| 1 |
Hydrothermal performance analysis of various surface roughness configurations in trapezoidal microchannels at slip flow regime
Toghraie D, Mashayekhi R, Niknejadi M, Arasteh H
Chinese Journal of Chemical Engineering, 28(6), 1522, 2020 |
| 2 |
대기압 이하에서 운전하는 유동층 반응기의 유동 특성
박성희
Korean Chemical Engineering Research, 58(2), 307, 2020 |
| 3 |
Scaling law for slip flow of gases in nanoporous media from nanofluidics, rocks, and pore-scale simulations
Tian Y, Yu XY, Li J, Neeves KB, Yin XL, Wu YS
Fuel, 236, 1065, 2019 |
| 4 |
Axisymmetric thermophoresis of an aerosol particle in a spherical cavity
Li CY, Keh HJ
Journal of Aerosol Science, 135, 33, 2019 |
| 5 |
Pore Network Modeling of Shale Gas Reservoirs: Gas Desorption and Slip Flow Effects
Foroozesh J, Abdalla AIM, Zhang ZE
Transport in Porous Media, 126(3), 633, 2019 |
| 6 |
Heat Transfer in Porous Microchannels with Second-Order Slipping Boundary Conditions
Avramenko AA, Kovetska YY, Shevchuk IV, Tyrinov AI, Shevchuk VI
Transport in Porous Media, 129(3), 673, 2019 |
| 7 |
Fractal analysis of the effect of rough surface morphology on gas slip flow in micro- and nano- porous media
Zheng Q, Fan JT, Li XP, Xu C
Chemical Engineering Science, 189, 260, 2018 |
| 8 |
Non-isothermal slip flow over micro spherical particle at low Reynolds numbers
Liu ZU, Zhou J, Wu HY
Chemical Engineering Science, 191, 19, 2018 |
| 9 |
A workflow to estimate shale gas permeability variations during the production process
Jia B, Tsau JS, Barati R
Fuel, 220, 879, 2018 |
| 10 |
Thermal and velocity slip effects on Casson nanofluid flow over an inclined permeable stretching cylinder via collocation method
Usman M, Soomro FA, Haq RU, Wang W, Defterli O
International Journal of Heat and Mass Transfer, 122, 1255, 2018 |
