Haven't watched it all only at 50 mins but the problem is both the filtered and unfiltered pipes are on the output side of the unit. In order to work the pressure diff is measured between input and output. You have high pressure on the output due to tank and unfiltered line which is slowing down or stopping the filter working as the pressure on the input side in lower.
Yeah I eventually figured out how to fix the whole system and I have some other ideas on how to increase flow through the system as well. I had the system in parallel and I needed to put it in series to work effectively.
Just watched the first 20 min. They slowed the filter rates, along with the pressure regulators and volume pumps. Also, the regulators and pumps will slow down considerably if they are pumping into high pressure.
Yeah I was looking into those but all the liquids were phasing into gas either in the pipes or in the tanks, so I just have to watch the temperature and I should be ok but definitely if it becomes a bigger problem.
From what I am seeing, gas pipes take damage if they have liquid, but liquid can have ether. I also saw that even though liquid pipes are smaller, they now hold 20L while gas pipes were reduced to 10L
@@lenno56 NO2 is the problem, it condenses into liquid at 800KPa-1.2MPa depending on temp so it destroys your gas pipes. I'd split nitrice handling off from the main atmospherics system and put a line behind the crusher that's permanently pressurized >2MPa (for example with N) and store the NO2 as a liquid.
I think regulators work like real regulators now, meaning they depend on having greater pressure on the input side for them to work. Not sure why they would need power then...
Haven't watched it all only at 50 mins but the problem is both the filtered and unfiltered pipes are on the output side of the unit. In order to work the pressure diff is measured between input and output. You have high pressure on the output due to tank and unfiltered line which is slowing down or stopping the filter working as the pressure on the input side in lower.
Yeah I eventually figured out how to fix the whole system and I have some other ideas on how to increase flow through the system as well. I had the system in parallel and I needed to put it in series to work effectively.
Just watched the first 20 min. They slowed the filter rates, along with the pressure regulators and volume pumps. Also, the regulators and pumps will slow down considerably if they are pumping into high pressure.
Yeah I eventually figured it all out.
Condensers remove liquid from gas lines. It even speaks to that in the patch notes. So keep gas lines with just gas and liquid lines with just liquid
Yeah I was looking into those but all the liquids were phasing into gas either in the pipes or in the tanks, so I just have to watch the temperature and I should be ok but definitely if it becomes a bigger problem.
From what I am seeing, gas pipes take damage if they have liquid, but liquid can have ether. I also saw that even though liquid pipes are smaller, they now hold 20L while gas pipes were reduced to 10L
@@lenno56 NO2 is the problem, it condenses into liquid at 800KPa-1.2MPa depending on temp so it destroys your gas pipes. I'd split nitrice handling off from the main atmospherics system and put a line behind the crusher that's permanently pressurized >2MPa (for example with N) and store the NO2 as a liquid.
The pipe heater is killing your energy and you don't really need it, when furnace gets cold use fuel
Yeah I’m just trying to preserve as much of the gas as possible lol
I think regulators work like real regulators now, meaning they depend on having greater pressure on the input side for them to work. Not sure why they would need power then...
Yeah I think you are right! Also not sure why they would need power. But I think I might have figured it out.
No, they do pump, bus slowly.
moist