日本地熱学会誌
Online ISSN : 1883-5775
Print ISSN : 0388-6735
ISSN-L : 0388-6735
大地の熱的機能を利用する融雪設備設計のための数値シミュレーションによる検討
システムの基本設計と運転特性の予測
盛田 耕二田子 真馬渡 慎吾
著者情報
ジャーナル フリー

2003 年 25 巻 2 号 p. 139-153

詳細
抄録

The authors have developed the Gaia Snow-Melting System which utilizes the ground as a heat source and a heat storage body. This system consists of Downhole Coaxial Heat Exchangers (DCHEs) developed by the authors, a heat pump and heating pipes embedded in a pavement. In this system, the geothermal heat in the shallow ground and solar heat stored in the ground over the summer are used for melting snow. The authors have carried out numerical simulations of the Gaia Snow-Melting system for designing a system for a sidewalk in Aomori City. Two systems are planned for a total of 663 m2, and each system covers 331.5 m2. The heat flux to be supplied to heating pipes is 170 W/m2. The major results obtained in this study are as follows: Four DCHEs, each 151.4 m long, and a heat pump driven by three electric motors with a total capacity of 22.5 kW are required for each system. The heat pump selected for the snow-melting system has sufficient heating capacity. The average specific heat extraction rate of the DCHE and the average COP of the heat pump over a snow-melting season were estimated to be 72.5 W/m and 5.2, respectively. In this case, the critical factor in deciding the minimum number or total length of the DCHEs was the lowest allowable operation temperature or design temperature of the heat pump, specifically the lowest antifreeze temperature at the outlet of the evaporator. Also, it was suggested that the storage of summer time solar heat in the ground is useful for reducing the required number or total length of the DCHEs, hence lower construction costs. The predicted heating capacity of the heat pump changed significantly, in the range between 56.9 kW and 105.1 kW, in a snow-melting season. This indicates that predicting the operational behavior of the system by numerical simulation is essential in selecting an appropriate heat pump

著者関連情報
© 日本地熱学会
前の記事
feedback
Top