1 |
American Society of Agricultural and Biological Engineers (ASABE). 2003. Standard:Heating, ventilating and cooling greenhouses. ANSI/ASAE EP406.4. ASABE, Michigan, USA.
|
2 |
Horiguchi, I. 1978. The variation of heating load coefficient for a greenhouse and overall heat-transfer coefficient through Plastic film. Journal of Agricultural Meteorology 33(4):175181.
|
3 |
Japan Greenhouse Horticulture Association (JGHA). 2015. Handbook of protected horticulture. JGHA, Tokyo, Japan.
|
4 |
Jeon, J. G., Y. Paek and H. G. Kim. 2015. Verification Test of Greenhouse of Solar Heating System with Latent Heat Storage Materials. Proceeding of the Korean Solar Energy Society 2015 Autumn Annual Conference:GEO-P-01 (In Korean).
|
5 |
KASI. 2016. Korean Astronomy and Space Science Information system(http://astro.kasi.re.kr)
|
6 |
Kim, M. K., S. W. Nam, W. M. Seo, Y. C. Youn, S. G. Lee and H. W. Lee. 2000. Agricultural Structures Engineering. Hyangmoonsa Press. Seoul, Korea (In Korean).
|
7 |
Ko, K. D. 2003. Current Status and Prospect of Vegetable Industry in China. Protected Horticulture and Plant Factory 16(1):4973 (In Korean).
|
8 |
Lee, S. G., J. W. Lee, H. W. Lee and G. D. Kim. 2001. Thermal Storage Performance of Underground Rock Storage System for Heating of Greenhouse. Proceeding of the Korean Society for Bio-Environment Control Conference 10(1):8687 (In Korean).
|
9 |
Mihara, Y. and M. Hayashi. 1979. Studies on the insulation of greenhouse(1)-Overall heat transfer coefficient of greenhouses with single and double covering using several material curtains. Journal of Agricultural Meteorology 35(1):13-19 (In Japanese).
DOI
|
10 |
Nam, S. W., W. M. Seo, Y. C. Youn, S. G. Lee, I. B. Lee, H. W. Lee and B. K. Cho. 2008. Bio-Environmental Control Engineering revised edition. Chungsol Press. Deajeon, Korea (In Korean).
|
11 |
Nam, S. W., H. H. Shin, D. U. Seo. 2014. Comparative Analysis of Accumulated Temperature for Seasonal Heating Load Calculation in Greenhouses. Protected Horticulture and Plant Factory 23(3):192-198 (In Korean).
DOI
|
12 |
Ozgener, O. and L. Ozgenerb. 2011. Determining the optimal design of a closed loop earth to air heat exchanger for greenhouse heating by using exergoeconomics. Energy and Buildings 43(4):960-965.
DOI
|
13 |
Ro, J. G. and H. K. Song. 2001. Modeling of a Greenhouse Equipped with Latent Heat Storage System. Jour. of Korean Solar Energy Society 21(3):51-60 (In Korean).
|
14 |
Ryou, Y. S., Y. J. Kim, Y. Paek, G. C. Kang and Y. K. Kang. 2005. Understanding and Practice of Agricultural Energy utilization technology. National Agricultural Engineering Research Institute (In Korean).
|
15 |
Song, H. K. and Y. S. Ryou. 1994. Natural Energy Utilization for Greenhouse Heating in the Winter Season. The Korean Solar Energy Society. Proceeding of the Korean Solar Energy Society 1994 Autumn Annual Conference 2:49-62 (In Korean).
|
16 |
Ryou, Y. S., Y. K. Kang, J. K. Jang, Y. H. Kim, J. G. Kim and G. C. Kang. 2012. Heat Exchanger Design of a Heat Pump System Using the Heated Effluent of Thermal Power Generation Plant as a Heat Source for Greenhouse Heating. Journal of Bio-Environment Control 21(4):372-378 (In Korean).
DOI
|
17 |
Song, H. K. and Y. S. Ryou. 1994. Development of solar energy-underground latent heat storage system for greenhouse heating. Journal of Biosystems Engineering 19(3):211- 221 (In Korean).
|