Geochemical Characterization of the Lower Jurassic Aquifer in Berlin (Germany) for Aquifer Thermal Energy Storage Applications
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TL;DR: In this article, the potential seasonal storage of 90°C hot water in a Lower Jurassic aquifer (Lower Sinemurian/ Hettangian stages) in the city of Berlin, Germany, is characterized and evaluated to determine possible sources of mineral precipitation resulting in aquifer damage (clogging).
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About: This article is published in Energy Procedia. The article was published on 01 Jan 2014. and is currently open access. The article focuses on the topics: Aquifer & Artesian aquifer.
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Citations
Impact of drilling mud on chemistry and microbiology of an Upper Triassic groundwater after drilling and testing an exploration well for aquifer thermal energy storage in Berlin (Germany)
Simona Regenspurg,Mashal Alawi,Guido Blöcher,Maria Börger,Stefan Kranz,Ben Norden,Ali Saadat,Traugott Scheytt,Lioba Virchow,Andrea Vieth-Hillebrand +9 more
TL;DR: In this paper, sandstones of the Exter Formation were hydraulically tested to determine the hydraulic properties and to evaluate chemical and microbial processes caused by drilling and water production, which revealed a hydraulic conductivity of 1-2 E-5m/s of the reservoir, resulting in a productivity index of 0.6-1m3/h/bar.
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The impact of temperature and oxygen on water-rock interactions in siliciclastic rocks and implications for aquifer thermal energy storage systems
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- 01 Jan 2018
TL;DR: In this article, the efficiency and reliability of energy systems in urban districts with seasonal energy storage in aquifers were investigated. But the authors focused on the reliability and efficiency of the system.
The element-release mechanisms of two pyrite-bearing siliciclastic rocks from the North German Basin at temperatures up to 90 °C under oxic and anoxic conditions
TL;DR: In this paper, the release mechanisms of the mobile elements Al, As, Ba, Ca, Cu, Fe, Ni, and Pb were studied and explained by means of numerical simulations of the leaching tests.
Reactive transport modeling of the Aquifer Thermal Energy Storage (ATES) system at Stockton University, New Jersey during seasonal operations
Ram Kumar,Eric L. Sonnenthal,J. T. Smith,Peter S. Nico,Patrick F. Dobson +4 more
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