Experimental Investigation of Coefficient of Performance Enhancement (COP) in Ice Plant Using Brine-Based Metal Oxide Nanofluids-Reference-Cited by-同舟云学术

Experimental Investigation of Coefficient of Performance Enhancement (COP) in Ice Plant Using Brine-Based Metal Oxide Nanofluids

Published:2023-10-01 Issue:7 Volume:12 Page:1859-1867
ISSN:2169-432X
Container-title:Journal of Nanofluids
language:en
Short-container-title:j nanofluids

Author:

Sonawane Sandipkumar B.¹,Pawar Suyash Y.¹,Chamkha Ali J.²,Kolhe Vikram A.³,Kings Krishna Nagarajasingh R.⁴,Chandratre Kailas V.⁵,Lature Hitendra Kumar⁶,Suryawanshi Satish J.¹,Sunil J.⁴

Affiliation:

1. Department of Mechanical Engineering, MVPS’s KBT College of Engineering, Nashik, Maharashtra 422013, India

2. Faculty of Engineering, Kuwait College of Science and Technology, Doha District 35004, Kuwait

3. Department of Mechanical Engineering, Late G.N. Sapkal College of Engineering, Maharashtra 422213, India

4. Department of Mechanical Engineering, Annai Vailankanni College of Engineering, Kanyakumari 629702, Tamil Nadu, India

5. Department of Mechanical Engineering, KVN NSPS’s LGM Institute of Engineering Education and Research, Nashik, Maharashtra 422013, India

6. BYOS Scientific Lab, Aman Nagar, Mowa, Raipur Chhattisgarh 492007, India

Abstract

The research investigates brine-based metal oxide nanofluids to improve heat transfer and ice plant COP. The novelty of the study is in the use of stable nanofluids of ZnO, CuO, and Al2O3 prepared using surfactants and ultra-sonication to improve the performance of an ice plant working on the vapor compression refrigeration cycle. The study found that the COP of the ice plant was significantly enhanced using these nanofluids, with the greatest improvement of 27% observed for Al2O3 nanofluids at a particle volume concentration of 0.3%. The experiment also showed a reduction in compressor power consumption by 22% at the same concentration and temperature, indicating the potential use of these nanofluids in ice plant applications. The study further demonstrated that the COP improvement was more significant at a controlled temperature of 20 °C than at 25 °C.

Publisher

American Scientific Publishers

Subject

Fluid Flow and Transfer Processes,Mechanical Engineering

Reference37 articles.

1. Ethylene- and Propylene-Glycol Based Nanofluids: A Litterature Review on Their Thermophysical Properties and Thermal Performances

2. A new correlation for predicting the thermal conductivity of ZnO–Ag (50%–50%)/water hybrid nanofluid: An experimental study

3. Experimental investigation of thermal conductivity and dynamic viscosity on nanoparticle mixture ratios of TiO2-SiO2 nanofluids

4. Experimental study of thermal conductivity, heat transfer and friction factor of Al 2 O 3 based nanofluid

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