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- Thread starter Southsealee
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Discuss Priority domestic hot water PDHW in the Central Heating Forum area at Plumbers Forums
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As you know I'm an oil man, I'm not the one to ask about gas. What I know is what I've recently studied and PDHW is still fairly new. Whether its done with two 2 ports and the CH a normally open with cylinder thermistor, or with the now 4 pipe option from some gas manufacturers which has a heating flow and return and a flow and return for HW, each with their own pump i believe, or a way to separate the flow direction? Its not something I'm aware of in the oil industry as we are still technically a long way behind gas.
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In theory they should do, but some of the control systems don't implement this and always work. I know there's been issues with Opentherm and determining a CH and HW demand with some manufactures.
This was why when the new ERP energy laws with new controls only came into force on Combi systems - traditional systems where there is stored HW there was a concern where if the Flow temperature was limited due to a weather compensation system or Open Therm then there was a slim possibility cylinders may not be heated to the required temperatures to kill off legionella.
In short no. Some boilers have a terminal where you can wire a live in on a HW demand where the boiler goes into full load. Others are software based when used with their own controls.
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The issue with the 4 pipe systems is that they aren't always practical to do, especially retro fitting in existing properties. On a standard system you're always only going to have a flow and return back to the airing cupboard/cylinder usually then CH pipes from there to rads.
You & others above mention where the boiler goes to full load, if the boiler is directed to full load and if its output is higher than the coil output, then what controls the boiler before it reaches its hi limit safety stat limit, does it cycle on/off until the cylinder temp is achieved.?.
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Most boiler controls systems with PDHW allow you to set the coil rating of the cylinder - well Vaillant’s do. If you’re using an external control the boiler will modulate accordingly as it would usually.
That's interesting as any coil output is not constant while the cylinder is heating up, there will be, IMO, a big difference between a cold and hot cylinder, no so much if the HW setpoint hysteresis is say 5 to 10C so should work reasonably well under these (re heat) conditions but one would think generally that the coil rating would need to be understated to enable the HW SP to be reached before the boiler reached its hi limit setting, but obviously it works.
Depending on the boiler, it either stops/starts on the control-stat, or modulates the gas flow down. And then stops if the minimum modulated flow gives more heat than the cylinder takes.
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As Dr said above John, certain boilers have set options to set the boiler output to coil output, or a % of coil output as well as setting flow temperature. As you know most modern cylinders coil rating is based on a flow temperature of 80-85°c with a minimum flow rate and as you also know as the delta T changes so does the coil output.
The sensors used at the cylinder would be a thermistor whos resistance would change depending on the temperature, the resistance signal received at PCB would shut the burner down, or revert to CH if that was called for at the lower temperatures. At no point should the flow temperature exceed the preset value and come close to high limit stat setting, obviously system boilers high limit stat can be set to over 100°c.
As Dr also said if thermistors aren't used and a traditional cylinder stat is then the burner will modulate down when the delta T decreases.
Thats my understanding anyway and having said all that a diverter valve or mid position used as a diverter valve will give PDHW for older systems/boilers without this modern fancy stuff
The sensors used at the cylinder would be a thermistor whos resistance would change depending on the temperature, the resistance signal received at PCB would shut the burner down, or revert to CH if that was called for at the lower temperatures. At no point should the flow temperature exceed the preset value and come close to high limit stat setting, obviously system boilers high limit stat can be set to over 100°c.
As Dr also said if thermistors aren't used and a traditional cylinder stat is then the burner will modulate down when the delta T decreases.
Thats my understanding anyway and having said all that a diverter valve or mid position used as a diverter valve will give PDHW for older systems/boilers without this modern fancy stuff
Is the NC DP contactor in addition to the cylinder and room stats? I think the OP would need a wiring diagram.
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If yours is a reply to my #33, yes. The control-stat setpoint adjustable by the user. The boiler must have controls to stop or reduce gas flow when system demand is below boiler max output, whether in HW or CH mode.
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The way I see PDHW operating is on HW demand (1) the HW zone valve opens and the CH zone valve closes and (2) that the boiler temperature SP is automatically increased to ~ 83/85C and the boiler modulates to maintain this 83/85C until the cylinder HW temperature is reached. (The Vaillant seems to introduce a refinement on this?) So what set point are you referring to here "The control-stat setpoint adjustable by the user."
It might be possible to wire up a mid-position valve so it works either/or, but as the way it's intended to be used it allows flow to both CH and HW simultaneously. That's the whole point.
If it's old enough it will be PDHW (eg Honeywell W-plan) because that was before Y and S-plans came in.
The OP has gone a bit quiet, but the way I read him he just wants to replace a boiler in a system with existing 2-port valves. Not sure why he wants to go PDHW, that and both-on have pros and cons. Unless weather compensation is used, when PDHW (or at least separate HW and CH cycles) is unavoidable. My sketch in #18 is a suggested way to do it.
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I know a mid position is designed for flow through both ports, i was just pointing out that one could be wired in such a way to act as W plan and give priority to HW.
That's right, but the circuit to achieve it has to be designed.
I was assuming boiler has an adjustable control-stat, either old-fashioned type with a knob, or temperature set on a screen. When on weather compensation there's an additional control to stop or modulate the gas at some lower temperature, depending on outside temperature. Bypassed when HW called, to allow temperature to rise to
control-stat setpoint, via an input to the boiler to tell it it's HW mode. Obviously the control-stat would be set high enough to give realistic HW recovery time.
But no doubt there are variations from different manufacturers.
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I think the main reasons being is that the boiler isn't large enough to reheat the HW and CH at the same time. For example - I have a customer with a 30kw Logic Plus system. The coil is rated around 15kw, the output of the rads must be in the region of 30kw nearly. So when the HW AND CH was calling the HW wouldn't reheat and the CH wouldn't get warm (in fact if the cylinder was remotely warm it would take the heat out the cylinder). So it would just try and reheat everything and basically not get anywhere. PDHW allows the cylinder to reheat efficiently then input the full 30kw into the heating system when completed.
Yes the NC DP contactor is in addition. As i've said quite simple to add in, if OP would like a wiring diagram I will try and sketch something up.
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Wow - thanks for all the feedback and advise, really impressed with the support and knowledge on this forum.
I've just read through all this and will read again, digest and check out the wiring diagrams. The customer has now placed an order, but only has a budget for a new boiler and sweet F.A upgrades - so wired up to the existing 2 channel prog and stat. So frustrating when you have a potentially interesting job and the customer doesn't buy into it. I'll probably alter the wiring anyway, just to try PDHW out for myself and get a better understanding. Good to know that if the customer upgrades to Vaillant controls at a later date, then it can work as true PDHW with a higher flow on cylinder demand.
Thanks again for all the tips and knowledge you have shared. Lee.
I've just read through all this and will read again, digest and check out the wiring diagrams. The customer has now placed an order, but only has a budget for a new boiler and sweet F.A upgrades - so wired up to the existing 2 channel prog and stat. So frustrating when you have a potentially interesting job and the customer doesn't buy into it. I'll probably alter the wiring anyway, just to try PDHW out for myself and get a better understanding. Good to know that if the customer upgrades to Vaillant controls at a later date, then it can work as true PDHW with a higher flow on cylinder demand.
Thanks again for all the tips and knowledge you have shared. Lee.
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Can you provide me a rough wiring diagram using an NC DP contactor please sir?
I've sketched a circuit using a NC SP contactor (or relay as I'd usually call it) so not sure why EvilDr uses a NC DP.
But my circuit in #18 does it with neither. Cylinder stats are (or can be) double-throw, C, NO and NO. And I could add a manual switch to override the PDHW and bring the CH on.
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Yeah. I’m working today so I’ll sketch something up later on.
There was a reason, can’t really remember. Probably just that DP is more readily available.
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Also you can’t do it just using a cylinder stat. As there is a reason because of it - the main one being you have to have the HW ‘on’ on the clock for it to work (So clock in gravity mode). Where as my method you can still use both independently of one and other.
Havn't got my crayons but looking at the S plan, if one used a NC SP relay, take a feed off terminal 8 on the wiring centre to switch the relay, connect the relay contacts between "CH" and terminal 4 on the wiring centre, if the HW zone and the cylinder stat are calling for HW then the relay opens and switches off all the CH zone valves, if either the HW zone is switched off or the cylinder stat is satisfied, the contacts reclose and restores power to the CH zones, a manual o/ride manual switch can also be added. ( I think this will work?)
Attachments
I agree my scheme needs HW ‘on’ on the clock, but that's how system W has always worked from way back. My guess is that's what's usually meant by PDHW. The only addition could be the ability to have CH when HW is "off" on the clock. I doubt that the OP wants that (perhaps he'll come back sometime!), but it could be done with an extra switch on my circuit. But IMO there's very little point in having HW on clock times vs always on. The small amount of additional heat loss goes into the house anyway.
Look forward to seeing your sketch.
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Yes, I think that works, it's same as my sketch with NC SP relay (not the sketch I posted). Difference between that and my posted sketch is mine needs HW "on" on the clock, and the cylinder stat satisfied for CH to be available. But as I said earlier, that's how system W works, HW on continuously, CH via the clock.
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Lee - apologies, I hadn't noticed this post when I commented on your disappearance in my #50!
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As requested attached is my sketch of the HW Priority using either a SP/DP Contactor. If you like you can add in a switch between the Cylinder Stat and the contactor so the HW Priority can be turned on and off as required. Using the contactor will allow your customer to still have independant control of the HW & CH; so the CH can be still be selected without HW. The only difference is that when both are on together that the HW will reheat first before the CH will heat.
SP or DP Contactors are fine. You will require DP (Or referred to as a 2 Pole contactor) if you have more than one heating Circuit - for instance upstairs and Downstairs.
I keep these in the van as they give you two options.- They have a NC and NO on the contactor so can be used for a variety of uses. - 20A 2 Pole Contactor 230V AC 1 Normally Open N/O and 1 Closed N/C Modular for DIN Rail Mounting 20 Amp: Amazon.co.uk: DIY & Tools - https://www.amazon.co.uk/gp/product/B07Q9QT9DH/ref=ppx_yo_dt_b_asin_title_o09_s00?ie=UTF8&psc=1
You will need a DIN railed enclosure for them too - Wylex ESE2 IP40 2-Module Unpopulated DIN Enclosure - https://www.NoLinkingToThis/p/wylex-ese2-ip40-2-module-unpopulated-din-enclosure/32311
@fixitflav Coming back to your solution - The two issues here are one; You have to have HW & CH 'ON' together. Secondly; On your diagram you have the Cylinder Stat '2' port coming back to the clock and the clock switching this live feed. The issue here is that on most Two Channel Programmers the Live to the CH 'ON' on the back plate is supplied by the clock and not by a link. So the only way to turn the CH off would be turning the Roomstat down.
SP or DP Contactors are fine. You will require DP (Or referred to as a 2 Pole contactor) if you have more than one heating Circuit - for instance upstairs and Downstairs.
I keep these in the van as they give you two options.- They have a NC and NO on the contactor so can be used for a variety of uses. - 20A 2 Pole Contactor 230V AC 1 Normally Open N/O and 1 Closed N/C Modular for DIN Rail Mounting 20 Amp: Amazon.co.uk: DIY & Tools - https://www.amazon.co.uk/gp/product/B07Q9QT9DH/ref=ppx_yo_dt_b_asin_title_o09_s00?ie=UTF8&psc=1
You will need a DIN railed enclosure for them too - Wylex ESE2 IP40 2-Module Unpopulated DIN Enclosure - https://www.NoLinkingToThis/p/wylex-ese2-ip40-2-module-unpopulated-din-enclosure/32311
@fixitflav Coming back to your solution - The two issues here are one; You have to have HW & CH 'ON' together. Secondly; On your diagram you have the Cylinder Stat '2' port coming back to the clock and the clock switching this live feed. The issue here is that on most Two Channel Programmers the Live to the CH 'ON' on the back plate is supplied by the clock and not by a link. So the only way to turn the CH off would be turning the Roomstat down.
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