a****t
发帖数: 720 | 1 ph.d thesis 可能要换到microfluidics方向。主要是digital microfluidics
modeling and simulation.这个方向找工作如何呀?谢谢! |
m***l
发帖数: 267 | 2 good direction
【在 a****t 的大作中提到】
: ph.d thesis 可能要换到microfluidics方向。主要是digital microfluidics
: modeling and simulation.这个方向找工作如何呀?谢谢!
|
l*****1
发帖数: 238 | 3 may be good for FE jobs? |
a****t
发帖数: 720 | 4 Finite Element ? Financial Engineering ? or ?
【在 l*****1 的大作中提到】
: may be good for FE jobs?
|
f*********u
发帖数: 5 | 5 digital microfluidics? you mean electrowetting based?
【在 a****t 的大作中提到】
: ph.d thesis 可能要换到microfluidics方向。主要是digital microfluidics
: modeling and simulation.这个方向找工作如何呀?谢谢!
|
a****t
发帖数: 720 | 6 Yes. I am going to model the fluid dynamics of electrowetting on
dielectric.
【在 f*********u 的大作中提到】
: digital microfluidics? you mean electrowetting based?
|
f*********u
发帖数: 5 | 7 i was doing something of that before, using Ansys to simulate the electrical
field distribution on the interface between the liquid and the insulator
surface.I thought it was totally based on the electrostatic force.
What kind of mechanism do you think electrowetting is based on?
【在 a****t 的大作中提到】
: Yes. I am going to model the fluid dynamics of electrowetting on
: dielectric.
|
a****t
发帖数: 720 | 8 I am mostly interested in the dynamics of the droplet. So I will solve the
Navier-Stokes equation coupled with electrohydrodynamic force. Yes. I think
the electric field is static and is solved by Laplace equation. I did CFD
before. This research may require me couple the electric field effect into the NS momentum equation.
Are you working now?
electrical
【在 f*********u 的大作中提到】
: i was doing something of that before, using Ansys to simulate the electrical
: field distribution on the interface between the liquid and the insulator
: surface.I thought it was totally based on the electrostatic force.
: What kind of mechanism do you think electrowetting is based on?
|
f*********u
发帖数: 5 | 9 i am now focusing on making other devices, failed to match the simulation
with experiment results. where are you now? UCLA?
think
the NS momentum equation.
【在 a****t 的大作中提到】
: I am mostly interested in the dynamics of the droplet. So I will solve the
: Navier-Stokes equation coupled with electrohydrodynamic force. Yes. I think
: the electric field is static and is solved by Laplace equation. I did CFD
: before. This research may require me couple the electric field effect into the NS momentum equation.
: Are you working now?
:
: electrical
|
a****t
发帖数: 720 | 10 UCDavis
【在 f*********u 的大作中提到】
: i am now focusing on making other devices, failed to match the simulation
: with experiment results. where are you now? UCLA?
:
: think
: the NS momentum equation.
|
f*********u
发帖数: 5 | 11 i sent a mail to you in bbs, we can discuss:)
【在 a****t 的大作中提到】
: UCDavis
|
