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How to achieve optimal and sustainable use of the subsurface for Aquifer Thermal Energy Storage

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  • Bloemendal, Martin
  • Olsthoorn, Theo
  • Boons, Frank

Abstract

A heat pump combined with Aquifer Thermal Energy Storage (ATES) has high potential in efficiently and sustainably providing thermal energy for space heating and cooling. This makes the subsurface, including its groundwater, of crucial importance for primary energy savings. The regulation of ATES systems is similar in many countries around the world. This paper seeks solutions for the institutional hindrances to the diffusion of ATES. The use of aquifers by individual ATES systems can be optimized to maximize their efficiency on the one hand, and to optimize the performance of the regional subsurface for energy storage on the other. The application of ATES in an aquifer has similar properties as other common resource pool problems. Only with detailed information and feedback about the actual subsurface status, a network of ATES systems can work towards an optimum for both the subsurface and buildings, instead of striving for a local optimum for individual buildings. Future governance of the subsurface may include the self-organization or self-governance. For that the ATES systems need a complementary framework; interpretation of interaction, feedback and adaptable and dynamic control interpretations are the key elements for the optimal and sustainable use of the subsurface.

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  • Bloemendal, Martin & Olsthoorn, Theo & Boons, Frank, 2014. "How to achieve optimal and sustainable use of the subsurface for Aquifer Thermal Energy Storage," Energy Policy, Elsevier, vol. 66(C), pages 104-114.
    • Handle: RePEc:eee:enepol:v:66:y:2014:i:c:p:104-114
    DOI: 10.1016/j.enpol.2013.11.034
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    1. Fleuchaus, Paul & Schüppler, Simon & Godschalk, Bas & Bakema, Guido & Blum, Philipp, 2020. "Performance analysis of Aquifer Thermal Energy Storage (ATES)," Renewable Energy, Elsevier, vol. 146(C), pages 1536-1548.
    2. Daniilidis, Alexandros & Mindel, Julian E. & De Oliveira Filho, Fleury & Guglielmetti, Luca, 2022. "Techno-economic assessment and operational CO2 emissions of High-Temperature Aquifer Thermal Energy Storage (HT-ATES) using demand-driven and subsurface-constrained dimensioning," Energy, Elsevier, vol. 249(C).
    3. Manon Bulté & Thierry Duren & Olivier Bouhon & Estelle Petitclerc & Mathieu Agniel & Alain Dassargues, 2021. "Numerical Modeling of the Interference of Thermally Unbalanced Aquifer Thermal Energy Storage Systems in Brussels (Belgium)," Energies, MDPI, vol. 14(19), pages 1-17, September.
    4. Beernink, Stijn & Bloemendal, Martin & Kleinlugtenbelt, Rob & Hartog, Niels, 2022. "Maximizing the use of aquifer thermal energy storage systems in urban areas: effects on individual system primary energy use and overall GHG emissions," Applied Energy, Elsevier, vol. 311(C).
    5. Stemmle, Ruben & Blum, Philipp & Schüppler, Simon & Fleuchaus, Paul & Limoges, Melissa & Bayer, Peter & Menberg, Kathrin, 2021. "Environmental impacts of aquifer thermal energy storage (ATES)," Renewable and Sustainable Energy Reviews, Elsevier, vol. 151(C).
    6. Bloemendal, Martin & Jaxa-Rozen, Marc & Olsthoorn, Theo, 2018. "Methods for planning of ATES systems," Applied Energy, Elsevier, vol. 216(C), pages 534-557.
    7. Walker, Shalika & Katic, Katarina & Maassen, Wim & Zeiler, Wim, 2019. "Multi-criteria feasibility assessment of cost-optimized alternatives to comply with heating demand of existing office buildings – A case study," Energy, Elsevier, vol. 187(C).
    8. Lu, Hongwei & Tian, Peipei & He, Li, 2019. "Evaluating the global potential of aquifer thermal energy storage and determining the potential worldwide hotspots driven by socio-economic, geo-hydrologic and climatic conditions," Renewable and Sustainable Energy Reviews, Elsevier, vol. 112(C), pages 788-796.
    9. De Schepper, Guillaume & Paulus, Claire & Bolly, Pierre-Yves & Hermans, Thomas & Lesparre, Nolwenn & Robert, Tanguy, 2019. "Assessment of short-term aquifer thermal energy storage for demand-side management perspectives: Experimental and numerical developments," Applied Energy, Elsevier, vol. 242(C), pages 534-546.
    10. Golmohamadi, Hessam & Larsen, Kim Guldstrand & Jensen, Peter Gjøl & Hasrat, Imran Riaz, 2022. "Integration of flexibility potentials of district heating systems into electricity markets: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 159(C).
    11. Pophillat, William & Attard, Guillaume & Bayer, Peter & Hecht-Méndez, Jozsef & Blum, Philipp, 2020. "Analytical solutions for predicting thermal plumes of groundwater heat pump systems," Renewable Energy, Elsevier, vol. 147(P2), pages 2696-2707.
    12. Willems, C.J.L. & M. Nick, H., 2019. "Towards optimisation of geothermal heat recovery: An example from the West Netherlands Basin," Applied Energy, Elsevier, vol. 247(C), pages 582-593.
    13. Marco Pellegrini & Augusto Bianchini, 2018. "The Innovative Concept of Cold District Heating Networks: A Literature Review," Energies, MDPI, vol. 11(1), pages 1-16, January.
    14. Jewon Oh & Daisuke Sumiyoshi & Masatoshi Nishioka & Hyunbae Kim, 2021. "Efficient Operation Method of Aquifer Thermal Energy Storage System Using Demand Response," Energies, MDPI, vol. 14(11), pages 1-18, May.
    15. Fleuchaus, Paul & Godschalk, Bas & Stober, Ingrid & Blum, Philipp, 2018. "Worldwide application of aquifer thermal energy storage – A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 94(C), pages 861-876.
    16. Linri Cui & Masatoshi Nishioka & Masaki Nakao & Kenji Ueda, 2024. "Examination of Operational Methods for a Low-Temperature Aquifer Thermal Storage Air Conditioning System Based on Operational Performance and Considerations of Thermal Storage and Pumping Volume Balan," Energies, MDPI, vol. 17(11), pages 1-23, May.
    17. Lu, Hongwei & Tian, Peipei & Guan, Yanlong & Yu, Sen, 2019. "Integrated suitability, vulnerability and sustainability indicators for assessing the global potential of aquifer thermal energy storage," Applied Energy, Elsevier, vol. 239(C), pages 747-756.
    18. Guelpa, Elisa & Verda, Vittorio, 2019. "Thermal energy storage in district heating and cooling systems: A review," Applied Energy, Elsevier, vol. 252(C), pages 1-1.
    19. Alcaraz, Mar & García-Gil, Alejandro & Vázquez-Suñé, Enric & Velasco, Violeta, 2016. "Use rights markets for shallow geothermal energy management," Applied Energy, Elsevier, vol. 172(C), pages 34-46.
    20. Bozkaya, Basar & Zeiler, Wim, 2020. "The energy efficient use of an air handling unit for balancing an aquifer thermal energy storage system," Renewable Energy, Elsevier, vol. 146(C), pages 1932-1942.
    21. Rostampour, Vahab & Jaxa-Rozen, Marc & Bloemendal, Martin & Kwakkel, Jan & Keviczky, Tamás, 2019. "Aquifer Thermal Energy Storage (ATES) smart grids: Large-scale seasonal energy storage as a distributed energy management solution," Applied Energy, Elsevier, vol. 242(C), pages 624-639.
    22. Taha Sezer & Abubakar Kawuwa Sani & Rao Martand Singh & Liang Cui, 2023. "Numerical Investigation and Optimization of a District-Scale Groundwater Heat Pump System," Energies, MDPI, vol. 16(20), pages 1-25, October.

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