Add to ORKGAbstract-Rarefied gas slip microflow and heat transfer in rectangular microchannels and backward facing steps are numerically investigated. A control-volume based numerical method is used to solve the Navier–Stokes and energy equations with velocity-slip and temperature-jump conditions at the walls. The effects of Knudsen number (Kn ≤ 0.1), thermal creep, and viscous heating on the velocity and temperature fields are investigated for the microchannel flow. The present numerical results are compared to analytical and other numerical data for validation purposes. In addition, key flow parameters like the entrance length and Nusselt number are examined in detail. For the flow along a microchannel with sudden enlargement or backward facing step...
[[abstract]]The present work studies numerically gas flaw in microchannels. The working fluids art n...
This paper is aimed at investigating the hydrodynamic entrance region of microchannels, within the s...
The slip velocity and the temperature jumps for low-speed flow in microchannels are investigated usi...
This study is focused on the mathematical modelling of gas flow and heat transfer in a microchannel ...
Fluid flow and heat transfer in the entrance region of rectangular microchannels of various aspect r...
Due to the existence of a velocity slip and temperature jump on the solid walls, the heat transfer i...
Natural convection gaseous slip flows in vertical microchannels with isothermal wall conditions are ...
A new set of slip boundary conditions is developed to be used beyond the slip flow-early transition ...
Natural convection gaseous slip flows in vertical microchannels with isothermal wall conditions are ...
A control-volume numerical approach has been used to study rarefaction effects in simultaneously hyd...
The assumption that a liquid adheres to a solid boundary ("no-slip" boundary condition) is one of th...
In this study, slip-flow heat transfer in a laminar, steady state, two-dimensional incompressible fl...
ABSTRACT Slip-flow and conjugate heat transfer in rectangular microchannels are studied numerically ...
A two-dimensional flow and heat transfer model is used to study gas compressibility and rarefaction ...
Analysis is presented for conjugate heat transfer in a parallel-plate microchannel. Axial conduction...
[[abstract]]The present work studies numerically gas flaw in microchannels. The working fluids art n...
This paper is aimed at investigating the hydrodynamic entrance region of microchannels, within the s...
The slip velocity and the temperature jumps for low-speed flow in microchannels are investigated usi...
This study is focused on the mathematical modelling of gas flow and heat transfer in a microchannel ...
Fluid flow and heat transfer in the entrance region of rectangular microchannels of various aspect r...
Due to the existence of a velocity slip and temperature jump on the solid walls, the heat transfer i...
Natural convection gaseous slip flows in vertical microchannels with isothermal wall conditions are ...
A new set of slip boundary conditions is developed to be used beyond the slip flow-early transition ...
Natural convection gaseous slip flows in vertical microchannels with isothermal wall conditions are ...
A control-volume numerical approach has been used to study rarefaction effects in simultaneously hyd...
The assumption that a liquid adheres to a solid boundary ("no-slip" boundary condition) is one of th...
In this study, slip-flow heat transfer in a laminar, steady state, two-dimensional incompressible fl...
ABSTRACT Slip-flow and conjugate heat transfer in rectangular microchannels are studied numerically ...
A two-dimensional flow and heat transfer model is used to study gas compressibility and rarefaction ...
Analysis is presented for conjugate heat transfer in a parallel-plate microchannel. Axial conduction...
[[abstract]]The present work studies numerically gas flaw in microchannels. The working fluids art n...
This paper is aimed at investigating the hydrodynamic entrance region of microchannels, within the s...
The slip velocity and the temperature jumps for low-speed flow in microchannels are investigated usi...