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Application of aquifer energy storage technology

Risk analysis of High-Temperature Aquifer Thermal Energy Storage

The storage of heat in aquifers, also referred to as Aquifer Thermal Energy Storage (ATES), bears a high potential to bridge the seasonal gap between periods of highest thermal energy demand and

Aquifer Thermal Energy Storage (ATES) systems

3 IF Technology BV by EDF and KIT - current global practical experience High-Temperature Aquifer Thermal Energy Storage (HT-ATES) P., Godschalk, B., Stober, I., Blum, P. (2019): Worldwide application of aquifer thermal energy storage –A review. Renew Sustain. Energy Rev. 94, 861–876 (2018). doi: 10.1016/j.rser.2018.06.057

Worldwide application of aquifer thermal energy storage – A

(DOI: 10.1016/J.RSER.2018.06.057) To meet the global climate change mitigation targets, more attention has to be paid to the decarbonization of the heating and cooling sector. Aquifer Thermal Energy Storage (ATES) is considered to bridge the gap between periods of highest energy demand and highest energy supply. The objective of this study therefore is

The use of aquifers as thermal energy storage (TES) systems

Worldwide application of aquifer thermal energy storage – A review. P. Fleuchaus B. Godschalk I. Stober P. Blum. Environmental Science, Engineering. (Aquifer Thermal Energy Storage) technology for the seasonal storage of heat and cold in shallow aquifers in Expand. PDF. Save.

Integrated suitability, vulnerability and sustainability indicators for

The global potential evaluation results display where the aquifer thermal energy storage technology is likely to be, or has potential to apply. are expected to promote the application of

Roles of thermal energy storage technology for carbon neutrality

In order to achieve global carbon neutrality in the middle of the 21st century, efficient utilization of fossil fuels is highly desired in diverse energy utilization sectors such as industry, transportation, building as well as life science. In the energy utilization infrastructure, about 75% of the fossil fuel consumption is used to provide and maintain heat, leading to more

Worldwide application of aquifer thermal energy storage – A

To meet the global climate change mitigation targets, more attention has to be paid to the decarbonization of the heating and cooling sector. Aquifer Thermal Energy Storage (ATES) is considered to bridge the gap between periods of highest energy demand and highest energy supply. The objective of this study therefore is to review the global application status of ATES

Worldwide application of aquifer thermal energy storage – A

Policies for aquifer thermal energy storage: international

Aquifer thermal energy storage (ATES) represents a promising solution for heating and cooling, offering lower greenhouse gas emissions and primary energy consumption than conventional technologies. Despite these benefits and the widespread availability of suitable aquifers, ATES has yet to see widespread utilisation, with uptake highly concentrated in select

Energy storage systems: a review

Schematic diagram of aquifer thermal energy storage system. During the summer, groundwater from cold well is extracted for cooling purposes and residual warm water is injected back into the hot well for recharging the warm storage. The first application of combined heating and cooling ATES was started at the Scarborough Centre building of

Performance analysis of Aquifer Thermal Energy Storage (ATES)

The objective of the current study is to assess the technical performance of Aquifer Thermal Energy Storage (ATES) based on the monitoring data from 73 Dutch ATES systems.With a total abstraction of 30.4 GWh heat and 31.8 GWh cold per year, the average annual amount of supplied thermal energy was measured as 932.8 MWh. The data analysis

Worldwide application of aquifer thermal energy storage – A

Acta Hortic 2008;801:819–26. [250] Turgut B, Dasgan HY, Abak K, Paksoy H, Evliya H, Bozdag S. Aquifer thermal energy storage application in greenhouse climatization. Acta Hortic 2009;807:143–8. [251] Wong B, McClung L, Snijders A, McClenahan D, Thornton J. The application of Aquifer Thermal Energy Storage in the Canadian greenhouse industry.

Assessing the sustainable application of Aquifer Thermal Energy Storage

Aquifer Thermal Energy Storage (ATES) is a building technology used to seasonally store thermal energy in the subsurface, which can reduce the energy use of larger buildings by more than half.

Aquifer Thermal Energy Storage

LARGE-SCALE ANNUAL-CYCLE THERMAL ENERGY STORAGE IN AQUIFERS. C.F. Meyer, in Energy Storage, 1980 CONCLUSIONS. Aquifer thermal energy storage is a technology whose time has come. It inherently is most suitable for large-scale application, because the loss per unit of heat stored depends on the ratio of the surface area of the hot water to its volume.

Integrated suitability, vulnerability and sustainability indicators for

As carbon dioxide emissions and resource depletion become increasingly severe, the technology of aquifer thermal energy storage (ATES) has become a hotspot and urgent topic and the determination of technological potential on a global scale is the basis for effective technology application. Such a new potential evaluation paradigm and its

Chapter 4 Aquifer Thermal Energy Storage

storage system is equivalent to the amount of energy injected into an aquifer (e.g., energy injected to the aquifer while cooling a building) divided by the amount of energy taken from an aquifer (e.g., energy rejected from the aquifer using a ﬂuid cooler to passively refrigerate the aquifer during cold spells). It should be calcu-

Performance analysis of Aquifer Thermal Energy Storage (ATES)

Semantic Scholar extracted view of "Performance analysis of Aquifer Thermal Energy Storage (ATES)" by P. Fleuchaus et al. combined with ground-source heat pumps (GSHP) offer an attractive technology to match supply and demand by efficiently recycling heating and cooling loads. Worldwide application of aquifer thermal energy storage

Delft University of Technology Assessing the sustainable

4 Delft Center for Systems and Control, Delft University of Technology, Mekelweg 2, 2628 CD Delft, The Netherlands M.Jaxa-Rozen@tudelft Keywords: Aquifer Thermal Energy Storage, multi-objective optimization, robust decision making. ABSTRACT Aquifer Thermal Energy Storage (ATES) can yield significant reductions in the energy use and

ATES – Aquifer Thermal Energy Storage

ATES is an innovative open-loop geothermal technology. It relies on seasonal storage of cold and/or warm groundwater in an aquifer. The technology was developed in Europe over 20 years ago and is now in use at over 1,000 sites, mostly in The Netherlands and Scandinavia.

Estimation of Recovery Efficiency in High‐Temperature Aquifer

4 天之前· The intermittent availability of renewable energies and the seasonal fluctuations of energy demands make the requests for energy storage systems. High-temperature aquifer

Aquifer Thermal Energy Storage | SpringerLink

The storage efficiency of a cold storage system is equivalent to the amount of energy injected into an aquifer (e.g., energy injected to the aquifer while cooling a building) divided by the amount of energy taken from an aquifer (e.g., energy rejected from the aquifer using a fluid cooler to passively refrigerate the aquifer during cold spells).

Great Potential for Aquifer Thermal Energy Storage Systems

Aquifer thermal energy storage systems can largely contribute to climate-friendly heating and cooling of buildings: Heated water is stored in the underground and pumped up, if needed. Researchers of Karlsruhe Institute of Technology (KIT) have now found that low-temperature aquifer thermal energy storage is of great potential in Germany.

Worldwide application of aquifer thermal energy storage – A

DOI: 10.1016/J.RSER.2018.06.057 Corpus ID: 115368924; Worldwide application of aquifer thermal energy storage – A review @article{Fleuchaus2018WorldwideAO, title={Worldwide application of aquifer thermal energy storage – A review}, author={Paul Fleuchaus and Bas Godschalk and Ingrid Stober and Philipp Blum}, journal={Renewable and Sustainable Energy

Risk analysis of High-Temperature Aquifer Thermal Energy Storage

DOI: 10.1016/j.rser.2020.110153 Corpus ID: 224925054; Risk analysis of High-Temperature Aquifer Thermal Energy Storage (HT-ATES) @article{Fleuchaus2020RiskAO, title={Risk analysis of High-Temperature Aquifer Thermal Energy Storage (HT-ATES)}, author={Paul Fleuchaus and Simon Sch{"u}ppler and Martin Bloemendal and Luca Guglielmetti and Oliver Opel and

Development status and prospect of underground thermal energy storage

Zhang Y, Xue YQ, Xie CH, et al. 1999b. Flow equation with temperature variation and its applications in the aquifer thermal energy storage model. Geological Review, 45: 209−217. (in Chinese) DOI: 10.16509/j.georeview.1999.02.022. Zhang YY, Ye CT, Gong YL, et al. 2021b. Review and prospect of underground thermal energy storage technology.

Performance analysis of Aquifer Thermal Energy Storage (ATES)

The objective of the current study is to assess the technical performance of Aquifer Thermal Energy Storage (ATES) based on the monitoring data from 73 Dutch ATES systems. With a total abstraction of 30.4 GWh heat and 31.8 GWh cold per year, the average annual amount of supplied thermal energy was measured as 932.8 MWh.

Aquifer Thermal Energy Storage in the Netherlands: A Review

With the worlds energy problems still far from being solved, it is commonly agreed upon, that storing energy is a vital part of any possible solution. When discussing the storage, the type of energies must be distinguished. The storage of thermal energy can be accomplished by several means. One of this means is the storing of the thermal energy in naturally occurring water

Great potential for aquifer thermal energy storage systems

Aquifer thermal energy storage systems can largely contribute to climate-friendly heating and cooling of buildings: Heated water is stored in the underground and pumped up, if needed. Researchers

Application of aquifer energy storage technology [PDF]

6 FAQs about [Application of aquifer energy storage technology]

What is aquifer thermal energy storage?

Aquifer Thermal Energy Storage (ATES) is considered to bridge the gap between periods of highest energy demand and highest energy supply. The objective of this study therefore is to review the global application status of ATES underpinned by operational statistics from existing projects.

How is a aquifer used to transfer thermal energy?

Goundwater is used to transfer the thermal energy into and out of an aquifer in ATES systems. ATES systems utilize aquifers for the storage of low-grade thermal energy such as solar heat or waste heat during off-peak periods. The low-grade energy is used to heat or chill water which is injected into an aquifer for storage.

What is sensible aquifer thermal energy storage (ATES)?

In open-loop systems, also referred to as Aquifer Thermal Energy Storage (ATES), sensible heat and cold is temporarily stored in the subsurface through injection and withdrawal of groundwater , , . Fig. 1. Seasonal sensible UTES techniques.

How does a aquifer system work?

ATES systems utilize aquifers for the storage of low-grade thermal energy such as solar heat or waste heat during off-peak periods. The low-grade energy is used to heat or chill water which is injected into an aquifer for storage. Later, the water is withdrawn for space heating or cooling during a period of high demand.

Is high-temperature aquifer thermal energy storage sustainable?

A review within ECES Annex 12 of the International Energy Agency IEA. Giessener Geologische Schriften 67; 1999. Drijver B, van Aarssen M, Zwart B. de. High-temperature aquifer thermal energy storage (HT-ATES): sustainable and multi-usable. Innostock. In: Proceedings of the 12th international conference on energy storage, Lleida, Spain.

What are aquifers used for?

Being necessary for the implementation of ATES, aquifers are underground, water-yielding geological formations, either unconsolidated or consolidated. Two hydraulically-coupled wells are normally used to separate water supply from storage. Aquifers can be discharged effectively through production wells to meet large cooling and heating demands.

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