Analysis of oxytactic microorganisms and magnetic dipole for radiative cross fluid flow configured by nano-enhanced phase materials

Tabrez, Muhammad; Khan, Waqar Azeem; Irfan, Muhammad; Hussain, Iftikhar; Muhammad, Taseer

doi:10.24200/sci.2023.60843.7018

Analysis of oxytactic microorganisms and magnetic dipole for radiative cross fluid flow configured by nano-enhanced phase materials

Document Type : Article

Authors

¹ Department of Mathematics, Mohi-ud-Din Islamic University, Nerian Sharif, Azad Jammu and Kashmir 12010, Pakistan

² Department of Mathematical Sciences Federal Urdu University of Arts, Sciences & Technology, Islamabad 44000, Pakistan

³ Department of Mathematics, College of Science, King Khalid University, Abha, Saudi Arabia

10.24200/sci.2023.60843.7018

Abstract

Nanotechnology took interest of research community for the reason that of its vast range of uses and applications like killing cancerous cell, preparation of medicines, nano-robot technology, manufacturing of modern aircraft, distillation process of water, biomedical engineering, thermal storage as well as transfer system, cooling of electronic devices, aircraft engines, power plants, coolants in nuclear reactors, construction industry etc. While considering these outstanding applications, a major determination of contemporary research work is to explore the role of radiation phenomena in ferrofluid having magnetic effects too configured by impervious surfaces. Concept of microorganism is utilized to make suspension more stable, here nano sized particles are used with the effect of bio-convection to solve the simultaneous equations having magnetic effects. Research revealed that study of bio-convection is an interesting field because of its use in biotechnology as well as bioengineering procedures; most recently numerous models of bio convection were explored to produce more microbes for phenomena of microorganisms. Major purpose behind this investigation is exploration of two dimensional Cross fluid flow of ferrofluid with magnetic dipole effects.

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