A numerical treatment of radiative nanofluid 3D flow containinggyrotactic microorganism with anisotropic slip, binary chemical reactionand activation energy

Collection with item attached
2017
Item details URL
http://open-repository.kisti.re.kr/cube/handle/open_repository/473877.do
DOI
10.1038/s41598-017-16943-9
Title
A numerical treatment of radiative nanofluid 3D flow containinggyrotactic microorganism with anisotropic slip, binary chemical reactionand activation energy
Description
This work was supported by the Korea Institute of Energy TechnologyEvaluation and Planning (KETEP) and the Ministry of Trade, Industry &Energy (MOTIE) of the Republic of Korea (No. 20172010105570).
abstract
A numerical investigation of steady three dimensional nanofluid flow carrying effects of gyrotactic microorganism with anisotropic slip condition along a moving plate near a stagnation point is conducted. Additionally, influences of Arrhenius activation energy, joule heating accompanying binary chemical reaction and viscous dissipation are also taken into account. A system of nonlinear differential equations obtained from boundary layer partial differential equations is found by utilization of apposite transformations. RK fourth and fifth order technique of Maple software is engaged to acquire the solution of the mathematical model governing the presented fluid flow. A Comparison with previously done study is also made and a good agreement is achieved with existing results; hence reliable results are being presented. Evaluations are carried out for involved parameters graphically against velocity, temperature, concentration fields, microorganism distribution, density number, local Nusselt and Sherwood numbers. It is detected that microorganism distribution exhibit diminishing behavior for rising values of bio-convection Lewis and Peclet numbers.
provenance
Made available in Cube on 2018-09-28T10:31:15Z (GMT). No. of bitstreams: 0
language
English
author
Lu, Dianchen
Ramzan, M.
Ullah, Naeem
Chung, Jae Dong
Farooq, Umer
orcid
Lu, Dianchen/0000-0001-6896-172X
accessioned
2018-09-28T10:31:15Z
available
2018-09-28T10:31:15Z
issued
2017
citation
SCIENTIFIC REPORTS(7)
issn
2045-2322
uri
http://open-repository.kisti.re.kr/cube/handle/open_repository/473877.do
Funder
산업통상자원부
Funding Program
에너지수요관리핵심기술개발(에특)
Project ID
1415151905
Jurisdiction
Rep.of Korea
Project Name
Development of low temperature water driven low power adsorption cooling system
rights
openAccess
type
article


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