I think I am getting close...
I've been studying piping diagrams for weeks from the many examples on this site, and finally nofossil posted this one on another thread that looks like it is the closest to what will work for me. Just what I wanted, find one that is almost exactly what I want and then tweak as necessary...
I have a few questions about this one to see how I need to customize it for my setup (or at least understand it better).
My setup is the same. Oil burner in the cellar with 6 zones controlled by zone valves. Tarm in the garage about 40 feet away. Storage somewhere in the middle.
In this diagram, I like how if all the zones are closed, and wood boiler is running, heat will be forced into the tank by default. Even with no zone valve this would be the default behavior. If all zone vales are closed, 100% of the heat goes to the tank. First question is, how to prevent the tank from taking heat when a zone is open. Do this system need a zone valve that is closed when any of the others is open, and vice-versa, or do we assume that if a ZV is open, that the tank will only steal a certain amount of the heat and the other zones will still be satisfied in a timely manner?
If you do need a "close if any other ZV is open" setup, what is the simplest electronics that would accomplish this?
If a baseboard zone is open, and oil burner is off, what prevents water/heat from flowing thru the oil burner? anything? or is it just because the tarm is "pulling" water away that it won't be wasted in the oil burner?
What/how would the heat from storage be put onto the system...I understand a ZV calls for heat, tarm is off, storage is plenty hot, what kind of electronics do you need to tell the storage circ to turn on only if the temp is hot and turn on the oil burner if it is not? Does this entire setup assume a microprocessor-like control board with C++ programming to run it all? or is there some sort of 'simple' version that I could put into use?
Where does this system need backflow/check valves to work properly?
Could someone explain the simplest amount of electronics/control logic that will make this work? I understand house electric, and plumbing a bit too, but control logic for a boiler is all new to me....
Nofossil: What did you draw this in? any chance it was done in Visio and you could make available the "raw" file for me to edit?
I've been studying piping diagrams for weeks from the many examples on this site, and finally nofossil posted this one on another thread that looks like it is the closest to what will work for me. Just what I wanted, find one that is almost exactly what I want and then tweak as necessary...
I have a few questions about this one to see how I need to customize it for my setup (or at least understand it better).
My setup is the same. Oil burner in the cellar with 6 zones controlled by zone valves. Tarm in the garage about 40 feet away. Storage somewhere in the middle.
In this diagram, I like how if all the zones are closed, and wood boiler is running, heat will be forced into the tank by default. Even with no zone valve this would be the default behavior. If all zone vales are closed, 100% of the heat goes to the tank. First question is, how to prevent the tank from taking heat when a zone is open. Do this system need a zone valve that is closed when any of the others is open, and vice-versa, or do we assume that if a ZV is open, that the tank will only steal a certain amount of the heat and the other zones will still be satisfied in a timely manner?
If you do need a "close if any other ZV is open" setup, what is the simplest electronics that would accomplish this?
If a baseboard zone is open, and oil burner is off, what prevents water/heat from flowing thru the oil burner? anything? or is it just because the tarm is "pulling" water away that it won't be wasted in the oil burner?
What/how would the heat from storage be put onto the system...I understand a ZV calls for heat, tarm is off, storage is plenty hot, what kind of electronics do you need to tell the storage circ to turn on only if the temp is hot and turn on the oil burner if it is not? Does this entire setup assume a microprocessor-like control board with C++ programming to run it all? or is there some sort of 'simple' version that I could put into use?
Where does this system need backflow/check valves to work properly?
Could someone explain the simplest amount of electronics/control logic that will make this work? I understand house electric, and plumbing a bit too, but control logic for a boiler is all new to me....
Nofossil: What did you draw this in? any chance it was done in Visio and you could make available the "raw" file for me to edit?
