Numerical simulation, technical and economic evaluation of air-to-earth heat exchanger coupled to a building

An air-to-earth heat exchanger (ATEHE) consists of pipes buried in soil. We have evaluated the technical and economic performance of an ATEHE coupled to the system for heating or cooling of a building that uses 100% fresh air as heating or cooling medium during winter and summer. The soil is divided into elementary layers. The problem solved, is non stationary; however, steady state-energy equations are used for soil layers in each time step. It is found that the use of the ATEHE covers a portion of the daily building needs for space heating or cooling. The cost of the ATEHE energy is lower for summer than for winter.

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Year of publication:	1997
Authors:	Bojic, M. ; Trifunovic, N. ; Papadakis, G. ; Kyritsis, S.
Published in:	Energy. - Elsevier, ISSN 0360-5442. - Vol. 22.1997, 12, p. 1151-1158
Publisher:	Elsevier

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Type of publication:	Article
Source:	RePEc - Research Papers in Economics

Persistent link: https://www.econbiz.de/10010811209