沉积盆地砂岩热储回灌试验研究——以山东禹城市为例

禹城市为东营组热储地热资源开采利用集中区,因地热资源集中开采及地热尾水的直接外排,造成了水化学污染、热污染及热储层压力下降等一系列地质环境问题。本次在禹城市地热资源开发利用现状调查的基础上,在禹城市栖庭水岸开展地热回灌试验研究,回灌模式为自然同层对井回灌。根据本次回灌试验取得的数据,对回灌量与回灌压力关系、回灌对热储层水质影响、回灌对热储层温度影响规律进行了分析研究并根据拟合回灌量与水位升幅关系曲线计算了最大回灌量。分析结果表明:回灌量随压力的增大而增大,单位回灌量随回灌压力的增大呈减小趋势;回灌井因灌入了矿化度比其自身地热水矿化度高的水源,所以回灌后采集的回灌井地热水矿化度比回灌试验之前高,但因采灌井开采热储层属于同层热储,故回灌对热储层水质影响小;本次试验采灌井间距较大,故回灌对热储层温度无影响;计算确定该回灌井最大回灌量为70 m~3/h。本次回灌试验研究为禹城市地热资源可持续开发利用提供了依据。     

关中盆地沣西地区地热对井采灌开发模式的数值模拟

热储回灌是地热资源可持续利用、避免环境污染的有效措施。在进行地热开发之前科学合理的规划采灌井井位布局,有利于延长地热井的使用年限。关中盆地是新生代拉张性断陷盆地,地热资源开采利用历史悠久。沣西地区位于关中盆地腹地,地下5000m深度范围内有5个含水热储层,自上而下分别为第四系下更新统三门组(600~960m)、新近系上新统张家坡组(960~1920m)、新近系上新统蓝田-灞河组(1920~2900m)、新近系中新统高陵群(2900~3800m)和古近系渐新统白鹿塬组(3800~5000m)。本文依据水文地质、地球物理等资料,建立了研究区三维地质模型,采用有限元模拟软件FEFLOW对目前开采最多的蓝田-灞河组热储层在不同对井采灌开发模式下同层采灌时渗流场及温度场的变化进行了模拟计算。结果表明:1)以30年为系统设计寿命,为确保抽水井和回灌井有水力联系又不发生明显的热突破,抽、灌井井间距以500~600m为宜;2)采灌对井的布置以抽水井位于天然径流流场的上游方向、回灌井位于天然径流流场的下游方向为佳;3)如果设计合理,采灌过程中回灌尾水温度对抽水井出水温度的影响可以得到有效控制;4)恰当实施地热尾水回灌,同时按照实际需求调节抽水井与回灌井的采灌量,可实现地热资源的可持续开采利用。上述结果为合理开发利用研究区地热资源提供了依据。     

Seepage-heat transfer coupling process of low temperature return water injected into geothermal reservoir in carbonate rocks in Xian County,China

Fracture seepage and heat transfer in the geothermal reservoir of carbonate rocks after the reinjection of low temperature geothermal return water is a complex coupling process,which is also the frontier of geothermal production and reinjection research. Based on the research of cascade comprehensive development of geothermal resources in Beijing-Tianjin-Hebei (Xian County),the carbonate geothermal reservoir of Wumishan formation in the geothermal field in Xian County is investigated. With the development of the discrete fracture network model and the coupling model of seepage and heat transfer,the numerical solution of seepage field and temperature field with known fracture network is reached using the finite element software COMSOL,and the coupling process of seepage flow and heat in carbonate rocks is revealed. The results show that the distribution of temperature field of fractured rocks in geothermal reservoir of carbonate rocks has strong non-uniformity and anisotropy. The fracture network is interpenetrated,which constitutes the dominant channel of water conduction,and along which the fissure water moves rapidly. Under the influence of convective heat transfer and conductive heat transfer,one of the main factors to be considered in the study of thermal breakthrough is to make the cold front move forward rapidly. When the reinjection and production process continues for a long time and the temperature of the geothermal reservoir on the pumping side drops to a low level,the temperature of bedrocks is still relatively high and continues to supply heat to the fissure water,so that the temperature of the thermal reservoir on the pumping side will not decrease rapidly to the water temperature at the inlet of reinjection,but will gradually decrease after a long period of time,showing an obvious long tail effect. The distribution of fractures will affect the process of seepage and heat transfer in carbonate reservoirs,which should be considered in the study of fluid thermal coupling in carbonate reservoirs.     

深层地热能开发及其对地热水流场的影响

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N₂、新近系馆陶组N₁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,N₂热储层流场漏斗效应持续减弱,N₁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。      

西安地热田地热弃水回灌数值模拟研究

本文在分析研究西安地热田西南地热开发区的地质构造、热储特征的基础上，首次建立了回灌区地热系统三维数值模型，完成了地热弃水回灌的数值模拟研究，提出地热弃水回灌层位及回灌水量、回灌对热储层渗流场及温度场的影响等。     

The status quo and prospect of geothermal resources exploration and development in Beijing-Tianj in-Hebei region in China

The Beijing-Tianjin-Hebei region boasts rich geothermal resources and new achievements have been made in the exploration and development of geothermal resources in this region based on previous regional investigation. In detail, geothermal reservoirs of Gaoyuzhuang Formation of Jixian System and Changcheng System in Xiongan New Area have been recently discovered, opening up the second space of geothermal resources; the calculation method of the recoverable resources of geothermal fluid with reinjection being considered has been improved in Beijing-Tianjin-Hebei region, and uniform comprehensive assessment of shallow geothermal energy, hydrothermal geothermal resources, and hot dry rocks (HDR) geothermal resources in the whole Beijing-Tianjin-Shijiazhuang region has been completed. The scientific research base for cascade development and utilization of geothermal resources in Beijing-Tianjin-Hebei region has applied hydraulic fracturing technology to the geothermal reservoirs in Gaoyuzhuang Formation. As a result, the production capacity doubled and two-stage cascade utilization composed of geothermal power generation and geothermal heating were realized, with the first-phase installed capacity of 280 kW and the geothermal hearing is 30000 m². In this way, a model of the exploration, development, and utilization of geothermal resources formed. Large-scale utilization has become the future trend of geothermal resource development in Beijing-Tianjin-Hebei region, and great efforts shall be made to achieve breakthroughs in reinjection technology, geothermal reservoir reconstruction technology, thermoelectric technology and underground heat exchange technology.     

地热能可持续开发利用的数值模拟软件OpenGeoSys:原理与应用

地热能规模化利用的可持续开发,通常需要建立数学模型,以实现定量管理和预测。文章评述OpenGeoSys(OGS)数值模拟软件及其在地热资源开发利用过程中的应用算例。OGS是一款基于有限元的免费开源软件,它可处理与地热能开发相关的水流场-温度场-力学场-化学场等多场耦合过程。OGS已应用在国内外多个地热场地,文中着重介绍它在浅层地热能的流体温度变化预测、水热型地热能开发过程中的采灌井距优化、结垢机理和干热岩开发过程中的渗透性演化等方面的应用算例,为地热能的开发提供计算手段和参考。     

Numerical simulation of operation performance on production and injection of a double well geothermal system in Kailu Basin,Inner Mongolia

Inner Mongolia is abundant in geothermal resources, but the development and utilization of medium-depth geothermal resources for clean heating in winter is still in the preliminary stage compared with the neighboring provinces. In this paper, a recently developed geothermal heating system using the Mesozoic sandstone reservoirs in Baokang of Kailu Basin, Eastern Inner Mongolia was investigated, a three-dimensional geological model of a pair of production and injection well was established, and numerical simulations on the long term operation performance were conducted and verified by pumping test and water level recovery test data. The effects of flow rates, the direction of wells, injection temperature and ratios on the flow field and water level in the thermal reservoir were analyzed. The results show that considering a 30-year operation period and a production rate from 90 m³/h to 110 m³/h, the optimum well spacing can be increased from 225 m to 245 m, with an average value of 235 m. With the decrease of the injection temperature, the cold front of the injection water has an increasing influence on the temperature in the production well. A complete injection or the principle of production according to injection is recommended in order to maintain the long-term operation stability. In addition, the location of the injection well should be arranged in the downstream of the natural flow field. The present results can provide a useful guide for the optimum design and performance prediction of geothermal wells, thus maintaining the production and injection balance and promoting the sustainable development and utilization of medium-depth and deep geothermal resources.     

河间潜山地热资源开发方案数值模拟

古潜山地热资源具备岩溶孔隙发育程度高、热储面积厚度大、地热水储量大的优点。冀中坳陷内古潜山分布密集且地热资源丰富, 河间潜山位于冀中坳陷饶阳凹陷中东部, 具有良好的地热地质条件, 开发潜力巨大。本文基于河间潜山及其周缘地区测井资料、岩石热物性并进行了计算, 发现其地温梯度为29.8 ℃/km到44.5 ℃/km之间, 平均值为40.7 ℃/km。大地热流值介于64.8~80.6 mW/m2之间, 平均值为 73.4 mW/m2。通过水热耦合模拟方法模拟选定的地热资源有利区的温度变化, 结果发现河间潜山合理的开采井距为800 m, 合理开采量为60 L/s, 回灌温度为35 ℃, 总可开采量为6.32×1016 J, 单年可开采量为 6.32×1014 J, 可供暖面积为1.22×106 m2, 对于冀中坳陷潜山地热资源的开发利用具有一定的指导意义。     

Clogging mechanism in the process of reinjection of used geothermal water: A simulation research on Xianyang No.2 reinjection well in a super-deep and porous geothermal reservoir

In the process of geothermal exploitation and utilization, the reinjection amount of used geothermal water in super-deep and porous reservoir is small and significantly decreases over time. This has been a worldwide problem, which greatly restricts the exploitation and utilization of geothermal resources. Based on a large amount of experiments and researches, the reinjection research on the tail water of Xianyang No. 2 well, which is carried out by combining the application of hydrogeochemical simulation, clogging mechanism research and the reinjection experiment, has achieved breakthrough results. The clogging mechanism and indoor simulation experiment results show: Factors affecting the tail water reinjection of Xianyang No. 2 well mainly include chemical clogging, suspended solids clogging, gas clogging, microbial clogging and composite clogging, yet the effect of particle migration on clogging has not been found; in the process of reinjection, chemical clogging was mainly caused by carbonates (mainly calcite), silicates (mainly chalcedony), and a small amount of iron minerals, and the clogging aggravated when the temperature rose; suspended solids clogging also aggravated when the temperature rose, which showed that particles formed by chemical reaction had a certain proportion in suspended solids.     

采灌条件下中低温热储温度场动态特征初探

中国四大直辖市之一的天津具有较高地温场背景,地热开采历史长、规模大,回灌式循环开采发展势头喜人。由连续开采多年的地热井井口稳定流温监测数据证实:各储层地热流体温度并没有因长期开采而出现明显变化;而由同一眼基岩回灌井、停灌前后不同时段进行的井温测试结果表明:以比热储温度低得多的原水进行回灌,虽然井管内同一井段不同时期井温有0.1～0.76℃/a的微弱降幅,但主要取水层段在一个停灌周期内的井温则呈逐月恢复势态,数据显示停灌期间回灌井区域基岩热储温度回升迅速,并在下一个回灌期来临之前即可逐渐回复至前年同期的热储原始温度水平。     

东营市城区馆陶组热储回灌性能分析

东营市城区馆陶组热储为新近系松散碎屑岩层状热储,目前地热资源开采量约95万m3/a,回灌是解决热储压力下降与地热尾水排放对环境造成不良影响的最佳措施,该文采用自然回灌试验方法探讨回灌条件下馆陶组热储的渗透性能,并与德州市城区馆陶组热储压力回灌试验成果进行了对比,对该热储的回灌性能进行了分析,为指导该区地热回灌提供了科学依据。     

基于示踪试验及动态数据的北京小汤山地区地热资源量评价

北京市地热资源丰富,开发历史悠久,用户众多。为科学合理评价地热资源潜力,更好地可持续开发利用地热资源。结合实际开采利用情况,充分考虑了回灌的影响,并以小汤山热田详细勘察资料和长序列的监测数据为基础,采用示踪试验和数值计算方法,给出了典型地热井要保持100 a温度不下降可持续开发利用的地热流体资源量为340 m3/h;结合地热流体温度监测数据,发现年均净开采量与年均水位下降成对数相关性,且在保持地热流体温度不发生显著变化的前提下,年均水位下降2.0 m,可以保障的最少年均可开采量为365.1×104m3。结合小汤山热田多年的开发利用资料和经验,提出合理科学可持续的开发利用地热资源,必须坚持“以热定采,以灌定采”模式。     

天津滨海新区地热资源循环利用研究——馆陶组热储回灌技术研究与示范

可持续回灌是地热资源循环采用的基本。本文通过热储敏感性、堵塞原因、成井结构以及地面装置分析了回灌衰减的原因。认为物理堵塞是回灌堵塞的主要原因,成井结构是维持可持续回灌的关键,标准的地面设备可避免由于物理和化学原因引起的堵塞。本文采用成功的成井结构和标准的地面装置开展馆陶组热储回灌地热资源循环采用的示范工程建设,回灌率达到100~123 m3/h,实现了天津滨海新区馆陶组热储回灌突破,保证了滨海新区馆陶组地热资源循环利用。     

采暖尾水回灌对砂岩热储温度的影响——以鲁北地区为例

为保证地热资源可持续开发利用,深入开展回灌工程采灌井合理井距研究、防止短时间内发生热突破是地热领域的重大关切。本文根据全井段测温结果,对砂岩热储不同采灌工程地温场变化特征进行了分析。研究表明：随着回灌年度的增加,冷水范围越来越大,热量对回灌井有效补给路径变长,回灌井热储段温度曲线波动幅度越小;当采灌井距较小、底部温度相对较低时,回灌冷水会对开采井造成影响,致使开采井热储温度降低;在回灌初期热对流在热量恢复中占主导作用,随着回灌年数的增加,冷水范围越来越大,热对流对温度场恢复的作用逐渐减弱,周边和相邻隔水层热传导在温度恢复中的作用越来越显著,温度恢复越来越慢,因此,在规模化回灌条件下,热突破是必然的。     

采暖尾水回灌对砂岩热储地温场的影响 ——以鲁北地区为例

为保证地热资源可持续开发利用,深入开展回灌工程采灌井合理井距研究、防止短时间内发生热突破是地热领域的重大关切。本文根据全井段测温结果,对砂岩热储不同采灌工程地温场变化特征进行了分析。研究表明：随着回灌年度的增加,冷水范围越来越大,热量对回灌井有效补给路径变长,回灌井热储段温度曲线波动幅度越小;当采灌井距较小、底部温度相对较低时,回灌冷水会对开采井造成影响,致使开采井热储温度降低;在回灌初期热对流在热量恢复中占主导作用,随着回灌年数的增加,冷水范围越来越大,热对流对温度场恢复的作用逐渐减弱,周边和相邻隔水层热传导在温度恢复中的作用越来越显著,温度恢复越来越慢,因此,在规模化回灌条件下,热突破是必然的。     

中国沉积盆地型地热资源特征

地热资源作为一种可再生清洁能源,对可持续发展有着重要的意义。本文通过分析中国沉积盆地型地热资源特点,对主要热储层分布进行了论述,并在此基础上对不同热储的水化学特征进行了总结,评价了我国主要沉积盆地型地热资源潜力。沉积盆地型地热资源主要为中低温地热资源,是中国水热型地热资源的主要类型,约占水热型地热资源总量的89%,具有储集空间广、厚度大,地热资源热储类型多、储量大,赋存中低温地热水,资源可利用程度高等特点。沉积盆地型地下热水水化学类型一般由补给区HCO_3-Na型、HCO_3·Cl-Na型等低矿化水,逐渐过渡为Cl·HCO_3-Na型,最终到排泄区或封闭状态下变为Cl-Na型等高矿化水。沉积盆地中热盆地热资源储存量较大,占到主要沉积盆地总储存量的54%,地热资源可开采量占到主要沉积盆地总可开采量的59%,温盆地热资源储存量占到42%,可开采量占到40%,冷盆地热资源储存量仅占到4%,可开采量占到1%。应进一步加强地热资源勘查工作;积极开展地热资源回灌,保证可持续开发利用;推进地热资源梯级综合利用;建立地热资源监测网。     

地热开发利用过程中的环境效应及环境保护

地热能的利用和直接利用与其它能源相比有着经济与环境上的优势。随着地热的开发利用,人们愈来愈注意其对环境的影响。地热开发造成的主要环境影响是地面干扰,地面沉降,噪声,热污染和化学物质的排放。但是这些影响可以通过在地热开发过程中仔细的研究和设计来减到最小。地势回灌技术在很大程度上减小甚至消除了地热能的环境影响,这项技术在当今的地热研究和开发过程中成为越来越主要的技术和任务。     

潍坊市浅层地热能资源调查及开发利用研究

潍坊市浅层地热能资源丰富,调查区内浅层地热热容量可折合标准煤1355．28万t,利用范围较广。该文对资源开发利用中存在的勘查论证不充分,开发过程和开发方式不合理等问题提出了合理建议,为综合开发利用该资源,改善环境,建设可持续发展社会提供理论参考。     

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