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Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco

Yıl 2021, , 2195 - 2207, 01.09.2021
https://doi.org/10.21597/jist.893224

Öz

Solar air collectors are commonly used in a variety of domestic and industrial fields. The simple design and low maintenance cost are among their advantages compared to other solar collectors. However, the main challenge of this type of collector is the low heat transfer coefficient. In this work, the effect of different designs of the absorber plate (waved and V corrugated modification) on the thermal performances, the heat exchange effectiveness and the air outlet temperature of a Double-Pass Parallel-Flow air solar collector was investigated under the solar radiation of MarrakechMorocco in a clear day and for three different mass flows rates (0.008 kg s-1, 0.012 kg s-1 and 0.016 kg s-1). The numerical study was done using Computational Fluid Dynamics (CFD) by the mean of ANSYS Fluent 16.0. The obtained results showed that the V corrugated modification is the most efficient one with efficiency equal to 76.92 % and 87.97 % under the lowest and highest mass flow, respectively.

Destekleyen Kurum

IRESEN

Teşekkür

This work was performed in the frame of the Bioresol project. The authors are grateful to IRESEN for the financial support.

Kaynakça

  • ANSYS FLUENT 13 User’s Guide. 2013. “Ansys Fluent Theory Guide.” ANSYS Inc., USA 15317(November): 724–46.
  • Bhattacharyya T, Anandalakshmi R, Srinivasan K, 2017. Heat Transfer Analysis on Finned Plate Air Heating Solar Collector for Its Application in Paddy Drying. Energy Procedia, 109: 353–60.
  • Chaube A, Sahoo PK, Solanki SC, 2006. Analysis of Heat Transfer Augmentation and Flow Characteristics Due to Rib Roughness over Absorber Plate of a Solar Air Heater. Renewable Energy, 31(3): 317–31.
  • Ekechukwu OV, Norton B, 1999. Review of Solar-Energy Drying Systems II: An Overview of Solar Drying Technology. Fuel and Energy Abstracts, 40(3): 216.
  • Güler HÖ, Sözen A, Tuncer AD, Afshari F, Khanlari A, Şirin C, Gungor A, 2020. Experimental and CFD Survey of Indirect Solar Dryer Modified with Low-Cost Iron Mesh. Solar Energy 197: 371–84.
  • Kishk SS., ElGamal RA, ElMasry GM, 2019. Effectiveness of Recyclable Aluminum Cans in Fabricating an Efficient Solar Collector for Drying Agricultural Products. Renewable Energy, 133: 307–16.
  • Kutscher CF, 2016. Heat Exchange Effectiveness and Pressure Drop for Air Flow Through Perforated Plates With and Without Crosswind. 116(May 1994): 391–99.
  • Lin W, Ren H, Ma Z, 2020. Mathematical Modelling and Experimental Investigation of Solar Air Collectors with Corrugated Absorbers. Renewable Energy, 145: 164–79.
  • Pashchenko DI, 2018. ANSYS Fluent CFD Modeling of Solar Air-Heater Thermoaerodynamics. Applied Solar Energy (English translation of Geliotekhnika) 54(1): 32–39.
  • Singh AP, Singh OP, 2018. Performance Enhancement of a Curved Solar Air Heater Using CFD. Solar Energy 174: 556–69.
  • Vengadesan E, Senthil R, 2020. A Review on Recent Developments in Thermal Performance Enhancement Methods of Flat Plate Solar Air Collector. Renewable and Sustainable Energy Reviews, 134: 110315.
  • Yadav AS, Bhagoria JL, 2013. A CFD (Computational Fluid Dynamics) Based Heat Transfer and Fluid Flow Analysis of a Solar Air Heater Provided with Circular Transverse Wire Rib Roughness on the Absorber Plate. Energy, 55: 1127–1142.
  • Yadav AS, Bhagoria JL, 2014. A Numerical Investigation of Square Sectioned Transverse Rib Roughened Solar Air Heater. International Journal of Thermal Sciences, 79: 111–31.

Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco

Yıl 2021, , 2195 - 2207, 01.09.2021
https://doi.org/10.21597/jist.893224

Öz

Solar air collectors are commonly used in a variety of domestic and industrial fields. The simple design and low maintenance cost are among their advantages compared to other solar collectors. However, the main challenge of this type of collector is the low heat transfer coefficient. In this work, the effect of different designs of the absorber plate (waved and V corrugated modification) on the thermal performances, the heat exchange effectiveness and the air outlet temperature of a Double-Pass Parallel-Flow air solar collector was investigated under the solar radiation of MarrakechMorocco in a clear day and for three different mass flows rates (0.008 kg s-1, 0.012 kg s-1 and 0.016 kg s-1). The numerical study was done using Computational Fluid Dynamics (CFD) by the mean of ANSYS Fluent 16.0. The obtained results showed that the V corrugated modification is the most efficient one with efficiency equal to 76.92 % and 87.97 % under the lowest and highest mass flow, respectively.

Kaynakça

  • ANSYS FLUENT 13 User’s Guide. 2013. “Ansys Fluent Theory Guide.” ANSYS Inc., USA 15317(November): 724–46.
  • Bhattacharyya T, Anandalakshmi R, Srinivasan K, 2017. Heat Transfer Analysis on Finned Plate Air Heating Solar Collector for Its Application in Paddy Drying. Energy Procedia, 109: 353–60.
  • Chaube A, Sahoo PK, Solanki SC, 2006. Analysis of Heat Transfer Augmentation and Flow Characteristics Due to Rib Roughness over Absorber Plate of a Solar Air Heater. Renewable Energy, 31(3): 317–31.
  • Ekechukwu OV, Norton B, 1999. Review of Solar-Energy Drying Systems II: An Overview of Solar Drying Technology. Fuel and Energy Abstracts, 40(3): 216.
  • Güler HÖ, Sözen A, Tuncer AD, Afshari F, Khanlari A, Şirin C, Gungor A, 2020. Experimental and CFD Survey of Indirect Solar Dryer Modified with Low-Cost Iron Mesh. Solar Energy 197: 371–84.
  • Kishk SS., ElGamal RA, ElMasry GM, 2019. Effectiveness of Recyclable Aluminum Cans in Fabricating an Efficient Solar Collector for Drying Agricultural Products. Renewable Energy, 133: 307–16.
  • Kutscher CF, 2016. Heat Exchange Effectiveness and Pressure Drop for Air Flow Through Perforated Plates With and Without Crosswind. 116(May 1994): 391–99.
  • Lin W, Ren H, Ma Z, 2020. Mathematical Modelling and Experimental Investigation of Solar Air Collectors with Corrugated Absorbers. Renewable Energy, 145: 164–79.
  • Pashchenko DI, 2018. ANSYS Fluent CFD Modeling of Solar Air-Heater Thermoaerodynamics. Applied Solar Energy (English translation of Geliotekhnika) 54(1): 32–39.
  • Singh AP, Singh OP, 2018. Performance Enhancement of a Curved Solar Air Heater Using CFD. Solar Energy 174: 556–69.
  • Vengadesan E, Senthil R, 2020. A Review on Recent Developments in Thermal Performance Enhancement Methods of Flat Plate Solar Air Collector. Renewable and Sustainable Energy Reviews, 134: 110315.
  • Yadav AS, Bhagoria JL, 2013. A CFD (Computational Fluid Dynamics) Based Heat Transfer and Fluid Flow Analysis of a Solar Air Heater Provided with Circular Transverse Wire Rib Roughness on the Absorber Plate. Energy, 55: 1127–1142.
  • Yadav AS, Bhagoria JL, 2014. A Numerical Investigation of Square Sectioned Transverse Rib Roughened Solar Air Heater. International Journal of Thermal Sciences, 79: 111–31.
Toplam 13 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik, Makine Mühendisliği
Bölüm Makina Mühendisliği / Mechanical Engineering
Yazarlar

Abderrahman Mellalou 0000-0003-2610-7626

Ammar Mouaky Bu kişi benim

Cheikh Samb Vall 0000-0002-3314-1067

Lau Yui-yip Bu kişi benim

Abdelaziz Bacaoui Bu kişi benim

Abdelkader Outzourhit Bu kişi benim

Yayımlanma Tarihi 1 Eylül 2021
Gönderilme Tarihi 9 Mart 2021
Kabul Tarihi 31 Mayıs 2021
Yayımlandığı Sayı Yıl 2021

Kaynak Göster

APA Mellalou, A., Mouaky, A., Samb Vall, C., Yui-yip, L., vd. (2021). Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco. Journal of the Institute of Science and Technology, 11(3), 2195-2207. https://doi.org/10.21597/jist.893224
AMA Mellalou A, Mouaky A, Samb Vall C, Yui-yip L, Bacaoui A, Outzourhit A. Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco. Iğdır Üniv. Fen Bil Enst. Der. Eylül 2021;11(3):2195-2207. doi:10.21597/jist.893224
Chicago Mellalou, Abderrahman, Ammar Mouaky, Cheikh Samb Vall, Lau Yui-yip, Abdelaziz Bacaoui, ve Abdelkader Outzourhit. “Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco”. Journal of the Institute of Science and Technology 11, sy. 3 (Eylül 2021): 2195-2207. https://doi.org/10.21597/jist.893224.
EndNote Mellalou A, Mouaky A, Samb Vall C, Yui-yip L, Bacaoui A, Outzourhit A (01 Eylül 2021) Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco. Journal of the Institute of Science and Technology 11 3 2195–2207.
IEEE A. Mellalou, A. Mouaky, C. Samb Vall, L. Yui-yip, A. Bacaoui, ve A. Outzourhit, “Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco”, Iğdır Üniv. Fen Bil Enst. Der., c. 11, sy. 3, ss. 2195–2207, 2021, doi: 10.21597/jist.893224.
ISNAD Mellalou, Abderrahman vd. “Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco”. Journal of the Institute of Science and Technology 11/3 (Eylül 2021), 2195-2207. https://doi.org/10.21597/jist.893224.
JAMA Mellalou A, Mouaky A, Samb Vall C, Yui-yip L, Bacaoui A, Outzourhit A. Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco. Iğdır Üniv. Fen Bil Enst. Der. 2021;11:2195–2207.
MLA Mellalou, Abderrahman vd. “Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco”. Journal of the Institute of Science and Technology, c. 11, sy. 3, 2021, ss. 2195-07, doi:10.21597/jist.893224.
Vancouver Mellalou A, Mouaky A, Samb Vall C, Yui-yip L, Bacaoui A, Outzourhit A. Performance Of An Air Solar Collector With Different Absorber Modifications Under The Climatic Conditions Of Marrakech-Morocco. Iğdır Üniv. Fen Bil Enst. Der. 2021;11(3):2195-207.