The idea is to model how the temperature distribution in a battery cell will be like during charging. As such , there is the need to couple heat heat transfer physics interface into a lumped battery to get the result we need
Can you please explain that you have used the txt file of OCP of 6s2p, if I use another arrangement like 7s5p. so can I use the same or I need to make another one? If I need to make another one then can you please guide me in this regard? Thank you.
on which bases you are taking analytical, interpolation equation etc? Is the model can be solve without this? what is the main reason you are using this?
Hello Your video is very helpful but i faced an error following same steps you did. The error is " source selection not meshed Geometry: geom 1 Domain: 16 Operator: comp1.lb.int_cell". Kindly help me to solve out this problem. Thank you
thanks for your feedback. i will suggest you start afresh from the beginning and carefully follow the procedure from the video. i think you made a slight error whiles typing. Please try it one more time.
Great work
Well explained
Very helpful, keep up the good work 👍💪
Thanks 😊
very helpful
Very good
Very good video
Why did you select Heat Transfer in Fluids. ?The cell body, welding is solid , the surrounding medium is fluid ..
The idea is to model how the temperature distribution in a battery cell will be like during charging.
As such , there is the need to couple heat heat transfer physics interface into a lumped battery to get the result we need
thanks for this video
Please make video on thermal runaway modeling
i appreciate this
What are the expressions for Ohmic over potential and Dimensionless charge exchange .? I am getting errror as “Ib.temp” as unknown
Thanks for the feedback. Please I suggest you start all over again. there might be a variable you typed wrongly,
this is understandable. thanks
very interesting
Can you please explain that you have used the txt file of OCP of 6s2p, if I use another arrangement like 7s5p. so can I use the same or I need to make another one?
If I need to make another one then can you please guide me in this regard?
Thank you.
Sure I can, contact via mail. Thanks
@@Simulation_World I emailed you.
Good
amazing
very clear
this is easy when you follow your steps
quite helpful
thanks very helpful
Helpful
Can you show the simulation for vanadium redox flow battery?
Thanks for your feedback
I’ll try and find how to do that
that's very helpful
very comprehensive
good
thanks
on which bases you are taking analytical, interpolation equation etc? Is the model can be solve without this? what is the main reason you are using this?
nicee
great
How we can analyze overall battery performance (Voltage of battery pack, SOC of battery pack, etc... )
Kindly refer to this video
LOAD, SOC AND BATTERY CYCLE SIMULATION IN COMSOL MULTIPHYSICS. PART 2
th-cam.com/video/faZMebp2yxk/w-d-xo.html
clear
useful
Hi, it shows me a syntax error what to do? I seem to do exactly the same as you
Kindly double check with mine and compute the work.If you still face the same issue I recommend you close the existing work and start a new one.
is this comsol 5.6?
Hello
Your video is very helpful but i faced an error following same steps you did. The error is " source selection not meshed
Geometry: geom 1
Domain: 16
Operator: comp1.lb.int_cell". Kindly help me to solve out this problem. Thank you
thanks for your feedback. i will suggest you start afresh from the beginning and carefully follow the procedure from the video. i think you made a slight error whiles typing. Please try it one more time.
@@Simulation_World okay thank you so much ❤
Where can I get the files, please?
I will show where to find the parameters
Yeah please provide it
@@Simulation_World ok, we are waiting. I really need it soon. thank you!
@@Simulation_World which file is called: batteries and fuel.....
3D model ?
This is provides a basic step on how to build a 3d MODEL FOR LUMPED BATTERY PACK
grst
ok
HELLO, I'm sorry that I'm bothering you with my questions, but I can't do anything. please help me, how can I contact you
sure you can always contact _simulationinquires@gmail.com
very interesting
very clear
good
thanks
clear
good
thanks
thanks
good