Abstract
This paper presents an experimental investigation on a hybrid solar system, including a water-based photovoltaic (PV) solar module and a phase change material (PCM)-based cooling tower, for cooling of the module. Elimination of heat from the PV module was performed by the use of water in the back of the panel. The PCM-based cooling tower was used as a postcooling system. A composite oil consisting of 82 wt% coconut oil and 18 wt% sunflower oil has been used as a novel phase change material in the cooling tower. The helical tubes of the cooling tower were fabricated in two different curvature ratios of 0.054 and 0.032. The experiments were performed at three different water flow rates of 11.71, 16.13, and 19.23 mL/s. The cooling performance evaluation was carried out using the average surface temperature and output power of the photovoltaic panel. The results indicated that diminution of the average PV surface temperature relative to the reference temperature was 34.01 and 32.36 °C at a water flow rate of 19.23 mL/s for the cooling systems with helical tube curvature ratios 0.054 and 0.032, respectively. Furthermore, the highest electric output power was achieved for the cooling system with a helical tube curvature ratio of 0.054 at a water flow rate of 19.23 mL/s.
Issue Section:
Research Papers
Topics:
Cooling,
Cooling systems,
Cooling towers,
Flow (Dynamics),
Temperature,
Water,
Heat,
Solar energy,
Heat transfer
References
1.
Kuznecova
, I.
, and Gusca
, J.
, 2017
, “Property Based Ranking of CO and CO2 Methanation Catalysts
,” Energy Procedia
, 128
, pp. 255
–260
. 10.1016/j.egypro.2017.09.0682.
Faizal
, M.
, Saidur
, R.
, Mekhilef
, S.
, and Alim
, M. A.
, 2013
, “Energy, Economic and Environmental Analysis of Metal Oxides Nanofluid for Flat-Plate Solar Collector
,” Energy Convers. Manage.
, 76
, pp. 162
–168
. 10.1016/j.enconman.2013.07.0383.
Zhao
, J.
, Song
, Y.
, Lam
, W.
, Liu
, W.
, Liu
, Y.
, Zhang
, Y.
, and Wang
, D.
, 2011
, “Solar Radiation Transfer and Performance Analysis of an Optimum Photovoltaic/Thermal System
,” Energy Convers. Manage.
, 52
(2
), pp. 1343
–1353
. 10.1016/j.enconman.2010.09.0324.
Meral
, M. E.
, and Dinc
, F.
, 2011
, “A Review of the Factors Affecting Operation and Efficiency of Photovoltaic Based Electricity Generation Systems
,” Renew. Sustain. Energy Rev.
, 15
(5
), pp. 2176
–2184
. 10.1016/j.rser.2011.01.0105.
Ho
, T.
, Mao
, S. S.
, and Greif
, R.
, 2010
, “Improving Efficiency of High-Concentrator Photovoltaics by Cooling With Two-Phase Forced Convection
,” Int. J. Energy Res.
, 34
(14
), pp. 1257
–1271
. 10.1002/er.16706.
Essalaimeh
, S.
, Al-salaymeh
, A.
, and Abdullat
, Y.
, 2013
, “Electrical Production for Domestic and Industrial Applications Using Hybrid PV—Wind System
,” Energy Convers. Manage.
, 65
, pp. 736
–743
. 10.1016/j.enconman.2012.01.0447.
Gang
, P.
, Huide
, F.
, Jie
, J.
, Tin-Tai
, C.
, and Tao
, Z.
, 2012
, “Annual Analysis of Heat Pipe PV/T Systems for Domestic Hot Water and Electricity Production
,” Energy Convers. Manage.
, 56
, pp. 8
–21
. 10.1016/j.enconman.2011.11.0118.
Kribus
, A.
, Kaftori
, D.
, Mittelman
, G.
, Hirshfeld
, A.
, Flitsanov
, Y.
, and Dayan
, A.
, 2006
, “A Miniature Concentrating Photovoltaic and Thermal System
,” Energy Convers. Manage.
, 47
(20
), pp. 3582
–3590
. 10.1016/j.enconman.2006.01.0139.
Kandilli
, C.
, 2013
, “Performance Analysis of a Novel Concentrating Photovoltaic Combined System
,” Energy Convers. Manage.
, 67
, pp. 186
–196
. 10.1016/j.enconman.2012.11.02010.
Schiro
, F.
, Benato
, A.
, Stoppato
, A.
, and Destro
, N.
, 2017
, “Improving Photovoltaics Efficiency by Water Cooling: Modelling and Experimental Approach
,” Energy
, 137
, pp. 798
–810
. 10.1016/j.energy.2017.04.16411.
Sahay
, A.
, Sethi
, V. K.
, Tiwari
, A. C.
, and Pandey
, M.
, 2015
, “A Review of Solar Photovoltaic Panel Cooling Systems With Special Reference to Ground Coupled Central Panel Cooling System (GC-CPCS)
,” Renew. Sustain. Energy Rev.
, 42
, pp. 306
–312
. 10.1016/j.rser.2014.10.00912.
Yin
, E.
, Li
, Q.
, and Xuan
, Y.
, 2018
, “One-Day Performance Evaluation of Photovoltaic-Thermoelectric Hybrid System
,” Energy
, 143
(C
), pp. 337
–346
. 10.1016/j.energy.2017.11.01113.
Willars-Rodríguez
, F. J.
, Chávez-Urbiola
, E. A.
, Vorobiev
, P.
, and Vorobiev
, Y. V.
, 2017
, “Investigation of Solar Hybrid System With Concentrating Fresnel Lens, Photovoltaic and Thermoelectric Generators
,” Int. J. Energy Res.
, 41
(3
), pp. 377
–388
. 10.1002/er.361414.
Sardarabadi
, M.
, Passandideh-Fard
, M.
, Maghrebi
, M. J.
, and Ghazikhani
, M.
, 2017
, “Experimental Study of Using Both ZnO/Water Nanofluid and Phase Change Material (PCM) in Photovoltaic Thermal Systems
,” Sol. Energy Mater. Sol. Cells
, 161
, pp. 62
–69
. 10.1016/j.solmat.2016.11.03215.
Huang
, M. J.
, Eames
, P. C.
, Norton
, B.
, and Hewitt
, N. J.
, 2011
, “Natural Convection in an Internally Finned Phase Change Material Heat Sink for the Thermal Management of Photovoltaics
,” Sol. Energy Mater. Sol. Cells
, 95
(7
), pp. 1598
–1603
. 10.1016/j.solmat.2011.01.00816.
Mittelman
, G.
, Alshare
, A.
, and Davidson
, J. H.
, 2009
, “A Model and Heat Transfer Correlation for Rooftop Integrated Photovoltaics With a Passive Air Cooling Channel
,” Sol. Energy
, 83
(8
), pp. 1150
–1160
. 10.1016/j.solener.2009.01.01517.
Sandberg
, M.
, and Moshfegh
, B.
, 2002
, “Buoyancy-Induced Air Flow in Photovoltaic Facades: Effect of Geometry of the Air Gap and Location of Solar Cell Modules
,” Build. Environ.
, 37
(3
), pp. 211
–218
. 10.1016/S0360-1323(01)00025-718.
Han
, X.
, Wang
, Y.
, and Zhu
, L.
, 2011
, “Electrical and Thermal Performance of Silicon Concentrator Solar Cells Immersed in Dielectric Liquids
,” Appl. Energy
, 88
(12
), pp. 4481
–4489
. 10.1016/j.apenergy.2011.05.03719.
Rosa-Clot
, M.
, Rosa-Clot
, P.
, Tina
, G. M.
, and Scandura
, P. F.
, 2010
, “Submerged Photovoltaic Solar Panel: SP2
,” Renew. Energy
, 35
(8
), pp. 1862
–1865
. 10.1016/j.renene.2009.10.02320.
Hasanuzzaman
, M.
, Malek
, A. B.
, Islam
, M. M.
, Pandey
, A. K.
, and Rahim
, N. A.
, 2016
, “Global Advancement of Cooling Technologies for PV Systems: A Review
,” Sol. Energy
, 137
, pp. 25
–45
. 10.1016/j.solener.2016.07.01021.
Prakash
, J.
, 1994
, “Transient Analysis of a Photovoltaic-Thermal Solar Collector for Co-Generation of Electricity and Hot Air/Water
,” Energy Convers. Manage.
, 35
(11
), pp. 967
–972
. 10.1016/0196-8904(94)90027-222.
Hosseini
, R.
, Hosseini
, N.
, and Khorasanizadeh
, H.
, 2011
, “An Experimental Study of Combining a Photovoltaic System With a Heating System
,” World Renewable Energy Congress
, Linköping, Sweden
, May 8–13
, pp. 2993
–3000
.23.
Nižetić
, S.
, Čoko
, D.
, Yadav
, A.
, and Grubišić-Čabo
, F.
, 2016
, “Water Spray Cooling Technique Applied on a Photovoltaic Panel: The Performance Response
,” Energy Convers. Manage.
, 108
, pp. 287
–296
. 10.1016/j.enconman.2015.10.07924.
Alzaabi
, A. A.
, Badawiyeh
, N. K.
, Hantoush
, H. O.
, and Hamid
, A. K.
, 2014
, “Electrical/Thermal Performance of Hybrid PV/T System in Sharjah, UAE
,” Int. J. Smart Grid Clean Energy
, 3
, pp. 385
–389
. 10.12720/sgce.3.4.385-38925.
Preet
, S.
, Bhushan
, B.
, and Mahajan
, T.
, 2017
, “Experimental Investigation of Water Based Photovoltaic/Thermal (PV/T) System With and Without Phase Change Material (PCM)
,” Sol. Energy
, 155
, pp. 1104
–1120
. 10.1016/j.solener.2017.07.04026.
Bahrampour
, M. R.
, Askari
, M. B.
, Mirzaei Mahmoud Abadi
, V.
, Mirhabibi
, M.
, and Tikdari
, M.
, 2016
, “The Consideration of Lut Desert Potential in the Production of Electric Energy From Solar Energy
,” World J. Eng.
, 13
, pp. 275
–280
. 10.1108/WJE-06-2016-03727.
Sudhakar
, P.
, Kumaresan
, G.
, and Velraj
, R.
, 2017
, “Experimental Analysis of Solar Photovoltaic Unit Integrated With Free Cool Thermal Energy Storage System
,” Sol. Energy
, 158
, pp. 837
–844
. 10.1016/j.solener.2017.10.04328.
Meng
, Q.
, Wang
, Y.
, and Zhang
, L.
, 2011
, “Irradiance Characteristics and Optimization Design of a Large-Scale Solar Simulator
,” Sol. Energy
, 85
(9
), pp. 1758
–1767
. 10.1016/j.solener.2011.04.01429.
Jang
, S. H.
, and Shin
, M. W.
, 2010
, “Fabrication and Thermal Optimization of LED Solar Cell Simulator
,” Curr. Appl. Phys.
, 10
(3
), pp. S537
–S539
. 10.1016/j.cap.2010.02.03530.
Wang
, W.
, and Laumert
, B.
, 2014
, “Simulate a ‘Sun’ for Solar Research: A Literature Review of Solar Simulator Technology
,” KTH Royal Institute of Technology
.31.
Huang
, S.
, Lv
, Z.
, Zhang
, X.
, and Liang
, C.
, 2018
, “Experimental Investigation on Heat and Mass Transfer in Heating Tower Solution Regeneration Using Packing Tower
,” Energy Build.
, 164
, pp. 77
–86
. 10.1016/j.enbuild.2017.12.06432.
Khanna
, S.
, Reddy
, K. S.
, and Mallick
, T. K.
, 2017
, “Performance Analysis of Tilted Photovoltaic System Integrated With Phase Change Material Under Varying Operating Conditions
,” Energy
, 133
, pp. 887
–899
. 10.1016/j.energy.2017.05.15033.
Kanungo
, S.
, 2014
, “Numerical Analysis to Optimize the Heat Transfer Rate of Tube-in-Tube Helical Coil Heat Exchanger
,” Ph.D. dissertation, Department of Mechanical Engineering, National Institute of Technology Rourkela
, Rourkela, India
.Copyright © 2019 by ASME
You do not currently have access to this content.
