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 | 1 | initial version |
I simulated with adiabatic wall vs constructions with very very low thermal transmittance. I got more realistic results with second option construction. What´s the e+ way to create zero heat flux boundary conditions? thanks
| | 2 | None |
I simulated with adiabatic wall vs constructions with very very low thermal transmittance. transmittance for a single zone example. I got more realistic results with second option construction.
What´s the e+ way to create zero heat flux boundary conditions? conditions for exterior surfaces? thanks
| | 3 | None |
I simulated with adiabatic wall vs constructions with very very low thermal transmittance for a single zone example. I got more realistic results with second option construction. What´s the e+ way to create zero heat flux boundary conditions for exterior surfaces? thanks
| | 4 | None |
I simulated with adiabatic wall vs constructions with very very low thermal transmittance for a single zone example. I got more realistic results with second option construction. What´s the e+ way to create zero heat flux boundary conditions for exterior surfaces? thanks
| | 5 | retagged |  |
I simulated with adiabatic wall vs constructions with very very low thermal transmittance for a single zone example. I got more realistic results with second option construction. What´s the e+ way to create zero heat flux boundary conditions for exterior surfaces? thanks
| | 6 | retagged |  |
I simulated with adiabatic wall vs constructions with very very low thermal transmittance for a single zone example. I got more realistic results with second option construction. What´s the e+ way to create zero heat flux boundary conditions for exterior surfaces? thanks
