Performance Comparison of single‐slope solar still loaded with various nanofluids

G. S. Dhindsa; Vijay Kumar; M. K. Mittal; G.S. Sokhal; Nima Khalilpoor; Mohsen Sharifpur; Alibek Issakhov; Ravinder Tonk

doi:10.1002/ese3.993

Energy Science & Engineering (Nov 2022)

Performance Comparison of single‐slope solar still loaded with various nanofluids

G. S. Dhindsa,
Vijay Kumar,
M. K. Mittal,
G.S. Sokhal,
Nima Khalilpoor,
Mohsen Sharifpur,
Alibek Issakhov,
Ravinder Tonk

Affiliations

G. S. Dhindsa: Department of Mechanical Engineering Chandigarh University Mohali India
Vijay Kumar: Mechanical Engineering Department Thapar Institute of Engineering & Technology Patiala India
M. K. Mittal: Mechanical Engineering Department Thapar Institute of Engineering & Technology Patiala India
G.S. Sokhal: Department of Mechanical Engineering Chandigarh University Mohali India
Nima Khalilpoor: Department of Energy Engineering Graduate School of the Environment and Energy Science and Research Branch Islamic Azad University Tehran Iran
Mohsen Sharifpur: Department of Mechanical and Aeronautical Engineering Clean Energy Research Group University of Pretoria, Hatfield Pretoria South Africa
Alibek Issakhov: Faculty of Mechanics and Mathematics Department of Mathematical and Computer Modelling Al‐Farabi Kazakh National University Almaty Kazakhstan
Ravinder Tonk: Department of Mechanical Engineering Chandigarh University Mohali India

DOI: https://doi.org/10.1002/ese3.993
Journal volume & issue: Vol. 10, no. 11
pp. 4318 – 4331

Abstract

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Abstract Nanofluids are great heat transfer carriers for collecting thermal energy in solar thermal applications. In the present study, a theoretical study of single‐slope solar still (passive type) has been carried out by incorporating CuO, Al2O3, Ag, Fe2O3, and SiC‐water nanofluids at different volume concentrations (0.02, 0.05, 0.08, 0.12, and 0.2). This analysis has been carried out with an optimum water depth of 0.02m as obtained from the experimental and theoretical studies. In order to validate the model, the experiments were conducted on solar still and then performance of still was compared. The analytical expression of the characteristic equation using Runga‐Kutta ODE, for passive single slope solar still was found to be in good agreement with experiments carried out in Patiala, India. The total deviation for both experimental and theoretical distillate output of a still for a day was found to be 12.24%. Daily production for Al2O3‐water‐based nanofluid was found to be (14.22%) higher than simple solar still without nanofluid, followed by CuO (10.82%), Ag (8.11%), Fe2O3 (7.63%) and SiC (7.61%).

Published in Energy Science & Engineering

ISSN: 2050-0505 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology; Science
Website: http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2050-0505

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