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在“
Elsevier电子期刊
”中,
命中:
2,277
条,耗时:0.0219899 秒
在所有数据库中总计命中:
7,525
条
1.
Implementation of diffusion and electrostatic forces to produce a new
slip
velocity
in the multiphase approach to nanofluids
作者:
M. MahdaviAuthor Vitae
;
M. Sharifpur
;
mohsen.sharifpur@up.ac.za
Author Vitae
;
J.P. MeyerAuthor Vitae
关键词:
Nanofluid
;
Cavity
;
Slip
velocity
;
ANSYS-Fluent
;
Electrostatic forces
刊名:Powder Technology
出版年:2017
2.
Forced convective heat transfer of nanofluids around a circular bluff body with the effects of
slip
velocity
using a multi-phase mixture model
作者:
R. Deepak Selvakumar
;
S. Dhinakaran
;
ssdhinakar@gmail.com
关键词:
Circular cylinder
;
Nanofluids
;
Multi-Phase Modeling (MPM)
;
Mixture model
;
FVM
;
Slip
velocity
刊名:International Journal of Heat and Mass Transfer
出版年:2017
3.
Fluid flow and heat transfer of non-Newtonian nanofluid in a microtube considering
slip
velocity
and temperature jump boundary conditions
作者:
Seyed Ali Sajadifar
a
;
Arash Karimipour
a
;
arashkarimipour@gmail.com
;
Davood Toghraie
b
关键词:
Microtube
;
Slip
flow regime
;
Slip
coefficient
;
Non-Newtonian nanofluid
刊名:European Journal of Mechanics - B/Fluids
出版年:2017
4.
Provide a suitable range to include the thermal creeping effect on
slip
velocity
and temperature jump of an air flow in a nanochannel by lattice Boltzmann method
作者:
Arash Karimipour
arashkarimipour@gmail.com
关键词:
Lattice Boltzmann method
;
Nanochannel
;
Thermal creeping
;
Slip
flow
刊名:Physica E: Low-dimensional Systems and Nanostructures
出版年:2017
5.
Determination of
slip
and characteristic velocities in reactive extraction with experiments in the Oldshue-Rushton column and presence of samarium and gadolinium metals
作者:
Rezvan Torkaman
;
rtorkaman@aeoi.org.ir
;
Mehdi Asadollahzadeh
;
Meisam Torab-Mostaedi
关键词:
Oldshue-Rushton extraction column
;
Rare metals
;
Slip
velocity
;
Characteristic
velocity
刊名:Chemical Engineering and Processing: Process Intensification
出版年:2017
6.
On magnetohydrodynamic flow of nanofluid due to a rotating disk with
slip
effect: A numerical study
作者:
Tasawar Hayat
a
;
b
;
Taseer Muhammad
a
;
taseer_qau@yahoo.com
;
Sabir Ali Shehzad
c
;
Ahmed Alsaedi
b
关键词:
Rotating disk
;
Magnetic field
;
Nanoparticles
;
Velocity
slip
;
Numerical solution
刊名:Computer Methods in Applied Mechanics and Engineering
出版年:2017
7.
DRBEM formulation for transient Stokes flow with
slip
boundary condition
作者:
S. Gü
;
mgü
;
m
a
;
sevin.gumgum@ieu.edu.tr
;
Luiz C. Wrobel
b
;
luiz.wrobel@brunel.ac.uk
关键词:
DRBEM
;
Stokes flow
;
Slip
condition
;
BEM
刊名:Engineering Analysis with Boundary Elements
出版年:2017
8.
Interface entropy generation in micro porous channels with
velocity
slip
and temperature jump
作者:
Mohsen Torabi
;
Mohsen.Torabi@my.cityu.edu.hk
;
Mohsen.Torabi@gatech.edu
;
Zhuomin Zhang
zhuomin.zhang@me.gatech.edu
;
G.P. Peterson
Bud.Peterson@gatech.edu
关键词:
Micro porous channels
;
Second law of thermodynamics
;
Interface entropy generation rate
;
Total entropy generation
;
Temperature jump
刊名:Applied Thermal Engineering
出版年:2017
9.
Study of the
slip
page of particle/supercritical CO
2
two-phase flow
作者:
Lei Hou
a
;
b
;
Baojiang Sun
a
;
sunbj1128@126.com
;
Xueyu Geng
c
;
Tingxue Jiang
b
;
Zhiyuan Wang
a
关键词:
Supercritical CO2
;
Two-phase flow
;
Visualization experiments
;
Analytic calculations
;
Slip
page behavior
刊名:The Journal of Supercritical Fluids
出版年:2017
10.
Numerical study of homogeneous-heterogeneous reactions on stagnation point flow of ferrofluid with non-linear
slip
condition
作者:
Zaheer Abbas
;
za_qau@yahoo.com
;
Mariam Sheikh
关键词:
Ferrofluid
;
Stagnation point flow
;
Homogeneous&ndash
;
heterogeneous reactions
;
Generalized
slip
boundary condition
;
Numerical solution
刊名:Chinese Journal of Chemical Engineering
出版年:2017
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