phreeqc_rm.UseSolutionDensityVolume(true);
status = phreeqc_rm.RunCells(); status = phreeqc_rm.GetSaturation(sat); status = phreeqc_rm.SetSaturation(sat); status = phreeqc_rm.GetConcentrations(c);
GAS_PHASE_MODIFY 198 ; \ #Contain gas-type 0 ; \-total_p 1.10492 ;\ GAS_PHASE_MODIFY 199 ; \ #Contain gas - temperature transition cell -type 0 ; \-total_p 1.10494 ;\ GAS_PHASE_MODIFY 200 ; \ #Contain water-type 0 ; \-total_p 1.10497 ;\
#Cell 198 so op 0 (pressure) = 1.10492so op 1 (moles of gas)= 52.3284so op 2 (gas vol)= 1534.83#Cell 199so op 0 (pressure) = 1.10494so op 1 (moles of gas)= 2385.94so op 2 (gas vol)= 69980.3#Cell 200so op 0 (pressure) = 1.10497so op 1 (moles of gas)= 0so op 2 (gas vol)= 0
You are boiling water into an infinite atmosphere; the volume and moles of gas will increase indefinitely.
However, PHREEQC will not be happy if there is no liquid water.
-component H2O(g) # GAS_PHASE_MODIFY candidate identifiers # -moles xxx