Preprint Article Version 1 Preserved in Portico This version is not peer-reviewed

Mixed Convective in an Axisymmetric Magneto Flow Owing to MoS2-GO Hybrid Nanoliquids in H2O Based Liquid through an Upright Cylinder with Shape Factor

Version 1 : Received: 18 March 2020 / Approved: 19 March 2020 / Online: 19 March 2020 (13:58:10 CET)

How to cite: Malaver, M.; Kasmaei, H.; Khan, U.; Zaib, A. Mixed Convective in an Axisymmetric Magneto Flow Owing to MoS2-GO Hybrid Nanoliquids in H2O Based Liquid through an Upright Cylinder with Shape Factor . Preprints 2020, 2020030301 (doi: 10.20944/preprints202003.0301.v1). Malaver, M.; Kasmaei, H.; Khan, U.; Zaib, A. Mixed Convective in an Axisymmetric Magneto Flow Owing to MoS2-GO Hybrid Nanoliquids in H2O Based Liquid through an Upright Cylinder with Shape Factor . Preprints 2020, 2020030301 (doi: 10.20944/preprints202003.0301.v1).

Abstract

In the presented paper, a comprehensive study will be done on shape factor analysis of MoS2-GO in H2O-C2H6O2 based hybrid nanoliquids associated with effect and influence of transverse magnetic field and thermal radiation. The effect of variation in different parameters and nanoliquids shapes under temperature and velocity distribution is explored and also non-linear thermal radiation will be analyzed. Algorithms are introduced in proportion to mathematical modeling based on their numerical results and comparative curves for further explanation. In addition, it will be done research for influence and effect of new significant parameters emerged to the model to do sensitivity analysis and also their output results are demonstrated, examined and compared together by presenting graphs and tables. Based on detailed discussions, authentication of attained results designates the high accuracy of applied methods deployed to solve presented model in the paper. Our results satisfy that our used approach is accurate, highly reliable and also effective. All mentioned steps will be described throughout the literature.

Subject Areas

Nanoliquids; Nanofluids; Thermal conductivity; cylinder; shapefactor; Nanoparticles; Simulation; Thermal radiation; Thermal expansion

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