When installing a pressurized solar heating system an issue that the installer must be concerned about is getting the air out of the system.  If the installer leaves too much air in the propylene glycol/water solution they can have all kinds of problems including: pump cavitation, vapor lock, air lock, unwanted system noise, decrease in efficiency, overheating and premature system discharge.  None of these conditions are desirable.  The question then is how do you insure that you adequately purge the air from the system.  The process isn’t difficult although you can’t take any shortcuts and achieve consistent results.

1. After installing the solar panels in the sun make sure that you cover the panels.  You want to charge the system when the panels are cold and the sun is not on them.  You can either charge in the morning, evening or cover the panels when installing and charge it whenever you get around to it.
2. Determine the pressure that you will be charging the system to.  This should be 15 psi + 5 psi for every 10 feet (story) that the top of the collectors are above the pressure gauge, i.e. A system that has the panels installed on top of the second story and the tank is the in garage would charge to 15 + (2 x 5) = 25 psi
3. Make sure that the expansion tank is charged to the number determined in step 2 above.
   

Note:   A pressurized glycol system should have at a minimum the following components: a fill port, a check valve, and a drain port.  The closer the fill port and drain port are located to each other (with check valve or ball valve in between) the easier it will be to purge air from the system.
4.  Pre-mix your glycol to the appropriate ratio for your location in a bucket.
5.  Using three hoses connect 1 – from the bucket to the supply of the transfer pump, 2- from the transfer pump to the charge port of your solar system, and 3 – from the drain of your solar system back to the bucket.
6. Prime the pump
7. Open the valves to both the charge and drain port and turn the pump on.  You should see the fluid level in the bucket diminish as the pump pushes glycol from the bucket through the supply piping, collectors, return piping and finally back into the bucket.  After you start to see the fluid pump around you will want to let the pump run for another minute or so before you turn the pump off.  **** Caution – The hose ends in the bucket should always remain below the fluid level during the whole charging procedure.  Close the fill and drain valve.
8.  Wait until the foam in the bucket completely dissipates (this should take 4 –5 minutes).
9.  Repeat step #7 as many as 4 or five times until you no longer see bubbles or foam entering the bucket as the pump is running.  Once you confirm that the system is running with no foam or bubbles entering the bucket after running for a minute then CLOSE THE DRAIN VALVE.
10.  Keep the tranfer pump running until the desired system pressure (determined in step #2) is reached on the system pressure gauge.  Once the desired pressure is reached then close the fill valve.
11.  Disconnect the hoses to the solar fill valve and drain valve.

You are now ready to turn on your solar heating system.

Although you have done an excellent job eliminating the air as you charged the system you haven’t got it all.  The mixture of propylene glycol and water contains some air in solution.  As the solution heats up the air in solution is squeezed out of solution.  This additional air will accumulate in your system as your system repeatedly heats up and cools down.  Once this air has left solution it will not re-enter the solution and will travel around your system accumulating in local high points.  If your system has a place to capture and release this air then after a few weeks of running you will have a solution that has no (or a negligable amount) air trapped in the system.  With all of the air ultimately eliminated you now have a system that will operate quietly, efficiently and much more reliably.