Comparison of coefficient of performance (<i>COP</i>) between an underground water source heat pump system and an air source heat pump system for greenhouse heating in cold and snowy areas in Japan-Reference-Cited by-同舟云学术

Comparison of coefficient of performance (COP) between an underground water source heat pump system and an air source heat pump system for greenhouse heating in cold and snowy areas in Japan

Published:2016 Issue:3-4 Volume:72 Page:173-177
ISSN:0021-8588
Container-title:Journal of Agricultural Meteorology
language:en
Short-container-title:J. Agric. Meteorol.

Author:

FURUNO Shinsuke¹,OKUSHIMA Limi²,SASE Sadanori³

Affiliation:

1. Agricultural Technique Improvement Research Office, Shonai Area General Branch, Administration of Yamagata Prefectural Office

2. Department of Rural Technologies, National Institute for Rural Engineering

3. College of Bioresource Sciences, Nihon University

Publisher

Society of Agricultural Meteorology of Japan

Subject

Atmospheric Science,Agronomy and Crop Science

Link

https://www.jstage.jst.go.jp/article/agrmet/72/3-4/72_D-15-00029/_pdf

Reference8 articles.

1. Benli, H., 2011: Energetic performance analysis of a ground-source heat pump system with latent heat storage for a greenhouse heating. Energy Conversion and Management, 52, 581-589.

2. Chai, L., Ma, C., and Ni, J., 2012: Performance evaluation of ground source heat pump system for greenhouse heating in northern China. Biosystems Engineering, 111, 107-117.

3. Furuno, S., Sugawara, K., Takasugi, S., Katsuragi, M., Okushima, L., and Sase, S., 2012: Comparison between operational performance of a ground source heat pump system and an air source heat pump system in greenhouse heating in a cold area. Journal of the Society of Agricultural Structures, Japan, 135, 131-137.

4. Iwasaki, Y., Aizawa, M., Yoshida, C., and Takaichi, M., 2013: Developing a new energy-saving, photosynthesis-promoting environmental control system for greenhouse production based on a heat pump with a heat storage system. Journal of Agricultural Meteorology, 69, 81-92.

5. Japanese Industrial Standards Committee, 2005: Room air conditioners, Japanese industrial standard, JISC9612, 41-56 (in Japanese).

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