NONLINEAR THERMAL RADIATION AND ACTIVATION ENERGY EFFECTS ON BIOCONVECTIVE FLOW OF EYRING-POWELL FLUID

被引：0

作者：

Sumithra, A. ^{[1
]}

Sivaraj, R. ^{[1
]}

Benazir, A. Jasmine ^{[2
]}

Makinde, O. D. ^{[3
]}

机构：

[1] Vellore Inst Technol, Sch Adv Sci, Dept Math, Vellore 632014, Tamil Nadu, India

[2] AKT Mem Coll Engn & Technol, Kallakurichi 606202, Villupuram, India

[3] Stellenbosch Univ, Fac Mil Sci, Private Bag X2, ZA-7395 Saldanha, South Africa

来源：

COMPUTATIONAL THERMAL SCIENCES | 2021年 / 13卷 / 06期

关键词：

Eyring-Powell fluid; nonlinear thermal radiation; activation energy; microorganisms; bioconvection; CHEMICAL-REACTION; BROWNIAN-MOTION; VISCOUS DISSIPATION; HEAT SOURCE/SINK; MAGNETIC-FIELD; MOVING SURFACE; NANOFLUID; THERMOPHORESIS; SHEET;

D O I：

暂无

中图分类号：

O414.1 [热力学];

学科分类号：

摘要：

The dynamics of Eyring-Powell nanofluid suspended with microorganisms on a plate, wedge, and stagnation point is explored. The flow field is influenced by nonlinear thermal radiation, activation energy, and bioconvection. The governing equations are modified into a system of ordinary differential equations (ODE) by similarity transformation, which are numerically solved through the R-K shooting method. This study addresses the effect of various pertinent factors on the fluid flow, mass, and heat transfer characteristics, which are elucidated via graphs and tables. It is witnessed that the Eyring-Powell (EP) fluid material parameters lambda(l) and lambda(2) exhibit a contrary nature on the velocity profiles. Improved values of Prandtl number magnify the heat transfer. Larger values of Schmidt number weaken the concentration boundary layer. The density of microorganisms depreciates for growing values of Peclet number and bioconvective Schmidt number.

引用

页码：85 / 99

页数：15

共 50 条

[1] Nonlinear thermal radiation and activation energy effects on bioconvective flow of eyring–powell fluid
Sumithra A.
Sivaraj R.
Jasmine Benazir A.
Makinde O.D.
Computational Thermal Sciences, 2021, 13 (06): : 85 - 99
[2] Significance of nonlinear thermal radiation in 3D Eyring-Powell nanofluid flow with Arrhenius activation energy
Muhammad, Taseer
Waqas, Hassan
Khan, Shan Ali
Ellahi, R.
Sait, Sadiq M.
JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 2021, 143 (02) : 929 - 944
[3] The bioconvective flow of an Eyring-Powell nanoliquid: the influence of entropy
Patil, P. M.
Benawadi, Sunil
INTERNATIONAL JOURNAL OF MODELLING AND SIMULATION, 2023,
[4] Influence of thermal radiation and Joule heating in the Eyring-Powell fluid flow with the Soret and Dufour effects
Hayat, T.
Ali, Sh
Alsaedi, A.
Alsulami, H. H.
JOURNAL OF APPLIED MECHANICS AND TECHNICAL PHYSICS, 2016, 57 (06) : 1051 - 1060
[5] Impact of chemical reaction on Eyring-Powell fluid flow over a thin needle with nonlinear thermal radiation
Nadeem, Muhammad
Siddique, Imran
Din, Irfan Saif Ud
Awwad, Fuad A.
Ismail, Emad A. A.
Ahmad, Hijaz
SCIENTIFIC REPORTS, 2023, 13 (01):
[6] Endoscopic effects on the peristaltic flow of an Eyring-Powell fluid
Nadeem, S.
Akbar, Noreen Sher
Ali, Mohamed
MECCANICA, 2012, 47 (03) : 687 - 697
[7] Radiative-dissipative effects on bioconvective MHD flow in Eyring-Powell ternary nanofluids
Farooq, Umar
Liu, Tao
Alshamrani, Ali
Jan, Ahmed
JOURNAL OF BIOLOGICAL PHYSICS, 2025, 51 (01)
[8] Radiative-dissipative effects on bioconvective MHD flow in Eyring-Powell ternary nanofluidsRadiative-dissipative effects on bioconvective MHD flow in Eyring-Powell ternary nanofluidsU. Farooq et al.
Umar Farooq
Tao Liu
Ali Alshamrani
Ahmed Jan
Journal of Biological Physics, 2025, 51 (1)
[9] Analyzing the MHD Bioconvective Eyring-Powell Fluid Flow over an Upright Cone/Plate Surface in a Porous Medium with Activation Energy and Viscous Dissipation
Peter, Francis
Sambath, Paulsamy
Dhanasekaran, Seshathiri
COMPUTATION, 2024, 12 (03)
[10] Effects of viscous dissipation and activation energy for the MHD Eyring-powell fluid flow with Darcy-Forchheimer and variable fluid properties
Awais, Muhammad
Salahuddin, T.
Muhammad, Shah
AIN SHAMS ENGINEERING JOURNAL, 2024, 15 (02)

← 1 2 3 4 5 →