Stefan Jäger, Dr. Hursit Ibuk, Dr. Karsten Beckhaus
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Geothermally activated mixed-in-place walls as permanent components of a sustainable energy system: case history
Geothermal activation of geotechnical construction elements facilitates the storage of renewable energy. During summer, solar energy is captured, stored underground, and subsequently utilized for winter building heating. In addition, the sustainable approach by using the mixed-in-place (MIP) method reduces carbon emissions and transportation burdens already during construction phase. The method‘s granular interlocking ensures efficient heat transfer to geothermal probes. Integrating geothermal activation right from the planning phase into building technology enables seamless incorporation. The synergy of geothermal activation and the MIP technique not only cultivates eco-friendly building concepts but also mitigates environmental impact across the entirety of a building‘s lifecycle. Geothermal activation and MIP can be applied to large-scale infrastructure projects, enhancing sustainability.
期刊介绍:
Die Zeitschrift "geotechnik" ist das Organ der Deutschen Gesellschaft für Geotechnik e.V (DGGT) und erscheint viermal jährlich. Die Themen- schwerpunkte entsprechen den Fachsektionen der DGGT und umfassen Bodenmechanik, Erd- und Grundbau, Felsmechanik, Ingenieurgeologie, Geokunststoffe sowie Umweltgeotechnik. Die Schwerpunkte einer Ausgabe werden jeweils von einer Fachsektion gestellt und auch um Beiträge aus anderen Themenbereichen ergänzt. Mitteilungen der DGGT, CBTR-Nachrichten des Centrums für Deutsches und Internationales Baugrund- und Tiefbaurecht e.V., Nachrichten aus der Industrie.