution of tectonic basin-type geothermal resources in Zibo City. 相似文献
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Using TOUGH2 numerical simulation to analyse the geothermal formation in Guide basin,China 下载免费PDF全文
The Guide sedimentary basin is located in the northeastern part of Qinghai-Xizang Plateau,which is rich in geothermal resources. However,exploitation of the geothermal resources has so far been limited,because of limited understanding of the resources quantity and storage gained from scientific researches. In this study,using a typical cross section across the basin and taking into account its geothermal and geological conditions,a new water-heat coupled model was built and associated modelling was done by the software TOUGH2. During modelling process,the accuracy and applicability of the model was confirmed through the calibration of relevant parameters for modelling the heat and water transport and the formation of geothermal reservoir across the basin,with particular focus on the Neogene geothermal field. Results show that the groundwater that flows from the basin margins to the center is heated by the Neogene and Paleogene sedimentary rocks with high geothermal gradients. Since the east-west extending fault F1 is conductive,it acts as preferential flow paths which on one hand provide additional and rapid flows to the thermal reservoir; and on the other hand,cool down the thermal water to a certain extent due to the infiltration of shallower water sources in the vicinity of the fault. Furthermore,the estimated geothermal resources quantity is close to that of previous studies. In comparison with the Paleogene rock formations,the Neogene geothermal reservoir shows a better nature in terms of water content,aquifer permeability and resources exploitability,although the resource quantity of the Paleogene reservoir is considerable. 相似文献
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对黑龙江省敦密断裂带镜泊湖段地堑地热资源的研究,旨在为认识大型构造断裂带凹陷地段地热资源的形成规律及其评价提供例证。镜泊湖段地堑呈长条状展布,区域地质构造属郯庐断裂带东北延伸部分。地堑为巨厚的新近系、古近系沉积岩地层,地温梯度较高,约为3.2~4.0 ℃/ hm,埋深2 500 m处的温度为90.8 ℃,单井的单位出水量为54 m3/(d·m),地热地质条件优越。经综合资料和计算数据推测,镜泊湖段地堑为大型地热田;按地热井的地热流体单位出水量及开采适宜性分级评价指标,镜泊湖段地堑属热水量丰富的最适宜开采的地热田。镜泊湖段地堑地热田的发现,对在敦密断裂带、依舒断裂带以及郯庐断裂带寻找地热资源有一定的启示作用。 相似文献
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通过对地质资料的分析,认为该区理论上具有较好的地热生成环境和赋存条件。重点围绕郎邵-葛沟断裂两侧,综合运用地质调查、测温、物探、钻探等手段,对成热地质条件进行调查分析,圈定淳于地热异常区和梁家庄地热异常区2个异常区,分析并初步确定热源为地壳深部的热流,导水导热通道为部邵-葛沟断裂及其次级断裂,热储为深循环对流型带状热储,热储岩性为白垩纪青山群安山岩,埋深1400-2000m,盖层为新近纪、古近纪及白垩纪粘土岩、砂岩等。结合区域地质资料,建立地热资源概念模型,并据此确定了3处拟井位置及孔深。 相似文献
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阜阳地区地热水化学特征及同位素分析 总被引:1,自引:0,他引:1
为研究阜阳地区地热形成机制的控制作用,在分析研究区地热地质条件的基础上,利用已有的勘探井水质资料,对研究区地热水的化学特征进行了分析,得出地热流体在垂向、横向上的分布特征,揭示了太古宇五河群风化壳可以构成热储,其较低的总溶解固体(total dissoloved solids,TDS)不同于区域常见的新近系馆陶组、古近系界首组热储。同时,利用大气降水和地热水的稳定同位素资料,研究得出区内地热水的来源主要为大气降水,大气降水经侧向径流补给和蒸发/浓缩作用形成了高TDS地热流体; 利用地热水放射性同位素资料估算了研究区地热水年龄。通过地热水化学、同位素及控热构造等研究,建立了研究区地热资源形成的概念模型,为该地区地热开发利用提供了指导。 相似文献