Significance of hafnium nanoparticles in hydromagnetic non-Newtonian fluid-particle suspension model through divergent channel with uniform heat source: thermal analysis

被引:8
作者
Saleem, Salman [3 ]
Nazeer, Mubbashar [1 ]
Radwan, Neyara [2 ]
Abutuqayqah, Hajar [4 ]
机构
[1] Govt Coll Univ Faisalabad, Inst Arts & Sci, Dept Math, Chiniot Campus, Faisalabad 35400, Pakistan
[2] Al Maarefa Univ, Coll Appl Sci, Ind Engn Dept, Riyadh, Saudi Arabia
[3] King Khalid Univ, Coll Sci, Dept Math, Abha 61413, Saudi Arabia
[4] Univ Coll Duba, Univ Tabuk, Dept Math, Tabuk, Saudi Arabia
来源
ZEITSCHRIFT FUR NATURFORSCHUNG SECTION A-A JOURNAL OF PHYSICAL SCIENCES | 2024年 / 79卷 / 06期
关键词
momentum and thermal analysis; exact solution; porous medium; stream function; uniform heat source; FLOW;
D O I
10.1515/zna-2023-0336
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
This theoretical analysis provided the exact solution of a steady flow of Casson rheological fluid in fluid-particle suspension models through a divergent channel with consideration of porous medium, electric, and magnetic fields, and slip boundary conditions. The thermal transport analysis is also observed with the consideration of viscous dissipation and uniform heat source. The suitable transformation is used to reduce the partial differential equation into ordinary differential equations and obtain the exact solution by adopting the mathematical software MATHEMATICA 12.0. The momentum and thermal profiles are decreasing functions of the magnetic field parameter. The number of streamlines is increased and covers more parts of the channel for increasing the Darcy force and velocity slip parameters. The computational results of this study will help to understand the momentum and thermal analysis in the fluid-particle suspension model. The results of the current study are useful to increase the oil recovery system, in thermal transport energy, energy production, cooling and heating systems, etc. The current model can be useful in renewable energy to store thermal energy by using the hafnium nanoparticles. The present analysis is original and has not been submitted nor published before.
引用
收藏
页码:567 / 582
页数:16
相关论文
共 39 条
[1]  
Adil M., 2023, WAVE RANDOM COMPLEX, P1, DOI [10.1080/17455030.2023.2176697, DOI 10.1080/17455030.20232176697]
[2]  
Ajaykumar M., 2024, Materials Today: Proceedings, V100, P4, DOI 10.1016/j.matpr.2023.04.437
[3]   Channel flow of non-Newtonian fluid due to peristalsis under external electric and magnetic field [J].
Asghar, Zeeshan ;
Khan, Muhammad Waris Saeed ;
Gondal, Muhammad Asif ;
Ghaffari, Abuzar .
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART E-JOURNAL OF PROCESS MECHANICAL ENGINEERING, 2022, 236 (06) :2670-2678
[4]   Effects of heat sink and source and entropy generation on MHD mixed convection of a Cu-water nanofluid in a lid-driven square porous enclosure with partial slip [J].
Chamkha, A. J. ;
Rashad, A. M. ;
Mansour, M. A. ;
Armaghani, T. ;
Ghalambaz, M. .
PHYSICS OF FLUIDS, 2017, 29 (05)
[5]   Numerical study of time dependent flow of immiscible Saffman dusty (fluid-particle suspension) and Eringen micropolar fluids in a duct with a modified cubic B-spline Differential Quadrature method [J].
Chandrawat, Rajesh Kumar ;
Joshi, Varun ;
Beg, O. Anwar .
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER, 2022, 130
[6]   Heat transfer and electroosmosis driven MHD peristaltic pumping in a microchannel with multiple slips and fluid properties [J].
Choudhari, Rajashekhar ;
Ramesh, Katta ;
Tripathi, Dharmendra ;
Vaidya, Hanumesh ;
Prasad, Kerehalli Vinayaka .
HEAT TRANSFER, 2022, 51 (07) :6507-6527
[7]   SUSPENDED PARTICLES IN FLUID FLOW THROUGH TUBES [J].
COX, RG ;
MASON, SG .
ANNUAL REVIEW OF FLUID MECHANICS, 1971, 3 :291-&
[8]   Electroosmotic Flow of Non-Newtonian Fluid in Porous Polymer Membrane at High Zeta Potentials [J].
Deng, Shuyan ;
Zeng, Yukun ;
Li, Mingying ;
Liang, Cuixiang .
MICROMACHINES, 2020, 11 (12) :1-13
[9]   Electro-osmotic particulate flow of non-Newtonian fluid in a bulged out cavity with lubrication: electro-osmotic dewatering approach [J].
Duraihem, Faisal Z. ;
Nazeer, Mubbashar ;
Hussain, Farooq ;
Saleem, S. .
COMPUTATIONAL PARTICLE MECHANICS, 2023, 10 (06) :1771-1780
[10]   Concurrent Development of Thermal Energy with Magnetic Field on a Particle-Fluid Suspension Through a Porous Conduit [J].
Eldesoky, I. M. ;
Abdelsalam, Sara I. ;
El-Askary, W. A. ;
Ahmed, M. M. .
BIONANOSCIENCE, 2019, 9 (01) :186-202