地下含水层

利用地下含水层储存天然气应考虑的问题

Critical technical problems of using underground aquifer to store natural gas

本文介绍了上海地下含水层储能试验，在全市建立十四个储能试验场，布设储冷井25口，储热井9口，观测井58口。

The paper introduces the experiments energy storage in aquifer in Shanghai .

地下含水层热储井位置选择和布置

Choice and arrangement of aquifer thermal energy storage well 's position

中国地下含水层储能技术及其发展

Aquifer Thermal Energy Storage Technology and Its Development in China

地下含水层中污染物生物降解的机制和数值模拟

The mechanism study and numerical simulation of biodegradation in aquifer

主要的地下含水层正被开采作为城市生活和工业用水。

Major groundwater aquifers are being mined for urban and industrial use .

地下含水层储能系统的火用分析

Exergy Analysis on Underground Aquifer Energy Thermal Storage System

储能地下含水层两阶段流动换热模型分析

Analysis on a model of sequential thermal transmission for aquifer thermal energy storage

滨海地下含水层的海水侵入分析

Underground a study on seawater intrusion of coastal aquifer

地下含水层同层储能应用中储能井布置方法研究

Study on the Method for Arrangement of Same Aquifer Thermal Energy Storage Wells

地下含水层储能和地下水源热泵系统中地下水回路与回灌技术现状

Development of ground water loop for ATES and ground water source heat pump systems

有机污染物一旦进入地下含水层中就很难去除，并且会对环境质量和人类健康造成很大威胁，同时也加剧了水资源的危机。

Once organic contaminants enter groundwater , it is very difficult to remove them away .

用于大规模区域供冷的地下含水层输运海洋冷量技术模拟

Simulation of technology for transferring cooling capacity of the sea though an underground aquifer for large-scale district cooling

其他的可能性包括地下含水层，在冬季结冰，到夏季融化，渗入地表。

The other possibility is underground aquifers , frozen during winter , melting during summer and seeping to the surface .

探讨了地下含水层储能系统回灌期输入地下含水层的能量、火用及抽水期从地下含水层回收的能量、火用的计算公式。

Energy and exergy calculation equations of underground aquifer energy thermal storage system during reinjection period and pumping period are discussed .

地下含水层储能已成为一项在世界上较为知名的储能技术。

Aquifer thermal energy storage ( ATES ) has become a relatively well-known energy storage technology in many parts of the world .

该文应用数值模拟的方法对不同井对间距条件下地下含水层采能区温度场的演化进行了定量模拟，并对地温场的演化规律与井对距离之间的关系进行了理论分析。

A numerical model was developed to quantitatively simulate the changes of geo-temperature field due to energy extraction with various well distance .

模型有调蓄地面水源、土壤贮水层、地下含水层的能力。

The model is able to adjust the surface water , the water in the soil moisture belt and the aquifer cooperatively .

指出解决地下水回灌的堵塞问题是地下含水层储能和地下水源热泵技术得以发展的关键。

Points out that solving clogging problem during ground water injection is the key to developing ATES and ground water source heat pumps .

垃圾渗滤液污染地下含水层及修复过程的动态监测技术研究

Study of Monitoring the Change of Polluted Area in Underground Aquifers Being Polluted by Leachate of Landfill and Renovating Process with 3-D Electrical Method

地下含水层储能技术具有节能和环保的重要意义，因而它具有广阔的应用前景。

The aquifer thermal-energy storage technology is of great importance to energy saving and environmental protection and will find wide application in the future .

地下含水层储能技术的应用条件及其关键科学问题地下含水层储能和地下水源热泵系统中地下水回路与回灌技术现状

Conditions for the application of aquifer energy storage and related crucial problems Development of ground water loop for ATES and ground water source heat pump systems

早在60年代末，上海利用地下含水层冬季贮存冷水，夏季抽用；

Early since the end of 1960s cold water has started to be stored in winter for summer use and warm water in summer for winter uge .

在孟加拉三角洲的地下含水层中，微生物参与了将砷从固相迁移到水相的关键步骤，最终导致了地下水中的砷污染。

In Bengal delta plain subsurface aquifers , these microbial reactions may mobilize arsenic from the solid phase into the aqueous phase , resulting in contaminated underground water .

春季开采浅层地下水包括微咸水和半咸水抗旱灌溉，腾出地下含水层空间；

It is necessary to exploit shallow groundwater including brackish water and semi-saline water for irrigation to combat drought , then vacating the space of aquifer in underground ;

实验结果对于实现垃圾渗滤液污染地下含水层现状调查及动态监测具有重要意义。

The experimental results bear great significance in investigating present situations of underground aquifers polluted by landfill leachate as well as in dynamic monitoring the polluting and renovating process .

流域水空间是与径流密切相关、直接受洪水波及的地表以及此范围内地下含水层系统所共同占据的空间。

The space for water is composed of spaces of many media related to water , such as forest , wetland , flood plain , soil and underground media contained water .

在煤炭资源的开采过程中，地下含水层的结构被人为破坏，水循环规律发生变化，水化学场失衡，导致了城市水环境变化。

In the process of coal resources mining , the aquifer structure is destroyed , the change of hydrologic cycle regular occurs , and the hydrochemistry fields have a lack of balance .

这个奥巴里沙海中的湖被适于在高盐度水中生存的藻类染成了深红色，水源来自远古雨水形成的地下含水层的泉水。

Colored deep red by algae adapted to survive in its hypersaline waters , this lake in the Ubari Sand Sea is fed by springs from an underground aquifer created by ancient rains .

地下含水层由于得到地表水、小窑水的充足补给，径流途径缩短等原因而加强对矿井的充水作用。

Because of the aquifer of attaining adequate water supply from surface water and water inrush from the small coal mines , reduced runoff and other reasons , the water filling function is reinforced .