Purpose–The purpose of this paper is to improve the lattice Boltzmann method’s ability to simulate amicroflow under constant heatflux. Design/methodology/approach–Develop the thermal lattice Boltzmann method based on doublepopulation of hydrodynamic and thermal distribution functions. Findings–The buoyancy forces, caused by gravity, can change the hydrodynamic properties of theflow.As a result, the gravity term was included in the Boltzmann equation as an external force, and the equationswere rewritten under new conditions. Originality/value–To the best of the authors’knowledge, the current study is thefirst attempt toinvestigate mixed-convection heat transfer in an inclined microchannel in a slipflow regime
Mixed convection in a inclined cavity has not been investigated by LBM in case of an imposed non zer...
In the present study, the lattice Boltzmann Method (LBM) is applied for simulating of Natural Convec...
Nano scale method of lattice Boltzmann is developed to predict the fluid flow and heat transfer of a...
Mixed convection heat transfer of air in a 2-D microchannel is investigated numerically by using lat...
This paper aims to study the gravity effects on the mixed convection heat transfer in a microchannel...
Lattice Boltzmann method ability is improved to simulate the mixed convection of Water / FMWCNT nano...
Recent technological developments have made it possible to design various microdevices where fluid f...
In this study, the mixed convection of flow in a microchannel containing nanofluid is simulated by t...
Recent technological developments have made it possible to design various microdevices where fluid f...
This article aims to explore the effects of buoyancy force and thermal boundary condition on the mix...
In this paper, Lattice Boltzmann Method (LBM) is used to study laminar flow with mixed convection he...
Micro flow has become a popular field of interest due to the advent of micro electromechanical syste...
This dissertation provides a detailed description of a new thermal lattice Boltzmann model capable o...
In this paper, a mesoscale numerical method was applied to solve two dimensional, incompressible, th...
Laminar mixed convective heat transfer in two-dimensional rectangular inclined driven cavity is stud...
Mixed convection in a inclined cavity has not been investigated by LBM in case of an imposed non zer...
In the present study, the lattice Boltzmann Method (LBM) is applied for simulating of Natural Convec...
Nano scale method of lattice Boltzmann is developed to predict the fluid flow and heat transfer of a...
Mixed convection heat transfer of air in a 2-D microchannel is investigated numerically by using lat...
This paper aims to study the gravity effects on the mixed convection heat transfer in a microchannel...
Lattice Boltzmann method ability is improved to simulate the mixed convection of Water / FMWCNT nano...
Recent technological developments have made it possible to design various microdevices where fluid f...
In this study, the mixed convection of flow in a microchannel containing nanofluid is simulated by t...
Recent technological developments have made it possible to design various microdevices where fluid f...
This article aims to explore the effects of buoyancy force and thermal boundary condition on the mix...
In this paper, Lattice Boltzmann Method (LBM) is used to study laminar flow with mixed convection he...
Micro flow has become a popular field of interest due to the advent of micro electromechanical syste...
This dissertation provides a detailed description of a new thermal lattice Boltzmann model capable o...
In this paper, a mesoscale numerical method was applied to solve two dimensional, incompressible, th...
Laminar mixed convective heat transfer in two-dimensional rectangular inclined driven cavity is stud...
Mixed convection in a inclined cavity has not been investigated by LBM in case of an imposed non zer...
In the present study, the lattice Boltzmann Method (LBM) is applied for simulating of Natural Convec...
Nano scale method of lattice Boltzmann is developed to predict the fluid flow and heat transfer of a...