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Mass balance is break

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Hello

My problem is mass balance of reactant and product materials.

total number of component is five. and reaction is A+2B=>C+4D

turbulent module and transport of concentrated species module and Heat transfer module is coupled.

the simulation is converged at tolerance 1e-5 but component mass balance is break.

how can i solve the problem ?

i don't know.............

11 Replies Last Post 16 mars 2011, 09:17 UTC−4

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Posted: 1 decade ago 10 mars 2011, 09:18 UTC−5
post your comsol file..
post your comsol file..

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Posted: 1 decade ago 11 mars 2011, 07:13 UTC−5
this is my file !!!
this is my file !!!


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Posted: 1 decade ago 11 mars 2011, 07:52 UTC−5
no attachment
no attachment

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Posted: 1 decade ago 11 mars 2011, 07:56 UTC−5
Oh !!!!

sorry !!

i do mistake !!

i attached the model ~~
Oh !!!! sorry !! i do mistake !! i attached the model ~~

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Posted: 1 decade ago 11 mars 2011, 08:13 UTC−5
new file
new file


Ivar KJELBERG COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)

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Posted: 1 decade ago 11 mars 2011, 16:14 UTC−5
Hi

could it be because you are working at an absolute pressure of 2[atm] ? as you have a gauge pressure of 1[atm] in the turbulent flow, to which you add an absolute pressure again of 1[atm]. Probably you should work at a gauge pressure of "0" in the turbulent flow (both inlet and outlet). But I'm not a CFD/chemistry expert, so pls check carefully ;)

--
Good luck
Ivar
Hi could it be because you are working at an absolute pressure of 2[atm] ? as you have a gauge pressure of 1[atm] in the turbulent flow, to which you add an absolute pressure again of 1[atm]. Probably you should work at a gauge pressure of "0" in the turbulent flow (both inlet and outlet). But I'm not a CFD/chemistry expert, so pls check carefully ;) -- Good luck Ivar

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Posted: 1 decade ago 11 mars 2011, 16:48 UTC−5
Hi,
here is the solution, first you should use weakly compressible flow for your continuity equation to be conserved instead of incompressible. You will realise this after comparing both the incompressible and weakly compressible equations. Second is you need to use the conservative form of convection-diffuion equation, but in your case you are using concentrated form of convection-diffusion physics that I still have to look at in detail. I think first just try using compressible form, your rho*u quantity must be conserved.
Cheers
Mayur
Hi, here is the solution, first you should use weakly compressible flow for your continuity equation to be conserved instead of incompressible. You will realise this after comparing both the incompressible and weakly compressible equations. Second is you need to use the conservative form of convection-diffuion equation, but in your case you are using concentrated form of convection-diffusion physics that I still have to look at in detail. I think first just try using compressible form, your rho*u quantity must be conserved. Cheers Mayur

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Posted: 1 decade ago 15 mars 2011, 01:36 UTC−4
Hello !!

i simulated the diluted species module. and use conserved form.

but i still have the similar problem !!

total mass flux is conserved. but component mole flux is break

A+2B --> C+4D

reactant B reacted more than 2mole..........

how can i solve the problem . ?

file size is 19MB so i don't attached simulated results.



Hello !! i simulated the diluted species module. and use conserved form. but i still have the similar problem !! total mass flux is conserved. but component mole flux is break A+2B --> C+4D reactant B reacted more than 2mole.......... how can i solve the problem . ? file size is 19MB so i don't attached simulated results.


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Posted: 1 decade ago 15 mars 2011, 09:22 UTC−4
let me know the total normal flux of each component at inlet and outlet boundaries by integrating them in following form. The unit for the total normal flux for 2d model should be in mol/m/s. Again remember you have to integrate it on each boundary.


Components Inlet total molar Flux Outlet total molar flux

A
B
C
D
let me know the total normal flux of each component at inlet and outlet boundaries by integrating them in following form. The unit for the total normal flux for 2d model should be in mol/m/s. Again remember you have to integrate it on each boundary. Components Inlet total molar Flux Outlet total molar flux A B C D

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Posted: 1 decade ago 16 mars 2011, 02:07 UTC−4
Hi !!

my model is axial symmetry !!

so, the unit of mass rate is mol/s !!

and i consider a density change in my system. so i select concentrated species module !

but when i choose compressible flow(Ma<0.3), i have a error

( incompressible flow is not !! it has not error )

error massage is attached. !!
Hi !! my model is axial symmetry !! so, the unit of mass rate is mol/s !! and i consider a density change in my system. so i select concentrated species module ! but when i choose compressible flow(Ma


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Posted: 1 decade ago 16 mars 2011, 09:17 UTC−4
but for incompressible flow you won't be able to conserve rho*u quantity which is not acceptable under any situation.. if possible contact support, they will help you with this error message..
good luck
Mayur
but for incompressible flow you won't be able to conserve rho*u quantity which is not acceptable under any situation.. if possible contact support, they will help you with this error message.. good luck Mayur

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