Analysis of Maxwell bioconvective nanofluids with surface suction and slip conditions in the presence of solar radiations

Several researchers have studied nanofluids over the past several decades and tried to identify potential agents that are added to nanofluids (nanoparticle suspensions) with tremendous thermal conductivity. In such suspensions, the Brownian motion of nanoparticles is the only means expected to be as...

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Published inJournal of physics communications Vol. 5; no. 11; pp. 115014 - 115026
Main Authors Khan, Naseer M, Ullah, Naeem, Zeb Khan, Jahan, Qaiser, Dania, Riaz Khan, M
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.11.2021
Subjects
Heat conductivity
Maxwell nanofluid
Nanoparticles
numerical solutions
solar radiations
surface suction
velocity slip
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Abstract Several researchers have studied nanofluids over the past several decades and tried to identify potential agents that are added to nanofluids (nanoparticle suspensions) with tremendous thermal conductivity. In such suspensions, the Brownian motion of nanoparticles is the only means expected to be associated with the improved thermal conductivity of nanofluids, and the sections that may add to this are the subject of main conversation and discussion. In the current evaluation, the effect of Brownian motion has been investigated by injecting nanoparticles into the base fluid, and the existing fundamental information is available at creation. Propagation results show that this mixing effect can significantly increase the thermal conductivity of nanofluids. One of the interesting features of this model is that the temperature can be increased by the energy of sunlight, which is required for some industrial processes. The stretching property of the sheet is more conducive to the temperature rise. This model contains features that have not been previously studied, which is driving demand for this model in a variety of industries, now and in future generations.
AbstractList Several researchers have studied nanofluids over the past several decades and tried to identify potential agents that are added to nanofluids (nanoparticle suspensions) with tremendous thermal conductivity. In such suspensions, the Brownian motion of nanoparticles is the only means expected to be associated with the improved thermal conductivity of nanofluids, and the sections that may add to this are the subject of main conversation and discussion. In the current evaluation, the effect of Brownian motion has been investigated by injecting nanoparticles into the base fluid, and the existing fundamental information is available at creation. Propagation results show that this mixing effect can significantly increase the thermal conductivity of nanofluids. One of the interesting features of this model is that the temperature can be increased by the energy of sunlight, which is required for some industrial processes. The stretching property of the sheet is more conducive to the temperature rise. This model contains features that have not been previously studied, which is driving demand for this model in a variety of industries, now and in future generations.
Author Qaiser, Dania
Riaz Khan, M
Zeb Khan, Jahan
Ullah, Naeem
Khan, Naseer M
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  surname: Ullah
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  organization: University of Chinese Academy of Sciences LSEC and ICMSEC, Academy of Mathematics and Systems Science, Chinese Academy of Sciences; School of Mathematical Science, Beijing 100190, People's Republic of China
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Snippet Several researchers have studied nanofluids over the past several decades and tried to identify potential agents that are added to nanofluids (nanoparticle...
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StartPage 115014
SubjectTerms Heat conductivity
Maxwell nanofluid
Nanoparticles
numerical solutions
solar radiations
surface suction
velocity slip
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Title Analysis of Maxwell bioconvective nanofluids with surface suction and slip conditions in the presence of solar radiations
URI https://iopscience.iop.org/article/10.1088/2399-6528/ac36b4
https://www.proquest.com/docview/2600970262
Volume 5
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