Adding zone to forced hot water heat system
Hello I'm trying to split up my baseboard heating into two separate zones. I traced all of my piping and this is what I have going on. (See included pictures of pipe layout and unit) My plan is to have the living room/kitchen on a zone, and the bed rooms on another. This isn't really in my wheelhouse as I am an electrician by trade. From what I figure, if I add a zone valve to the returns, I can control water flow in either side of the house independently. For example, if I close the return valve on what I labeled "r2" then the water will not complete a circuit through the supply because the return is blocked. Therefore the living room/kitchen heaters will not heat up.
I tested this theory by closing one of the two ball valves on the existing returns. Seems to work. Is this the best way to go about this? I know nothing about the mechanics of how these type of systems work and don't want to introduce any issues. I’m sure it’s probably more nuanced than I’m aware of but that’s why I’m asking you guys. Thanks!
Comments
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That will work. You are fortunate that you can split it that way so easily!
Br. Jamie, osb
Building superintendent/caretaker, 7200 sq. ft. historic house museum with dependencies in New England0 -
Install a separate 120/24 volt transformer with a capacity of 40va
Install a zone valve and a thermostat for each zone. Make sure each new zone valve has a built in isolated end switch
Wire from the new transformer to the thermostats and zone valves. Use the new transformer to operate the new stats and the zone valve power.
Connect the two end switches from the zone valves in parallel and wire it to the terminals where your present thermostat is wired to. Remove and abandon the old thermostat wire.
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Here is the best way to do this. Have a valve near the zone valve inlet location, and then have a valve at the outlet location. That way if you need to service the valve that requires opening up and letting the water out, you do not need to drain the whole system. And you only need to add 2 valves since the existing valves were installed with very short copper pipe between the fittings. And since those crimp fittings are a one and done i would suggest that you add longer pipe stubs to those crimp fittings for future use in the event you need to cut some off in the future, You don't need to throw those new valves away.
Or you can add the valves on the PEX side, with valves above and below.
I would not install the zone valves with PEX on either side, but that is a personal choice for me. No rule against it.
Edward Young Retired
After you make that expensive repair and you still have the same problem, What will you check next?
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And just for 💩 and Giggles I am attaching the wiring logic for your particular set up.
The SR501 on the right of the diagram is your existing SR501. Remove the thermostat from R & W at the top and connect that thermostat to the appropriate zone valve. Then run a second thermostat to the other zone valve. Then use the end switch leads (in parallel) from both zone valves to connect to R & W on the SR501. Although with your background, I'm sure you would figure it out.
Edward Young Retired
After you make that expensive repair and you still have the same problem, What will you check next?
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thank you for the detailed response and awesome diagrams . Very helpful. The wiring makes perfect sense to me. I’m guessing I’m gonna have to probably redo that whole section of copper where the two returns hook up because there really isn’t enough usable copper to get something on there to extend the stubs. Looks like it would be easier to cut the 3/4 pipe below and then solder on a tee and then go from there.
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@atibbs96 Said: "I’m guessing I’m gonna have to probably redo that whole section of copper where the two returns hook up because there really isn’t enough usable copper to get something on there to extend the stubs. Looks like it would be easier to cut the 3/4 pipe below and then solder on a tee and then go from there."
That is one way to do it. You can also just stub some copper into the zone valves with PEX adaptors on either side. then use pipe hangers to fasten the copper to the board to make them stable.
Picture to follow:
Edward Young Retired
After you make that expensive repair and you still have the same problem, What will you check next?
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How do I go about selecting the zone valve? After some research I am finding that they all have different CV ratings. For example, the Honeywell V8043E1012 sold at my local supply house has a CV of 3.5. How do I know if this is correct for my application?
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Higher the Cv number the less restriction. Honeywell V8403 was my go to valve. Many others liked the Taco 570 series, however I have found in the brief time at a local supply house, that many plumbers experienced many wiring problems.
Edward Young Retired
After you make that expensive repair and you still have the same problem, What will you check next?
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awesome maybe I’m overthinking it. Do you think that if I split it up how I plan, I might be over pumping the system? Would I benefit from an ECM circulator?
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For almost 100 years we have been operating what is today called "micro zones" with standard pumps, I don't see the need for the ECM Pump in this case. Would you benefit? Of course you would. Lower operating cost and perhaps less noise when only the smaller zone is calling for heat. Also optimizing the proper flow rate can't hurt either. How to do that may be a fixed ∆T or ∆P would be the best plan. Then when one zone finishes and the other zone starts, or both zones call at the same time, the pump can adjust to each change in real time.
Edward Young Retired
After you make that expensive repair and you still have the same problem, What will you check next?
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thank you for the insightful repair, you have been very helpful. I got the zone valves in today. I’m having trouble getting all the air out. I can hear a lot of sloshing Could you tell me how you would go about bleeding this system?
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This has all the needed valves numbered for purging air from the boiler and from the system loops
Label all these valves and print these instructions and hang them near the boiler
To Purge air from the boiler primary loop
- Close valve A7
- Connect garden hose to valve A6 and run it to a floor drain, laundry drain or outside.
- Open valve A5
- Lift fast fill lever on F1. (CAUTION here. Watch the boiler pressure gauge and be ready to close A5 if the pressure goes above 25 PSI)
- Open Valve A6 and listed for air in the boiler to be leaving the system. When you hear the air stop leaving for a count of 10 seconds, then close A6 and A5
- Open valve A7, the primary loop should be air free now.
- Set F1 fast fill lever to automatic
- Open valve A5
- If the boiler pressure is above 15 PSI, then open A6 to let the pressure drop below 15 PSI. then close A6
To Purge air from the system loops
- Connect garden hose to valve A3 and run it to a floor drain, laundry drain or outside.
- Close Valve A4 and A2
- Set Z1 to manual open position
- Open valve A5
- Lift fast fill lever on F1. (Caution here. Watch the boiler pressure gauge and be ready to close A5 if the pressure goes above 25 PSI)
- Open valve A3 and listed for air to leave thru garden hose. when you hear the air stop leaving for a count of 10 seconds, then close A3 and A5
- Zone 1 is air free now.
- Close valve A1
- Set Z2 to manual
- Open valve A5 (CAUTION here: F1 is still on fast fill here so keep your eye on the pressure gauge as above)
- Open valve A3 and listed for air to leave thru garden hose. when you hear the air stop leaving for a count of 10 seconds, then close A3 and A5
- Zone 2 is now air free.
- Set both Z1 and Z2 to automatic operation.
- Set F1 fast fill lever to automatic.
- Open valve A5
- If the boiler pressure is above 15 PSI, then open A3 to let the pressure drop below 15 PSI. then close A6
- System is ready for operation.
If you feel that all the air is not purged after this is completed. then you must repeat the steps. when you have valve A3 or A6 open for more that 20 seconds, check to see that the boiler pressure is above 20 PSI during the air purge. If the pressure drop below 10 PSI during the air purge, then close A3 or A6 in order to build up more pressure. Then open A3 orA6 at 25 PSI to fast flush the air out. That higher pressure will force air to flow down with the faster flowing water and exit the purge hose. If the water is not moving fast enough, the air bubbles may be too buoyant to get entrained in the flow going strait down a pipe.
Edward Young Retired
After you make that expensive repair and you still have the same problem, What will you check next?
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Just to clarify, should valve A5 always be open or closed during normal operation of the boiler? At the beginning of the boiler primary loop air purge procedure (step 3) you said to open valve A5 which is already open.
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