I'm clearly missing something. I'll have to give it more thought.
S-Plan vs Y-Plan for Evohome ?
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Originally posted by paulockenden View PostYes, part of it could be done in the controller firmware, but not tying it in to the boiler overrun like that.
However the Evohome does know if there is a non-zero heating demand at all times - even during the time periods where TPI would have cycled the heating zone valve closed. So it only needs to be programmed so that if the system configuration is S-Plan with THREE relays or S-Plan OpenTherm with TWO relays, make an additional "Boiler TPI only" configuration option available to the user, (can't think of a good name for it off hand) and probably make it the default as well.
When chosen, TPI of the heating relay is disabled when the hot water relay is off, and only allowed when it is on. To fully emulate what I've done with my wiring it would also require a user adjustable "heating overrun" setting in minutes - similar to how a three relay configuration currently gives you access to a hot water overrun setting.
The purpose of that would be to also keep the heating zone valve open for X number of minutes after all heating demand ceases (but only if there is no hot water demand of course) to let latent heat dissipate, rather than only keeping it open during TPI cycles. You would set this setting a bit longer than your pump overrun so that the zone valve remained open for a while but ultimately closed when the system was not in use.
In theory this would only do something useful if you had one or more uncontrolled or manually controlled radiators, but I think more people than not probably DO have an uncontrolled radiator still in the system so keeping it open for a few minutes would allow the latent heat to be transferred to that radiator instead of being wasted in the boiler, and allow the boiler to cool down more quickly on system shutdown.
The only downside I can see is that it's a more complicated install for a sparky. With the standard wiring the BDRs effectively just replace normal boiler controls. This now goes way beyond "connect the green wire to the brown wire".
But the real answer is to provide the functionality in software - then the standard relay wiring can be used and wired up without any confusion. Probably wishful thinking on my part given the lack of concrete new features or meaningful updates in the last year and a half though. I'm just happy that I could achieve the desired result without any additional components by just doing a little bit of clever rewiring.Last edited by DBMandrake; 17 January 2017, 12:17 AM.
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Originally posted by bruce_miranda View PostSo how would things need to change in case you have OT controlling the boiler. Does Evohome control the CH valve with TPI even with an OT bridge?
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I do have OT and 2 BDR91s, which were previously controlling the CH and HW valves in a simple S plan configuration. I recently changed the wiring to use the Pump overrun to control the CH valve and got rid of the 2 port configuration and disconnected the CH BDR91. Now my CH valve is open whenever the pump is running.
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Originally posted by bruce_miranda View PostI do have OT and 2 BDR91s, which were previously controlling the CH and HW valves in a simple S plan configuration. I recently changed the wiring to use the Pump overrun to control the CH valve and got rid of the 2 port configuration and disconnected the CH BDR91. Now my CH valve is open whenever the pump is running.
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Originally posted by bruce_miranda View PostI do have OT and 2 BDR91s, which were previously controlling the CH and HW valves in a simple S plan configuration. I recently changed the wiring to use the Pump overrun to control the CH valve and got rid of the 2 port configuration and disconnected the CH BDR91. Now my CH valve is open whenever the pump is running.
Since I won't have HR92's on the 4 towel rads, I will need to use the CH valve via a BDR, but can you explain the wiring for the Vaillant's integrated pump back to the CH valve as I can't figure it out at all...
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Originally posted by jvallis View PostSorry for reviving an old thread, but it's a rather important one! I will be installing evohome in a set up very similar to yours: ie S-Plan with OT on a Vaillant 637 and VR33.
Since I won't have HR92's on the 4 towel rads, I will need to use the CH valve via a BDR, but can you explain the wiring for the Vaillant's integrated pump back to the CH valve as I can't figure it out at all...
Originally posted by bruce_miranda View PostAlso think about what happens when the Boiler runs on its own for cycles like Frost protection. You will need to make sure you have a water loop before any zone valves via a ABV or similar.
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Originally posted by mtmcgavock View PostAs you're using the OT receiver and not any S/L you'll not need to use the Orange/Grey wires which would usually fire the boiler as the OT relay will do this for you. When the boiler fires, the pump will run and over run as required.
EDIT: Found it. It's a VR40 '2 in 7 module'. £29. And a lot cheaper than 4x more HR92s on the towel rads to do a full-on Fig 4. I will report back with experience of using both a VR33 and VR40, once I actually install it.
Originally posted by mtmcgavock View PostThe Vaillants have an integrated ABV in the boiler. Frost protection will kick in and warm the water in the boiler to 30oc when the water drops to 5oc from memory. Obviously this doesn't include protection for any of the CH system just the boiler.
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I use a VR40 to drive an external pump. Boiler pump doesn't have enough head for my system, so I have a LLH and a pump on the secondary side which needs to run when the primary side pump runs. Works well enough. Be aware that it gets installed inside the electrical compartment of the boiler. A GasSafe engineer will be along shortly to tell you that you shouldn't do this yourself because reasons.
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Originally posted by bruce_miranda View PostWhen relying on the Frost Protection of the devices, you need to also think about pipe runs that drop below the room temp. e.g. ones in the loft or under the floors. The rad stats and boiler will only protect themselves and not the entire system.
But you can't frost protect the pipes because unless the rooms are below 5C the HR92's won't open therefore no flow through the pipes. In contrast a conventional system with manual TRV's will generally have the TRV's set to normal room temperatures when the system is scheduled "off", so the TRV's are open and ready to flow should a frost stat somewhere in the system fire the boiler.
I haven't worked out an elegant solution to this problem. Possibly the only way would be to have a frost stat under the floor and/or in the loft which then sends some sort of wireless signal to schedule the evohome to run it's normal schedule once every few hours, but not great, especially if it relied on the unreliable internet API! (The only other way would be Domoticz and an HGI80, but would you trust frost protection to a Raspberry Pi ?)
A specific crawl/loft space wireless frost protection sensor for the evohome system that could put the system into an active frost protection mode where it periodically gives a few minutes of warm water circulation through all zones that aren't already on is certainly a feature that Honeywell could add, but demand is probably low as most people don't realise the risk until it bites them.Last edited by DBMandrake; 3 December 2018, 09:58 AM.
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The problem with that idea is the "designated temperature" is going to be room temperature.... If the house is well insulated and the room temperatures have not dropped low enough there won't be a call for heat and the pipes under floor may still freeze.
Ideally the way it would work is when there is measured risk of freezing around pipes, the system would schedule ALL HR92's to be on, (set set point to HR92's to maximum) but only call for a low flow temperature from the boiler, then shut off again after say 30 minutes.
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