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NTIS 바로가기KIEAE journal = 한국생태환경건축학회논문집, v.21 no.5, 2021년, pp.55 - 65
Ryu, Seong-Woo , Park, Doo-Yong
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Ghoulem, Marouen, El Moueddeb, Khaled, Nehdi, Ezzedine, Boukhanouf, Rabah, Kaiser Calautit, John. Greenhouse design and cooling technologies for sustainable food cultivation in hot climates: Review of current practice and future status. Biosystems engineering, vol.183, 121-150.
Mashonjowa, E., Ronsse, F., Milford, J.R., Pieters, J.G.. Modelling the thermal performance of a naturally ventilated greenhouse in Zimbabwe using a dynamic greenhouse climate model. Solar energy, vol.91, 381-393.
Kittas, C et al., Greenhouse climate control and energy use. In FAO plant production and protection paper. 217. Good Agricultural Practices for greenhouse vegetable crops: Principles for Mediterranean climate areas, 2013, pp.63-95.
Rong, Li, Pedersen, Poul, Jensen, Thomas Ladegaard, Morsing, Svend, Zhang, Guoqiang. Dynamic performance of an evaporative cooling pad investigated in a wind tunnel for application in hot and arid climate. Biosystems engineering, vol.156, 173-182.
Katsoulas, N., Kitta, E., Kittas, C., Tsirogiannis, I.L., Stamati, E., Sayvas, D.. GREENHOUSE COOLING BY A FOG SYSTEM: EFFECTS ON MICROCLIMATE AND ON PRODUCTION AND QUALITY OF A SOILLESS PEPPER CROP. Acta horticulturae, vol.719, 455-462.
Abdel-Ghany, Ahmed M., Goto, Eiji, Kozai, Toyoki. Evaporation characteristics in a naturally ventilated, fog-cooled greenhouse. Renewable energy, vol.31, no.14, 2207-2226.
Villarreal-Guerrero, F., Kacira, M., Fitz-Rodriguez, E., Linker, R., Kubota, C., Giacomelli, G.A., Arbel, A.. Simulated performance of a greenhouse cooling control strategy with natural ventilation and fog cooling. Biosystems engineering, vol.111, no.2, 217-228.
Guan, L., Bennett, M., Bell, J.. Evaluating the potential use of direct evaporative cooling in Australia. Energy and buildings, vol.108, 185-194.
Xu, J., Li, Y., Wang, R.Z., Liu, W., Zhou, P.. Experimental performance of evaporative cooling pad systems in greenhouses in humid subtropical climates. Applied energy, vol.138, 291-301.
Banik, P., Ganguly, A.. Performance and economic analysis of a floricultural greenhouse with distributed fan-pad evaporative cooling coupled with solar desiccation. Solar energy, vol.147, 439-447.
Lychnos, G., Davies, P.A.. Modelling and experimental verification of a solar-powered liquid desiccant cooling system for greenhouse food production in hot climates. Energy : technologies, resources, reserves, demands, impact, conservation, management, policy, vol.40, no.1, 116-130.
Ozgener, L., Ozgener, O.. An experimental study of the exergetic performance of an underground air tunnel system for greenhouse cooling. Renewable energy, vol.35, no.12, 2804-2811.
Shen, Yongtao, Wei, Ruihua, Xu, Lihong. Energy Consumption Prediction of a Greenhouse and Optimization of Daily Average Temperature. Energies, vol.11, no.1, 65-.
C. Kittas,, T. Boulard,, G. Papadakis,. NATURAL VENTILATION OF A GREENHOUSE WITH RIDGE AND SIDE OPENINGS: SENSITIVITY TO TEMPERATURE AND WIND EFFECTS. Transactions of the ASAE, vol.40, no.2, 415-425.
Stanghellini, Cecilia, de Jong, Taeke. A model of humidity and its applications in a greenhouse. Agricultural and forest meteorology, vol.76, no.2, 129-148.
Went, F W. The Effect of Temperature on Plant Growth. Annual review of plant physiology, vol.4, 347-362.
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