Article: Experimental exergy analysis of water-cooled PV module Journal: International Journal of Exergy (IJEX) 2017 Vol.23 No.3 pp.197 - 209 Abstract: The solar photovoltaic (PV) cell converts solar energy into electricity with a relatively low efficiency which is <15%. More than 80% of the absorbed solar energy is dumped into the surroundings as heat after photovoltaic conversion. The operating temperature of the photovolatic module should be maintained as low as possible to improve the efficiency. This research work proposes recycle water-cooled solar photovoltaic system design by using a mono-crystalline and amorphous silicon PV module as solar absorber. Recycle water cooling of a normal amorphous and crystalline PV module configured as water base solar PV system by forced flow is studied. The energy and exergy performance of the PV module has been experimentally determined at 3.5 l/min (210 l/h) mass flow rate. The experimental result shows that the water-cooled solar PV module has got better performance than the PV module without cooling. Around 4.5% of amorphous and 3.2% of mono-crystalline module energy efficiency improved on cooling along with 6.5% of amorphous and 5% of mono-crystalline module exergy efficiency improvement with respect to without cooling/normal solar PV module. Inderscience Publishers - linking academia, business and industry through research

Title: Experimental exergy analysis of water-cooled PV module

Authors: Prabhat Kumar; Akash Kumar Shukla; K. Sudhakar; Rizalman Mamat

Addresses: Department of Mechanical Engineering, RITS Bhopal, Bhopal, 462046, India ' Energy Centre, Maulana Azad National Institute of Technology (MANIT), Bhopal, 462003, India; Faculty of Mechanical Engineering, Universiti Malaysia Pahang, Pahang, 26600, Malaysia ' Energy Centre, Maulana Azad National Institute of Technology (MANIT), Bhopal, 462003, India; Faculty of Mechanical Engineering, Universiti Malaysia Pahang, Pahang, 26600, Malaysia ' Faculty of Mechanical Engineering, Universiti Malaysia Pahang, Pahang, 26600, Malaysia

Abstract: The solar photovoltaic (PV) cell converts solar energy into electricity with a relatively low efficiency which is <15%. More than 80% of the absorbed solar energy is dumped into the surroundings as heat after photovoltaic conversion. The operating temperature of the photovolatic module should be maintained as low as possible to improve the efficiency. This research work proposes recycle water-cooled solar photovoltaic system design by using a mono-crystalline and amorphous silicon PV module as solar absorber. Recycle water cooling of a normal amorphous and crystalline PV module configured as water base solar PV system by forced flow is studied. The energy and exergy performance of the PV module has been experimentally determined at 3.5 l/min (210 l/h) mass flow rate. The experimental result shows that the water-cooled solar PV module has got better performance than the PV module without cooling. Around 4.5% of amorphous and 3.2% of mono-crystalline module energy efficiency improved on cooling along with 6.5% of amorphous and 5% of mono-crystalline module exergy efficiency improvement with respect to without cooling/normal solar PV module.

Keywords: solar; PV cell; photovoltaic; temperature; energy; exergy; DC pump; recycle.

DOI: 10.1504/IJEX.2017.085768

International Journal of Exergy, 2017 Vol.23 No.3, pp.197 - 209

Received: 28 Nov 2016
Accepted: 26 Apr 2017
Published online: 12 Aug 2017 *

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Title: Experimental exergy analysis of water-cooled PV module

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