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Publikationstyp
Wissenschaftlicher Artikel
Erscheinungsjahr
2018
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Environmental Impact by Hydrogeothermal Energy Generation in Low-Enthalpy Regions

Herausgeber
Quelle
Renewable energy
128 (2018), (Seiten 509-519)
Schlagwörter
Klimaschutz, Energiepolitik, Erneuerbare Energie, Erdwärme, Umweltauswirkung
Zitation
LOHSE, Christiane, 2018. Environmental Impact by Hydrogeothermal Energy Generation in Low-Enthalpy Regions. Renewable energy [online]. 2018. Bd. 128 (2018), (Seiten 509-519). DOI 10.60810/openumwelt-1441. Verfügbar unter: https://openumwelt.de/handle/123456789/6574
Zusammenfassung englisch
In view of the climate crisis, the development and the path of growth and expansion of renewable energy systems is an urgent task, but must carried out with great care on environmental compatibility and protection. Renewable energy supply systems that are suitable for grid-bound heat supply, particularly in urban areas in Europe, are geothermal binary plants that provide power as well as power and heat. This paper will present studies whose objective was the assessment of hydrogeothermal power and heat generation in low-enthalpy regions from the environmental standpoint. The German Environment Agency published results of a network of studies conducted between 2008 and 2016 on the analysis of detailed and comprehensive environmental impacts of the geothermal energy generation in Germany and has continuously evaluated these findings. In this article, the results of the Life Cycle Assessment are discussed, taking into account all effects and material flows within the entire life cycle. Based on these balances, differing geothermal systems are compared to each other and to other renewable and fossil energy generation systems in order to assess the ecological advantages and disadvantages of these systems. Taking into account local environmental impacts as well a comprehensive ecologic evaluation of potential environmental and human health impacts becomes possible. The paper presents the results of a) the mass and energy fluxes of the process chain along the life cycle, and b) the local environmental impacts along the life cycle with regard to the environmental indicators of these cases. The focus is on the impact of site and plant parameters. Concluding, it can be summarised that geothermal power and heat generation is a very low-carbon technology and can contribute to a sustainable energy supply. Hydrogeothermal plants show a significantly low surface consumption, and environmental impacts are only locally relevant and technically controllable. Through the development of optimised overall concepts, geothermal based power and heat generation can achieve minimal environmental impacts in all areas. The combined heat and power generation from geothermal resources is by far the most environmentally and climate-friendly energy supply compared to all other regenerative and fossil systems. © 2017 Elsevier Ltd.