KJACR
Korean Journal of
Air-Conditioning and Refrigeration Engineering
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ISSN : 1229-6422 (Print)
ISSN : 2465-7611 (Online)
http://journal.auric.kr/kjacr
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Korean Journal of Air-Conditioning and Refrigeration Engineering
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Korean J. Air-Cond. Refrig. Eng.
Open Access, Monthly
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ISSN : 1229-6422 (Print)
ISSN : 2465-7611 (Online)
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2021-08
(Vol.33 No.8)
10.6110/KJACR.2021.33.8.395
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REF
References
1
Nam J. J., 2020, Agricultural Energy Use, Actual Condition and Improvement Plan, Agricultural Policy Research, Vol. 73, pp. 72-95
2
Korea Energy Agency , 2020, Agricultural Energy Use, Actual Condition and Improvement Plan, 2020 Energy Statistics Handbook
3
Rural Development Administration , 2014, 2013 Agricultural Product Income Data Book
4
Energy Economics Research Institute, Korea Energy Agency , 2018, 2017 Energy Census Report
5
Bloess A., Schill W. P., Zerrahn A., 2018, Power-to-Heat for Renewable Energy Integration : A Review of Technologies, Modeling Approaches, and Flexibility Potentials, Applied Energy, Vol. 212, pp. 1611-1626
6
Tschopp D., Tian Z., Berberich M., Fan J., Perers B., Furbo S., 2020, Large-Scale Solar Thermal Systems in Leading Countries : A Review and Comparative Study of Denmark, China, Germany and Austria, Applied Energy, Vol. 270
7
IEA-SHC , 2020, Solar Heat Worldwide 2020
8
Gorjian S., Ebadi H., Najafi G., Chandel S. S., Yildizhan H., 2021, Recent Advances in Net-Zero Energy Greenhouses and Adapted Thermal Energy Storage Systems, Sustainable Energy Technologies and Assessments, Vol. 43
9
Attar I., Naili N., Khalifa N., Hazami M., Farhat A., 2013, Parametric and Numerical Study of a Solar System for Heating a Greenhouse Equipped with a Buried Exchanger, Energy Conversion and Management, Vol. 70, pp. 163-173
10
Hussain M. I., Ali A., Lee G. H., 2016, Multi-Module Concentrated Photovoltaic Thermal System Feasibility for Greenhouse Heating : Model Validation and Techno-Economic Analysis, Solar Energy, Vol. 135, pp. 719-730
11
Anifantis A. S., Colantoni A., Pascuzzi S., 2017, Thermal Energy Assessment of a Small Scale Photovoltaic, Hydrogen and Geothermal Stand-Alone System for Greenhouse Heating, Renewable Energy, Vol. 103, pp. 115-127
12
Wang K., Pantaleo A. M., Mugnozza G. S., Markides C. N., 2019, Technoeconomic Assessment of Solar Combined Heat and Power Systems based on Hybrid PVT Collectors in Greenhouse Applications, In IOP Conference Series: Materials Science and Engineering, Vol. 609, No. 7
13
Mehrpooya M., Hemmatabady H., Ahmadi M. H., 2015, Optimization of performance of Combined Solar Collector-Geothermal Heat Pump Systems to Supply Thermal Load Needed for Heating Greenhouses, Energy Conversion and Management, Vol. 97, pp. 382-392
14
Hassanien R. H. E., Li M., Tang Y., 2018, The Evacuated Tube Solar Collector Assisted Heat Pump for Heating Greenhouses, Energy and Buildings, Vol. 169, pp. 305-318
15
Kim M. H., Lee D. W., Rin Y., Heo J., 2017, Operational Energy Saving Potential of Thermal Effluent Source Heat Pump System for Greenhouse Heating in Jeju, International Journal of Air-Conditioning and Refrigeration, Vol. 25, No. 4, pp. 1750030
16
Kim M. H., Kim D., Heo J., Lee D. W., 2019, Techno-Economic Analysis of Hybrid Renewable Energy System with Solar District Heating for Net Zero Energy Community, Energy, Vol. 187, pp. 115916
