Hi! Thanks for the video. Just a question. When I submit Co-Simulation, I received a warning message that says there is a problem with BC-2 and PIN. I used the same names of the your video. The message says that I have to edit the turbulence model because it is changed. I don't understand the meaning of this warning. If I continue with the Co-Simulation Job, after some time, the status of INT_PIPE becomes "Aborted". I followed every step of your three videos, but I have many problems with the Co-Simulation. Help me please!
Thank you for sharing, when I try this, my fluid Job gets aborted and the Monitor says: Service.Cannot locate field temperature. Can you please help me?
I get an error: "When performing co-simulation mapping from the partner code (the source) to /Standard (the target): search failed for the following target elements" Any idea what this error is related to?
Hi Sudharma. The Abaqus CFD capability was deprecated in 2017 and has been replaced by SIMULIA CFD which is available on the 3DEXPERIENCE Platform. Co-simulation is no longer required for fluid-structure interaction.
I get the error "Analysis cannot continue due to Co-Simulation Engine mapping search failures". Seems to be a mismatch between models but I cant see where.
This error is because the origins of the CFD and FE model do NOT match. On the assembly, make sure both instances have the origin located in the same position and orientation, for example: the center of one of the inlets
I have the origins of both models matching, and with the same orientation. The Check of the job completed ok and the submit is aborted fue the same error. How can I fix it?
OMG took me ages to fix the problem ! but for the interaction to work, the pipe and the fluid suface need to be exactly matching, which is not the case for this tutorial. you can see at 4:11, the inner surface of the pipe is not exactly the shape of the fluid.
Thank you for sharing. It 's really a great job.
Great Job Sir...Its really helping my project....(Y)
Select surface regions: by angle. In this way you could select the whole inner surface with just one click
sir, how to redefine mesh and the boundary conditions? can you please elaborate the missing step.
Great Job!
I am getting an error in co-execution- The following parts or part instances contain elements not supported by Abaqus/standard.
Great job!
when u said "accept that " what key you pressed ?
Hi! Thanks for the video.
Just a question. When I submit Co-Simulation, I received a warning message that says there is a problem with BC-2 and PIN. I used the same names of the your video. The message says that I have to edit the turbulence model because it is changed. I don't understand the meaning of this warning. If I continue with the Co-Simulation Job, after some time, the status of INT_PIPE becomes "Aborted". I followed every step of your three videos, but I have many problems with the Co-Simulation. Help me please!
Please sir can you create a model of flow over a rectangular weir? Please
thank you very much, it is helpful
is there any possibility to do this in student version?
as we have limited interaction of 100,000.......thanks
Thank you for sharing,
when I try this, my fluid Job gets aborted and the Monitor says: Service.Cannot locate field temperature.
Can you please help me?
I get an error: "When performing co-simulation mapping from the partner code (the source) to /Standard (the target): search failed for the following target elements"
Any idea what this error is related to?
Can't we will be able to simulated CFD model directly other than "Co-Simulation"?
Hi Sudharma. The Abaqus CFD capability was deprecated in 2017 and has been replaced by SIMULIA CFD which is available on the 3DEXPERIENCE Platform. Co-simulation is no longer required for fluid-structure interaction.
I get the error "Analysis cannot continue due to Co-Simulation Engine mapping search failures". Seems to be a mismatch between models but I cant see where.
check your fluid and solid models, the geometry needs to match exactly.
I get the same error when I cosimulate two flat surfaces that are identical in dimensions
This error is because the origins of the CFD and FE model do NOT match. On the assembly, make sure both instances have the origin located in the same position and orientation, for example: the center of one of the inlets
I have the origins of both models matching, and with the same orientation. The Check of the job completed ok and the submit is aborted fue the same error. How can I fix it?
OMG took me ages to fix the problem ! but for the interaction to work, the pipe and the fluid suface need to be exactly matching, which is not the case for this tutorial. you can see at 4:11, the inner surface of the pipe is not exactly the shape of the fluid.