Thermal stability of magneto-hybridized silicon and aluminum oxides nanoparticle in C3H8O2-Williamson exothermic reactive fluid with thin radiation for perovskite solar power-Reference-Cited by-同舟云学术

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Thermal stability of magneto-hybridized silicon and aluminum oxides nanoparticle in C3H8O2-Williamson exothermic reactive fluid with thin radiation for perovskite solar power

Published:2024-10 Issue:4 Volume:51 Page:100284
ISSN:2307-4108
Container-title:Kuwait Journal of Science
language:en
Short-container-title:Kuwait Journal of Science

Author:

Salawu S.O.^ORCID,Obalalu A.M.,Shamshuddin MD.,Fatunmbi E.O.,Ajilore O.J.

Funder

Bowen University

Publisher

Elsevier BV

Reference37 articles.

1. Irreversibility analysis of hybrid nanofluid flow over a thin needle with effects of energy dissipation;Afridi;Symmetry,2019

2. Experimental investigation for automotive radiator heat transfer performance with ZnO-Al2O3/water-based hybird nanoparticles: An improved thermal model;Ahmad;Int. J. Mod. Phys.,2023

3. Combined theoretical and experimental DFT-TDDFT and thermal characteristics of 3-D flow in rotating tube of [PEG+H2O/SiO2-Fe3O4] hybrid nanofluid to enhancing oil extraction;Al-Hossainy;Waves Random Complex Media,2021

4. Velocity and thermal slip impact towards GO-MoS2/C3H8O3 hybridity nanofluid flowing via a moving Riga plate;Aminuddin;Ain Shams Eng. J.,2024

5. Numerical Analysis;Burden,2001

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