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CVFEM modeling for nanofluid behavior involving non-equilibrium model and Lorentz effect in appearance of radiation

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  • Nguyen-Thoi, Trung
  • Sheikholeslami, M.
  • Hamid, Muhammad
  • Haq, Rizwan-ul
  • Shafee, Ahmad

Abstract

In this model, a comprehensive study related to non-equilibrium model of nanomaterial is under consideration in attendance of magnetic force. Free convection effects will appear within the permeable medium by introducing the two different temperature dependent models. Radiation source is also added in energy equations. To obtain the results for system of constructed mathematical model in the form PDE, we have used CVFEM. To understand the outcomes, impacts of each parameter for stream function and isotherms are obtained. Various constrain are defined at the surface of the cavity to determine the heat transfer behavior. Impacts of buoyancy, parameter, magnetic forces, radiative factor, interface heat transfer parameter and nanoparticles’ shape on nanomaterial treatment are demonstrated. Outcomes illustrate by increasing the solid–nanofluid interface heat transfer parameter, conduction becomes more dominant while Nusselt number gradually decreases.

Suggested Citation

  • Nguyen-Thoi, Trung & Sheikholeslami, M. & Hamid, Muhammad & Haq, Rizwan-ul & Shafee, Ahmad, 2019. "CVFEM modeling for nanofluid behavior involving non-equilibrium model and Lorentz effect in appearance of radiation," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 534(C).
  • Handle: RePEc:eee:phsmap:v:534:y:2019:i:c:s0378437119312506
    DOI: 10.1016/j.physa.2019.122154
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    References listed on IDEAS

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    1. Liu, Qun & Jiang, Daqing & Hayat, Tasawar & Alsaedi, Ahmed, 2018. "Long-time behavior of a stochastic logistic equation with distributed delay and nonlinear perturbation," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 508(C), pages 289-304.
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    3. Sheikholeslami, M. & Jafaryar, M. & Shafee, Ahmad & Li, Zhixiong, 2019. "Simulation of nanoparticles application for expediting melting of PCM inside a finned enclosure," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 523(C), pages 544-556.
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    Cited by:

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    2. Ali J. Chamkha & Fatih Selimefendigil & Hakan F. Oztop, 2020. "Pulsating Flow of CNT–Water Nanofluid Mixed Convection in a Vented Trapezoidal Cavity with an Inner Conductive T-Shaped Object and Magnetic Field Effects," Energies, MDPI, vol. 13(4), pages 1-30, February.
    3. Xiong, Qingang & Ayani, M. & Barzinjy, Azeez A. & Dara, Rebwar Nasir & Shafee, Ahmad & Nguyen-Thoi, Trung, 2020. "Modeling of heat transfer augmentation due to complex-shaped turbulator using nanofluid," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 540(C).
    4. Dongmin Yu & Rijun Wang, 2022. "An Optimal Investigation of Convective Fluid Flow Suspended by Carbon Nanotubes and Thermal Radiation Impact," Mathematics, MDPI, vol. 10(9), pages 1-15, May.
    5. Sohail, Muhammad & Naz, Rahila, 2020. "Modified heat and mass transmission models in the magnetohydrodynamic flow of Sutterby nanofluid in stretching cylinder," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 549(C).
    6. Manh, Tran Dinh & Nam, Nguyen Dang & Jacob, Kavikumar & Hajizadeh, Ahmad & Babazadeh, Houman & Mahjoub, Mohammed & Tlili, I. & Li, Z., 2020. "Simulation of heat transfer in 2D porous tank in appearance of magnetic nanofluid," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 550(C).
    7. Sara I. Abdelsalam & Abdullah Z. Zaher, 2021. "Leveraging Elasticity to Uncover the Role of Rabinowitsch Suspension through a Wavelike Conduit: Consolidated Blood Suspension Application," Mathematics, MDPI, vol. 9(16), pages 1-25, August.
    8. Rashid, I. & Sagheer, M. & Hussain, S., 2019. "Entropy formation analysis of MHD boundary layer flow of nanofluid over a porous shrinking wall," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 536(C).

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