Effect of Using Fins on Cell Temperature at Air-Based PVT
Year 2020,
Volume: 10 Issue: 1, 477 - 488, 01.03.2020
Ahmet Numan Özakın
,
Ferhat Kaya
Abstract
In this study, the effect of addition of fins in air-based PVT system on cell temperature investigated. Experimental tests were performed with frequent and sparse fins configurations and also empty(non-finned) state. Also, thermal camera images of cells were investigated and compared to images obtained by Fluent Ansys. Cell temperatures for all status of both polycrystal and monocrystal panel decreased between 8-20 °C. Panel surface was observed to have a uniform temperature distribution. Finally, temperature distribution images obtained with ANSYS Fluent were found to be quite compatible with thermal camera images.
Supporting Institution
Atatürk University Scientific Research Project Unit
Project Number
BAP/2015-147
References
- Al-Waeli AHA, Sopian K, Kazem HA, Chaichan MT, 2017. Photovoltaic/Thermal (PV/T) systems: Status and future prospects. Renewable and Sustainable Energy Reviews. 77: p. 109-130.
- Bahaidarah HMS, Subhan, A, Gandhidasan P, Rehman S, 2013. Performance evaluation of a PV (photovoltaic) module by back surface water cooling for hot climatic conditions. Energy. 59: p. 445-453.
- Bahaidarah HMS, Baloch AAB, Gandhidasan P, 2016. Uniform cooling of photovoltaic panels: A review. Renewable and Sustainable Energy Reviews. 57: p. 1520-1544.
- Baloch AAB., Bahaidarah HMS., Gandhidasan P, Al-Sulaiman FA, 2015. Experimental and numerical performance analysis of a converging channel heat exchanger for PV cooling. Energy Conversion and Management. 103: p. 14-27.
- Bayrak F, Hamdeh NA, Alnefaie KA, Öztop HF, 2017. A review on exergy analysis of solar electricity production. Renewable and Sustainable Energy Reviews, . 74: p. 755-770.
- Bora B, Kumar R, Sastry OS, Prasad B, Mondal S, 2018. Energy rating estimation of PV module technologies for different climatic conditions. Solar Energy. 174: p. 901-911.
- Ceylan, İ, Yilmaz S, İnanç Ö, Ergün A, Gürel AE, Acar B, 2019. Determination of the heat transfer coefficient of PV panels. Energy. 175: p. 978-985.
- Chandel SS, Agarwal T, 2017. Review of cooling techniques using phase change materials for enhancing efficiency of photovoltaic power systems. Renewable & Sustainable Energy Reviews. 73: p. 1342-1351.
- Chauhan A, Tyagi V, Anand S, 2018. Futuristic approach for thermal management in solar PV/thermal systems with possible applications. Energy Conversion and Management. 163: p. 314-354.
- Cuce E, Cuce PM, Bali T, 2013. An experimental analysis of illumination intensity and temperature dependency of photovoltaic cell parameters. Applied Energy,. 111: p. 374-382.
- Dubey S, Tay AAO, 2013. Testing of two different types of photovoltaic–thermal (PVT) modules with heat flow pattern under tropical climatic conditions. Energy for Sustainable Development. 17(1): p. 1-12.
- Dubey S, Tiwari GN, 2008. Thermal modeling of a combined system of photovoltaic thermal (PV/T) solar water heater. Solar Energy. 82(7): p. 602-612.
- Fayaz H, Rahim NA, Hasanuzzaman M, 2019. A Rivai Numerical and outdoor real time experimental investigation of performance of PCM based PVT system. Solar Energy. 179: p. 135-150.
- Gang P, Huide F, Tao Z, Jie J. 2011. A numerical and experimental study on a heat pipe PV/T system. Solar Energy. 85(5): p. 911-921.
- Ghosh S, Yadav, VK, Mukherjee V, 2019. Impact of environmental factors on photovoltaic performance and their mitigation strategies–A holistic review. Renewable Energy Focus. 28: p. 153-172.
- Gökmen N, Hu W, Hou P, Chen Z, Sera D, Spataru S, 2016. Investigation of wind speed cooling effect on PV panels in windy locations. Renewable Energy. 90: p. 283-290.
- Kaiser AS, Zamora B, Mazón R, García JR, Vera F, 2014. Experimental study of cooling BIPV modules by forced convection in the air channel. Applied Energy. 135: p. 88-97.
- Kaldellis JK, M Kapsali, Kavadias KA, 2014. Temperature and wind speed impact on the efficiency of PV installations. Experience obtained from outdoor measurements in Greece. Renewable Energy. 66: p. 612-624.
- Kalogirou SA, 2001. Use of TRNSYS for modelling and simulation of a hybrid pv–thermal solar system for Cyprus. Renewable Energy. 23(2): p. 247-260.
- Kazemian A, Hosseinzadeh M, Sardarabadi M, 2018. Effect of glass cover and working fluid on the performance of photovoltaic thermal (PVT) system: An experimental study. Solar Energy. 173: p. 1002-1010.
- Kumar, R. Rosen MA, 2011a. A critical review of photovoltaic–thermal solar collectors for air heating. Applied Energy. 88(11): p. 3603-3614.
- Kumar R, Rosen MA, 2011b. Performance evaluation of a double pass PV/T solar air heater with and without fins. Applied Thermal Engineering. 31(8): p. 1402-1410.
- Lamnatou C, Chemisana D, 2017. Photovoltaic/thermal (PVT) systems: A review with emphasis on environmental issues. Renewable Energy. 105: p. 270-287.
- Omer KA, Zala AM, 2018. Experimental investigation of PV/thermal collector with theoretical analysis. Renewable Energy Focus. 27: p. 67-77.
- Özakin AN, Kaya F, 2019. Effect on the exergy of the PVT system of fins added to an air-cooled channel: A study on temperature and air velocity with ANSYS Fluent. Solar Energy. 184: p. 561-569.
- Özakin AN, Kaya F, 2020. Experimental thermodynamic analysis of air-based PVT system using fins in different materials: Optimization of control parameters by Taguchi method and ANOVA. Solar Energy. 197: p. 199-211.
- Saidur R, Jazi GB, Mekhlif S, Jameel M, 2012.Exergy analysis of solar energy applications. Renewable and Sustainable Energy Reviews. 16(1): p. 350-356.
- Shukla A, Kanta K, Sharmaa A, Biwole PH, 2017. Cooling methodologies of photovoltaic module for enhancing electrical efficiency: A review. Solar Energy Materials and Solar Cells. 160: p. 275-286.
- Tonui JK, Tripanagnostopoulos Y, 2008. Performance improvement of PV/T solar collectors with natural air flow operation. Solar Energy. 82(1): p. 1-12.
- Ustun TS, Nakamura Y, Hashimoto J, Otani K, 2019.Performance analysis of PV panels based on different technologies after two years of outdoor exposure in Fukushima, Japan. Renewable Energy. 136: p. 159-178.
- Venkateswari R, Sreejith S, 2019. Factors influencing the efficiency of photovoltaic system. Renewable and Sustainable Energy Reviews. 101: p. 376-394.
- Wu SY, Wang T, Xiao L, Shen ZG, 2019. Effect of cooling channel position on heat transfer characteristics and thermoelectric performance of air-cooled PV/T system. Solar Energy. 180: p. 489-500.
- Yang T, Athienitis AK, 2014. A study of design options for a building integrated photovoltaic/thermal (BIPV/T) system with glazed air collector and multiple inlets. Solar Energy. 104: p. 82-92.
- Yang T, Athienitis AK, 2015. Experimental investigation of a two-inlet air-based building integrated photovoltaic/thermal (BIPV/T) system. Applied Energy. 159: p. 70-79.
Effect of Using Fins on Cell Temperature at Air-Based PVT
Year 2020,
Volume: 10 Issue: 1, 477 - 488, 01.03.2020
Ahmet Numan Özakın
,
Ferhat Kaya
Abstract
In this study, the effect of addition of fins in air-based PVT system on cell temperature investigated. Experimental tests were performed with frequent and sparse fins configurations and also empty(non-finned) state. Also, thermal camera images of cells were investigated and compared to images obtained by Fluent Ansys. Cell temperatures for all status of both polycrystal and monocrystal panel decreased between 8-20 °C. Panel surface was observed to have a uniform temperature distribution. Finally, temperature distribution images obtained with ANSYS Fluent were found to be quite compatible with thermal camera images.
Project Number
BAP/2015-147
References
- Al-Waeli AHA, Sopian K, Kazem HA, Chaichan MT, 2017. Photovoltaic/Thermal (PV/T) systems: Status and future prospects. Renewable and Sustainable Energy Reviews. 77: p. 109-130.
- Bahaidarah HMS, Subhan, A, Gandhidasan P, Rehman S, 2013. Performance evaluation of a PV (photovoltaic) module by back surface water cooling for hot climatic conditions. Energy. 59: p. 445-453.
- Bahaidarah HMS, Baloch AAB, Gandhidasan P, 2016. Uniform cooling of photovoltaic panels: A review. Renewable and Sustainable Energy Reviews. 57: p. 1520-1544.
- Baloch AAB., Bahaidarah HMS., Gandhidasan P, Al-Sulaiman FA, 2015. Experimental and numerical performance analysis of a converging channel heat exchanger for PV cooling. Energy Conversion and Management. 103: p. 14-27.
- Bayrak F, Hamdeh NA, Alnefaie KA, Öztop HF, 2017. A review on exergy analysis of solar electricity production. Renewable and Sustainable Energy Reviews, . 74: p. 755-770.
- Bora B, Kumar R, Sastry OS, Prasad B, Mondal S, 2018. Energy rating estimation of PV module technologies for different climatic conditions. Solar Energy. 174: p. 901-911.
- Ceylan, İ, Yilmaz S, İnanç Ö, Ergün A, Gürel AE, Acar B, 2019. Determination of the heat transfer coefficient of PV panels. Energy. 175: p. 978-985.
- Chandel SS, Agarwal T, 2017. Review of cooling techniques using phase change materials for enhancing efficiency of photovoltaic power systems. Renewable & Sustainable Energy Reviews. 73: p. 1342-1351.
- Chauhan A, Tyagi V, Anand S, 2018. Futuristic approach for thermal management in solar PV/thermal systems with possible applications. Energy Conversion and Management. 163: p. 314-354.
- Cuce E, Cuce PM, Bali T, 2013. An experimental analysis of illumination intensity and temperature dependency of photovoltaic cell parameters. Applied Energy,. 111: p. 374-382.
- Dubey S, Tay AAO, 2013. Testing of two different types of photovoltaic–thermal (PVT) modules with heat flow pattern under tropical climatic conditions. Energy for Sustainable Development. 17(1): p. 1-12.
- Dubey S, Tiwari GN, 2008. Thermal modeling of a combined system of photovoltaic thermal (PV/T) solar water heater. Solar Energy. 82(7): p. 602-612.
- Fayaz H, Rahim NA, Hasanuzzaman M, 2019. A Rivai Numerical and outdoor real time experimental investigation of performance of PCM based PVT system. Solar Energy. 179: p. 135-150.
- Gang P, Huide F, Tao Z, Jie J. 2011. A numerical and experimental study on a heat pipe PV/T system. Solar Energy. 85(5): p. 911-921.
- Ghosh S, Yadav, VK, Mukherjee V, 2019. Impact of environmental factors on photovoltaic performance and their mitigation strategies–A holistic review. Renewable Energy Focus. 28: p. 153-172.
- Gökmen N, Hu W, Hou P, Chen Z, Sera D, Spataru S, 2016. Investigation of wind speed cooling effect on PV panels in windy locations. Renewable Energy. 90: p. 283-290.
- Kaiser AS, Zamora B, Mazón R, García JR, Vera F, 2014. Experimental study of cooling BIPV modules by forced convection in the air channel. Applied Energy. 135: p. 88-97.
- Kaldellis JK, M Kapsali, Kavadias KA, 2014. Temperature and wind speed impact on the efficiency of PV installations. Experience obtained from outdoor measurements in Greece. Renewable Energy. 66: p. 612-624.
- Kalogirou SA, 2001. Use of TRNSYS for modelling and simulation of a hybrid pv–thermal solar system for Cyprus. Renewable Energy. 23(2): p. 247-260.
- Kazemian A, Hosseinzadeh M, Sardarabadi M, 2018. Effect of glass cover and working fluid on the performance of photovoltaic thermal (PVT) system: An experimental study. Solar Energy. 173: p. 1002-1010.
- Kumar, R. Rosen MA, 2011a. A critical review of photovoltaic–thermal solar collectors for air heating. Applied Energy. 88(11): p. 3603-3614.
- Kumar R, Rosen MA, 2011b. Performance evaluation of a double pass PV/T solar air heater with and without fins. Applied Thermal Engineering. 31(8): p. 1402-1410.
- Lamnatou C, Chemisana D, 2017. Photovoltaic/thermal (PVT) systems: A review with emphasis on environmental issues. Renewable Energy. 105: p. 270-287.
- Omer KA, Zala AM, 2018. Experimental investigation of PV/thermal collector with theoretical analysis. Renewable Energy Focus. 27: p. 67-77.
- Özakin AN, Kaya F, 2019. Effect on the exergy of the PVT system of fins added to an air-cooled channel: A study on temperature and air velocity with ANSYS Fluent. Solar Energy. 184: p. 561-569.
- Özakin AN, Kaya F, 2020. Experimental thermodynamic analysis of air-based PVT system using fins in different materials: Optimization of control parameters by Taguchi method and ANOVA. Solar Energy. 197: p. 199-211.
- Saidur R, Jazi GB, Mekhlif S, Jameel M, 2012.Exergy analysis of solar energy applications. Renewable and Sustainable Energy Reviews. 16(1): p. 350-356.
- Shukla A, Kanta K, Sharmaa A, Biwole PH, 2017. Cooling methodologies of photovoltaic module for enhancing electrical efficiency: A review. Solar Energy Materials and Solar Cells. 160: p. 275-286.
- Tonui JK, Tripanagnostopoulos Y, 2008. Performance improvement of PV/T solar collectors with natural air flow operation. Solar Energy. 82(1): p. 1-12.
- Ustun TS, Nakamura Y, Hashimoto J, Otani K, 2019.Performance analysis of PV panels based on different technologies after two years of outdoor exposure in Fukushima, Japan. Renewable Energy. 136: p. 159-178.
- Venkateswari R, Sreejith S, 2019. Factors influencing the efficiency of photovoltaic system. Renewable and Sustainable Energy Reviews. 101: p. 376-394.
- Wu SY, Wang T, Xiao L, Shen ZG, 2019. Effect of cooling channel position on heat transfer characteristics and thermoelectric performance of air-cooled PV/T system. Solar Energy. 180: p. 489-500.
- Yang T, Athienitis AK, 2014. A study of design options for a building integrated photovoltaic/thermal (BIPV/T) system with glazed air collector and multiple inlets. Solar Energy. 104: p. 82-92.
- Yang T, Athienitis AK, 2015. Experimental investigation of a two-inlet air-based building integrated photovoltaic/thermal (BIPV/T) system. Applied Energy. 159: p. 70-79.