- #1
henrymanu2005
- 1
- 0
This is more a thought experiment that I'm not completely sure I'm getting correctly... So here we go:
Imagine we have a tank that we are filling up with a substance in gaseous form. Imagine also that we have a good pump that will allow us to fill this tank with this gas up to very high pressures, and that the tank will not collapse or burst or leak. The tank starts empty and its pressure increases as gas comes in. There comes a point in which the pressure inside the tank reaches the saturation pressure of the substance at whatever temperature the system is in. Upon reaching Psat, some of the gas will condense into a liquid and the pressure inside the tank will fall. While this happens, more gas is still being pumped into the tank, so the tank pressure is brought up to Psat again and more gas condenses into liquid. The filling process continues, and suddenly there is more liquid than gas inside the tank. The tank pressure during the phase change process is Psat, even though more mass is coming in. Theoretically, the maximum pressure of the tank is Psat, and the maximum mass that can be pumped into it is equal to the mass that fills the constant volume of the tank at the liquid density of the substance (assuming an incompressible liquid.)
Is this thought process correct? Specifically, can the pressure inside the tank ever be any higher than Psat or does it effectively plateau until all gas has become liquid?
Thank you for your help
Imagine we have a tank that we are filling up with a substance in gaseous form. Imagine also that we have a good pump that will allow us to fill this tank with this gas up to very high pressures, and that the tank will not collapse or burst or leak. The tank starts empty and its pressure increases as gas comes in. There comes a point in which the pressure inside the tank reaches the saturation pressure of the substance at whatever temperature the system is in. Upon reaching Psat, some of the gas will condense into a liquid and the pressure inside the tank will fall. While this happens, more gas is still being pumped into the tank, so the tank pressure is brought up to Psat again and more gas condenses into liquid. The filling process continues, and suddenly there is more liquid than gas inside the tank. The tank pressure during the phase change process is Psat, even though more mass is coming in. Theoretically, the maximum pressure of the tank is Psat, and the maximum mass that can be pumped into it is equal to the mass that fills the constant volume of the tank at the liquid density of the substance (assuming an incompressible liquid.)
Is this thought process correct? Specifically, can the pressure inside the tank ever be any higher than Psat or does it effectively plateau until all gas has become liquid?
Thank you for your help