THE THERMAL ENVIRONMENT AND ENERGY CONSUMPTION OF THE INDOOR OF A LIGHT-GAUGE STEEL FRAMED RESIDENTIAL HOUSE WITH EXTERNAL THERMAL INSULATION STRUCTURE : (Part 2) Evaluation in a temperate region and the potential for further energy savings

Based on the actual measurement results covering a period of approximately twenty-seven months, we have clarified the indoor thermal environment and energy consumption characteristics of a well-insulated and airtight residential house, located in a temperate region. We have also made clear the poten...

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Veröffentlicht in:	Journal of Environmental Engineering (Transactions of AIJ) 2005/10/30, Vol.70(596), pp.7-14
Hauptverfasser:	MURAHASHI, Yoshimitsu, SUZUKI, Kenzo, TONOOKA, Yutaka, SAKUMOTO, Yoshifumi
Format:	Artikel
Sprache:	jpn
Schlagworte:	Energy consumption External thermal insulation Indoor thermal environment Steel framed house
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container_title	Journal of Environmental Engineering (Transactions of AIJ)
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creator	MURAHASHI, Yoshimitsu SUZUKI, Kenzo TONOOKA, Yutaka SAKUMOTO, Yoshifumi
description	Based on the actual measurement results covering a period of approximately twenty-seven months, we have clarified the indoor thermal environment and energy consumption characteristics of a well-insulated and airtight residential house, located in a temperate region. We have also made clear the potential for further energy savings. The key points are as follows: (1) Heating starts when the daily average outdoor temperature falls to 15℃ or lower, and measured values for the coefficient of heat loss and energy consumption efficiency, heating of the house, were similar to the original specifications. (2) When the daily average outdoor temperature ranges from 15 to 25℃, neither heating nor cooling is required. (3) Cooling starts when the daily average outdoor temperature exceeds 25℃ and the energy consumption for it can be kept low even in fierce heat. (4) For further energy saving, it is important to optimize the air-conditioner capacity according to air-conditioning load. At the same time, in a temperate region where humidity is high in summer, the selection of optimum dehumidifying methods is important.
doi_str_mv	10.3130/aije.70.7_3
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language	jpn
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source	J-STAGE Free
subjects	Energy consumption External thermal insulation Indoor thermal environment Steel framed house
title	THE THERMAL ENVIRONMENT AND ENERGY CONSUMPTION OF THE INDOOR OF A LIGHT-GAUGE STEEL FRAMED RESIDENTIAL HOUSE WITH EXTERNAL THERMAL INSULATION STRUCTURE : (Part 2) Evaluation in a temperate region and the potential for further energy savings
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