Compressor Surge Analysis in Aspen HYSYS
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- Опубликовано: 1 авг 2024
- Surging is a phenomenon that damage centrifugal compressors. What is surging? what are the causes and effects of surging? How to avoid surging? What is stonewall or chock condition in compressor?
In this video, you will find all the answers to the above questions. Then we will analyze the surge condition in Aspen HYSY and will see the compressor works within the surge line and stonewall line. In the end, you will learn different parameters tuning to avoid surging.
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#CompressorSurging #Surging Cause and effetcs #Chockcondition Наука
Your tutorial is very helpful sir
Your Tutorials are very useful
thank you very much of your effort
Thanks for your kind & useful lecture~
Very nice, topic.Well explained.Thanks for your presentation
Excellent work!
Great tutorial.
Great tutorial
A Great video
Thanks
Very interesting. Thank's for this toturial
you are welcome :)
Very informative and superbly made videos
Glad you think so!
I am going to every tutorial and following it on Aspen. This is too early for a starter. Once I put speed and use curves, it says over specified. Secondly, it changes the curve data itself. I don't know why.
Last but not the least, this is great contribution by you. Thanks a lot
You have to reset all the Cv parameters at the initial setpoint before each simulation run because it's dynamic so it will change and in real plant senerio it only happens at startup and shutdown. I hope it will help
but sir in the my company we are using air compressor for air separation plant where compressor has anti surge valve in the discharge line while cooler on the discharge side of commpressor , but in this video when you performed simulation there anti surge valve installed on the suction side , why ??
Hi , other than the shut down, is it possible to simulate also the start-up from an equalized pressure in the system (SOP)? Is it possible to provide IDLE1, IDLE 2, MGS ramp?
Does unisim has the surge analysis function?
Sir thanks for the information.. But my data is not converging after certain point
Can you the curve data for practice
Hii Brother Actually it is very nicely explained........
But when I m implementing in my Aspen It shows the error of OVERSPECIFIED
Please help me sort out this problem
Thanks in advance
hello tks for what you are given us
just i have a slit problem
it writes
the pressure flow solver failed to converge
so if its possible give us the main file of you to comprae everything inside
or help us with that problem
we really appreciate that
Same problem could you please help me to resolve
I would like to know how you obtained the compressor curve?
This data is provided by the vendor
How did you know to manipulate hot bypass valve and not for example inlet or descharge valve or any other component?
Hot vapor bypass is provided for the system whose operating point lies close to surge line limit. In the above case v dint require hot vapor bypass as operating line is already away from surge line limit. Thats y he reduce the flow across hot vapor bypass
Sir, I have tried simulating but not succeeded. Kindly help me simulate
"The current flow rate is less than surge Flow.
The pressure flow solver failed to converge.
Try using the equation viewer to see where the problem is.
Dynamic calculations stopped.
Integration time 1.0125: Integrator Stopped at 1.0 minutes" - What does this mean ? I did everything you did , still the results aren't the same.
I am facing the same issue of integration failed at time 0
When I run the case it says the compressor is over specified. And if I remove one of the inputs, I get a different value/result
I have the same problem, how did you solve it?
I tried the same, erasing the imposed pressure on compressor discharge stream, and now i get a different result. I think that what we got it's the discharge pressure that compressor can produce, for that rpm curve (imposed) and that flowrate (imposed). My opinion is that if we want 30 bar, we have to change either the flowrate or the rpm, please @eduX confirm. ( and thank you for this amazig tutorials :)) )
Dear Friend,
The flow of the first scenario must not exceed the stonewall line. The flow is throttled and should follow that line by lowering the RPM. Best regards
Thanks for correction ☺️
@@eduXinsight Hi. This is probably a weakness in the software that could be communicated to its developers.
The Stonewall line represents the maximum possible flow because it is shocked.
Some simulators have similar errors when sonic velocity is reached in pipes and do not report that the flow is shocked. Regards
Information
Can you please give curve data in excel