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ISSN Печать: 1064-2285
ISSN Онлайн: 2162-6561
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COMPARATIVE STUDY OF THE PERFORMANCE OF TWO GREENHOUSE HEATING TECHNIQUES: SOLAR AIR HEATER AND HEAT PUMP
Краткое описание
Considering the increasing importance of renewable energy-based heating techniques, a comparative study of the efficiencies of two heating systems, namely, of the ground source heat pump (GSHP) and a solar air heater with latent storage (SAHLS) on tomato yield was carried out under greenhouse conditions. A pilot GSHP system using a conic ground heat exchanger and a SAHLS were installed and tested under greenhouse conditions by monitoring geothermal and solar air collector energies and studying their air heating effects on tomato growth and yield. The results show a better growth and development of tomato plants using the SAHLS, which provided an optimal microclimate (high night temperature and low relative humidity) for plants under greenhouse in comparison to GSHP. Therefore, using SAHLS, a 2-week-earlier maturity was registered simultaneously with an optimal fruit yield.
-
Al-Amri, A.M.S., Solar Energy Utilization in Greenhouse Tomato Production, J. King Saud Univ., Agricult. Sci., vol. 9, pp. 21-38, 1997.
-
Attar, I. and Farhat, A., Efficiency Evaluation of a Solar Water Heating System Applied to the Greenhouse Climate, Sol. Energy, vol. 119, pp. 212-224, 2015.
-
Alkilani, M.M., Kamaruzzaman, S., and Sohif, M., Fabrication and Experimental Investigation of PCM Capsules Integrated in Solar Air Heater, Am. J. Environ. Sci., vol. 7, no. 6, pp. 542-546, 2011.
-
Arfaoui, N., Bouadila, S., and Guizani, A., A Highly Efficient Solution of Off-Sunshine Solar Air Heating Using Two Packed Beds of Latent Storage Energy, Sol. Energy, vol. 155, pp. 1243-1253, 2017.
-
Awani, S., Chargui, R., Kooli, S., Farhat, A., and Guizani, A., Performance of the Coupling of the Flat Plate Collector and a Heat Pump System Associated with a Vertical Heat Exchanger for Heating of the Two Types of Greenhouses System, Energy Convers. Manage., vol. 103, pp. 266-275, 2015.
-
Ben Jmaa Derbel, H. and Kamoun, O., Investigation of the Ground Thermal Potentialin Tunisia Focused towards Heating and Cooling Applications, Appl. Therm. Eng., vol. 30, pp. 1091-1100, 2010.
-
Bouadila, S., Kooli, S., Skouri, S., Lazaar, M., and Farhat, A., Improvement of the Greenhouse Climate Using a Solar Air Heater with Latent Storage Energy, Energy, vol. 64, pp. 663-672, 2014a.
-
Bouadila, S., Lazaar, M., Skouri, S., Kooli, S., and Farhat, A., Assessment of the Greenhouse Climate with a New Packed-Bed Solar Air Heater at Night, in Tunisia, Renew. Sustain. Energy Rev., vol. 35, pp. 31-41, 2014b.
-
Boughanmi, H., Lazaar, M., Bouadila, S., and Farhat, A., Thermal Performance of a Conic Basket Heat Exchanger Coupled to a Geothermal Heat Pump for Greenhouse Cooling under Tunisian Climate, Energy Build., vol. 104, pp. 87-96, 2015.
-
Boughanmi, H., Lazaar, M., Farhat, A., and Guizani, A., Evaluation of Soil Thermal Potential under Tunisian Climate Using a New Conic Basket Geothermal Heat Exchanger: Energy and Exergy Analysis, Appl. Therm. Eng., vol. 113, pp. 912-925, 2017.
-
Boulard, T., Mermier, M., Fargues, J., Smits, N., Rougier, M., and Roy, J.C., Tomato Leaf Boundary Layer Climate: Implications for Microbiological Whitefly Control in Greenhouses, Agric. Forest Meteorol., vol. 110, pp. 159-176, 2002.
-
Boulard, T. and Wang, S., Greenhouse Crop Transpiration Simulation from External Climate Conditions, Agric. Forest Meteorol., vol. 100, pp. 25-34, 2000.
-
Dannehl, D., Suhl, J., Huyskens-Keil, S., Ulrichs, C., and Schmidt, U., Effects of a Special Solar Collector Greenhouse on Water Balance, Fruit Quantity and Fruit Quality of Tomatoes, Agric. Water Manage., vol. 134, pp. 14-23, 2014a.
-
Dayan, J., Dayan, E., Strassberg, Y., and Presnov, E., Simulation and Control of Ventilation Rates in Greenhouses, Math. Comput. Simulat., vol. 65, nos. 1-2, pp. 3-17, 2004.
-
Dorais, M., Badrane, M., Gosellin, A., Hao, X., and Papadopoulos, A., Greenhouse Covering Materials and Supplemental Lighting Affect Growth, Yield, Photosynthesis, and Leaf Carbohydrate Synthesis of Tomato Plants, J. Am. Soc. Hortic. Sci., vol. 127, no. 5, pp. 819-824, 2002.
-
Drews, M. and HeiBner, A., Yield Development in Early Greenhouse Tomatoes in Relation to Temperature and Light Intensity, Arch. Gartenbau., vol. 30, pp. 387-404, 1982 (in German).
-
Duffie, J.A. and Beckman, W.A., Solar Engineering of Thermal Processes, 2nd Ed., NewYork, USA: John Wiley and Sons, 1991.
-
Dumas, Y., Dadomo, M., Di Lucca, G., and Grolier, P., Effects of Environmental Factors and Agricultural Techniques on Antioxidant Content of Tomatoes, J. Sci. Food Agric., vol. 83, pp. 369-382, 2003.
-
Ghosal, M.K., Tiwari, G.N., and Srivastava, N.S.L., Thermal Modeling of a Greenhouse with an Integrated Earth to Air Heat Exchanger: An Experimental Validation, Energy Build., vol. 36, pp. 219-227, 2004.
-
Ghosal, M.K. and Tiwari, G.N., Mathematical Modeling for Greenhouse Heating by Using Thermal Curtain and Geothermal Energy. Sol. Energy., vol. 76, pp. 603-613, 2004.
-
Grange, R.I. and Hurd, R.G., Thermal Screens-environmental and Plant Studies, Sci. Hortic., vol. 19, nos. 3-4, pp. 201-211, 1983.
-
Hazami, M., Naili, N., Attar, I., and Farhat, A., Solar Water Heating Systems Feasibility for Domestic Requests in Tunisia: Thermal Potential and Economic Analysis, Energy Convers. Manage., vol. 76, pp. 599-608, 2013.
-
Huang, C., Lin, W.K., and Chuang, Y.L., Experimental Investigation Experimental Investigation of Loop Heat Pipe Applied in a Railing-Type Collector Solar Water Heater, Heat Transf. Res., vol. 48, no. 13, pp. 1217-1236, 2017. DOI: 10.1615/ HeatTransRes.2017014740.
-
Joudi, K.A. and Farhan, A.A., Greenhouse Heating by Solar Air Heaters on the Roof, Renew. Energy, vol. 72, pp. 406-414, 2014.
-
Kadowaki, M., Yano, A., Ishizu, F., Tanaka, T., and Noda S., Effects of Greenhouse Photovoltaic Array Shading on Welsh Onion Growth, Biosyst. Eng., vol. 111, no. 3, pp. 290-297, 2012.
-
Kittas, C., Baille, A., and Giaglaras, P., Influence of Covering Material and Shading on the Spectral Distribution of Light in Greenhouses, J. Agric. Eng. Res., vol. 73, pp. 341-351, 1999.
-
Kooli, S., Bouadila, S., Lazaar, M., and Farhat, A., The Effect of Nocturnal Shutter on Insulated Greenhouse Using a Solar Air Heater with Latent Storage Energy, Sol. Energy, vol. 115, pp. 217-228, 2015.
-
Krarti, M., Lopez-Alonzo, C., Claridge, D.E., and Kreider, J.F., Analytical Model to Predict Annual Soil Surface Temperature Variation, J. Sol. Energy Eng., vol. 117, pp. 91-99, 1995.
-
Lazaar, M., Bouadila, S., Kooli, S., and Farhat, A., Comparative Study of Conventional and Solar Heating Systems under Tunnel Tunisian Greenhouses: Thermal Performance and Economic Analysis, Sol. Energy, vol. 120, pp. 620-635, 2015.
-
Lazaar, M., Kooli, S., Hazami, M., Farhat, A., and Belghith, A., Thermal Energy Storage in the Ground of a Greenhouse by the Polypropylene Capillary Heat Exchanger, Am. J. Appl. Sci., vol. 5, pp. 1769-1772, 2008.
-
Lazaar, M., Kooli, S., Hazami, M., and Farhat, A., Use of Solar Energy for the Agricultural Greenhouses Autonomous Conditioning, Desalination, vol. 168, pp. 169-175, 2004.
-
Mac Adams, W.H., Heat Transmission, 3rd Ed., New York: MacGraw-Hill, 1954.
-
Mihalakakou, G., Santamouris, M., Lewis, J.O., and Asimakopoulos, D.N., On the Application of the Energy Balance Equation to Predict Ground Temperature Profiles, Sol. Energy, vol. 60, nos. 3-4, pp. 181-190, 1997.
-
Moch, X., Palomares, M., Claudon, F., Claudon, B., and Souyri, B., Geothermal Helical Heat Exchangers: Comparison and Use of Two-Dimensional Axisymmetric Models, Appl. Therm. Eng., vol. 73, pp. 691-698, 2014.
-
Naili, N., Hazami, M., Kooli, S., and Farhat, A., Energy and Exergy Analysis of Horizontal Ground Heat Exchanger for Hot Climatic Condition of Northern Tunisia, Geothermics, vol. 53, pp. 270-280, 2015.
-
Neksa, P., CO2 Heat Pump Systems, Int. J. Refrig, vol. 25, pp. 421-427, 2002.
-
Ozgener, O. and Hepbasli, A., Experimental Performance Analysis of a Solar Assisted Ground Source Heat Pump Greenhouse Heating System, Energy Build, vol. 37, pp. 101-110, 2005.
-
Papadakis, G., Frangoudadis, A., and Kyritas, S., Experimental Investigation and Modeling of Heat and Mass Transfer between a Tomato Crop and Greenhouse Environment, J. Agr. Eng. Res., vol. 57, pp. 212-227, 1993.
-
Papadakis, G., Frangoudakis, A., and Kyritsis, S., Mixed, Forced and Free Convection Heat Transfer at the Greenhouse Cover, J. Agr. Eng. Res, vol. 51, pp. 191-205, 1992.
-
Penman, H.L., Vegetation and Hydrology, Farnham, U.K.: Royal Commonwealth Agricultural Bureaux, 1963.
-
Penrod, E.B., Elliot, J.M., and Brown, W.K., Soil Temperature Variation (1952-1956) at Lexington, Kentucky, Soil. Sci., vol. 90, pp. 275-283, 1960.
-
Puntsagdulam, B., Berg B.V., and Mikula, V.A., Solar-Radiative Heating of Different Objects in the Regions with Severe Climatic Conditions, Heat. Transf. Res., vol. 34, pp. 6, 2003. DOI: 10.1615/HeatTransRes.v34.i1-2.40.
-
Sakellari, D. and Lundqvist, P., Modelling and Simulation Results for a Domestic Exhaust-Air Heat Pump Heating System, Int. JRefrig., vol. 28, no. 7, pp. 1048-56, 2005.
-
Sethi, V.P., and Sharma, S.K., Survey and Evaluation of Heating Technologies for Worldwide Agricultural Greenhouse Applications, Sol. Energy, vol. 82, pp. 832-859, 2008.
-
Severson, A.M., Solar Air Heater. US Patent 4085730, filed November 10, 1976 and issued April 25, 1978.
-
Tong, Y., Kozai, T., Nishioka, N., and Ohyama, K., Reductions in Energy Consumption and CO2 Emissions for Greenhouse Heated with Heat Pumps, Am. Soc. Agricult. Eng., vol. 28, no. 3, pp. 401-406, 2012.
-
U.S. Department of Energy, WorldWideScience.org, accessed from http://worldwidescience.org/, 2019.
-
Vadiee, A. and Martin, V., Energy Analysis and Thermo Economic Assessment of the Closed Greenhouse-the Largest Commercial Solar Building, Appl. Energy, vol. 102, pp. 1256-1266, 2013.
-
Wazed, M.A, Nukman, Y., and Islam, M.T., Design Fabrication of a Cost Effective Solar Air Heater for Bangladesh, Appl. Energy, vol. 87, pp. 3030-3036, 2010.
-
Wu, Y., Gana, G., Verhoef, A., Vidale, P.L., and Gonzalez, R.G., Experimental Measurement and Numerical Simulation of Horizontal-Coupled Slinky Ground Source Heat Exchangers, Appl. Therm. Eng., vol. 30, pp. 2574-2583, 2010.
-
Yang, S.H. and Rhee, J.Y., Utilization and Performance Evaluation of a Surplus Air Heat Pump System for Greenhouse Cooling and Heating, Appl. Energy, vol. 105, pp. 244-251, 2013.
-
GU Xuan, WANG Rui, LI Tianlai, XU Hui, Design and Performance Analysis of a Seasonal Ice Storage System for Cooling Chinese Solar Greenhouses, Japan Agricultural Research Quarterly: JARQ, 56, 2, 2022. Crossref