cant see the point in restricting the lock shield when the TRV is designed to control the room temperature, or am I missing something ?
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Central heating pump sizing
- Thread starter Reddwarf4ever
- Start date
the lockshield controls the return temp
you should be getting around 10dc drop through the rad
What was/is the pump head and flow on CP2 & CP3? , theoretically PP3 should give somewhere in the middle, by my calculations, but your numbers will tell us more.
CP1 10W 1.8m 0.4m3/hr
CP2 17W 3.0m 0.7m3/hr
CP3 30W 4.5m 0.9m3/hr
PP3 26W 4.1m 0.8/m3/hr - 0.9m3/hr
CP3 gives a good flow, all rads very hot, but inlet temperature >55oC
CP2 All rads hot except one, which is warm, inlet temperature 52-53oC
CP1 all rads hot except one barely warm, inlet temperature 52-53oC
trying PP3
believe the flow is a ‘ calculated’ one, can’t see how they could fit a flow meter inside the pump....with pump head and watts it’s an easy calculation.
DAB going to send me a ‘ spare’ heat shroud they found. They say the manual and website is for the European model not the UK one....how I am supposed to know that is beyond me.....think for the few pence it costs, all their pumps should have this....
thanks
CP2 17W 3.0m 0.7m3/hr
CP3 30W 4.5m 0.9m3/hr
PP3 26W 4.1m 0.8/m3/hr - 0.9m3/hr
CP3 gives a good flow, all rads very hot, but inlet temperature >55oC
CP2 All rads hot except one, which is warm, inlet temperature 52-53oC
CP1 all rads hot except one barely warm, inlet temperature 52-53oC
trying PP3
believe the flow is a ‘ calculated’ one, can’t see how they could fit a flow meter inside the pump....with pump head and watts it’s an easy calculation.
DAB going to send me a ‘ spare’ heat shroud they found. They say the manual and website is for the European model not the UK one....how I am supposed to know that is beyond me.....think for the few pence it costs, all their pumps should have this....
thanks
CP2, CP3 & PP3 are doing as I would have expected.
The pump actually only uses the power and pump+motor efficiency to calculate the head and flowrate, it knows which mode/head is selected and can then derive the actual head/flowrate, the clever part IMO is how it derives the pump+motor efficiency for every single point on all the curves. Some hold that it is only a approximation especially on some of the UPS models and it may well be but before I installed my Wilo Yonos Pico, I just connected it up to a a gravity feed with a gate valve on the discharge and measured the flowrates for a number of different operating modes and it seemed to be within 5 to 10% of what the pump curves showed for the displayed power consumptions, (I don't have head & flowrate displayed.), so all in all a good aid to navigation IMO. You can also estimate it (the flowrate) from the (clamped) boiler output and deltaT.
The pump actually only uses the power and pump+motor efficiency to calculate the head and flowrate, it knows which mode/head is selected and can then derive the actual head/flowrate, the clever part IMO is how it derives the pump+motor efficiency for every single point on all the curves. Some hold that it is only a approximation especially on some of the UPS models and it may well be but before I installed my Wilo Yonos Pico, I just connected it up to a a gravity feed with a gate valve on the discharge and measured the flowrates for a number of different operating modes and it seemed to be within 5 to 10% of what the pump curves showed for the displayed power consumptions, (I don't have head & flowrate displayed.), so all in all a good aid to navigation IMO. You can also estimate it (the flowrate) from the (clamped) boiler output and deltaT.
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Should also maybe pointed out advantage of PP mode with reduced flow demand say if TRVs shutting in, if the flowrate demand halved from 0.9 to 0.45m3/hr on CP3 then the head would still remain at 4.5M but on PP3 would reduce to ~ 3.3M with lower pump power required and less throttling of the TRVs.
Thanks for the explanation. Running PP3, the boiler is 63oC limited to 8KW, getting return temperature 54-55oC ( getting steam from the boiler vent, so must be condensing ) ALL rads currently 🔥 even the problem one, boiler modulating well. Guess this is the best I can get at the moment, Hot water heating perfectly using the times I have set. Would love to get a better efficienc, but compared to my old pump with a flow temperature of 75-78oC ( god knows what the inlet temperature was then 🤯 ) I must be saving £££s Think my best plan is to upgrade the two lounge single rads to double fins ( Summer job, need modify the tail feeds with a bend, have a bender, but not done that before ) then I may see the inlet temperature fall a few degrees.
thanks so so much for all the help and support, it’s been invaluable.
P.S. another massive advantage of fitting the DAB 3 is that it’s so dam quiet, Never know it’s on, previous pump could always be heard.
Don't know if Vaillant came back to you yet but spoke to a friend of mine who has a 20kw Vokera Mynute, he watched the flow temperature rise from boiler fire up at 42C to its target temperature of 55C, it rose fairly rapidly until ~ 52/53C and then gradually increased to and settled at its target temperature of 55C.
When boiler/system was running for ~ 20 mins he increased the target temp from 55C to 60C, the temperature exceeded its target by 3C briefly and then settled down at 60/61C.
When boiler/system was running for ~ 20 mins he increased the target temp from 55C to 60C, the temperature exceeded its target by 3C briefly and then settled down at 60/61C.
No they haven’t, considering phoning them, assuming I can get a technical answer to the trip setting.....I am certain it shouldn’t be +3oC.....thanks
have a reply from Valiant
“”As you already have the permanent 230V supply and the pump wired to the boiler for the pump over run, all you will require is twin core from the boiler ebus connection to the VR66 and sensoCOMFORT RF receiver, Are these devices installed in the boiler cabinet or remotely ? If within the boiler cabinet, then the cable run will be minimal, does that make sense ? the sensoCOMFORT and outdoor sensor are both wireless. The zone valves and hot water cylinder sensor connect to the VR66. Don’t want an outdoor sensor, if the VR66 is in the boiler cabinet ( kitchen ) don’t see how the How water sensor connects to the VR66 at the boiler ??? Didn’t get a price, which I asked for ??? “”
Said the boiler should go off when 5oC above flow temperature, I replied it’s always been 3oC, not sure how this can be fixed, also modulation is poor, often overshoots many times before stabilising....usually need to do manually to get it to settle......asked if this can be changed or fixed “”
The boiler turning off is controlled by the return temperature, as the return temperature gets closer to the flow temperature the burner modulates, when the return temperature gets to 5 degrees below the flow temperature the boiler turns off then goes into pump over run and anti cycle time. If the heat can’t leave the boiler quickly enough it will shut
down when it reaches the target flow temperature or it may over shoot. This cannot be adjusted.
“”As you already have the permanent 230V supply and the pump wired to the boiler for the pump over run, all you will require is twin core from the boiler ebus connection to the VR66 and sensoCOMFORT RF receiver, Are these devices installed in the boiler cabinet or remotely ? If within the boiler cabinet, then the cable run will be minimal, does that make sense ? the sensoCOMFORT and outdoor sensor are both wireless. The zone valves and hot water cylinder sensor connect to the VR66. Don’t want an outdoor sensor, if the VR66 is in the boiler cabinet ( kitchen ) don’t see how the How water sensor connects to the VR66 at the boiler ??? Didn’t get a price, which I asked for ??? “”
Said the boiler should go off when 5oC above flow temperature, I replied it’s always been 3oC, not sure how this can be fixed, also modulation is poor, often overshoots many times before stabilising....usually need to do manually to get it to settle......asked if this can be changed or fixed “”
The boiler turning off is controlled by the return temperature, as the return temperature gets closer to the flow temperature the burner modulates, when the return temperature gets to 5 degrees below the flow temperature the boiler turns off then goes into pump over run and anti cycle time. If the heat can’t leave the boiler quickly enough it will shut
down when it reaches the target flow temperature or it may over shoot. This cannot be adjusted.
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Been reading a few bits and pieces re this target temperature and from what I can gather it might be set at say 75C but the flow temp might only be 50C depending on the flow/return deltaT and the setting D.00 which can be either on Auto or manually selected to the maximum kw required and setting d.17, flow/return regulation which I interpreted should be set to flow regulation if you want flow temperature control, might be worth carefully noting these parameter settings before making any changes.
D17 is accessed via the 2nd diagnostic level. I have entered this via D97. D17 is displaying 0....only has 2 options 0 or 1....will need to get info on these ‘extra’ settings.
running D0 with 11KW, seems to prevent some of the cycling due to poor modulation when first firing up, but ok once stabilised and also from cold, seems a happy medium 🤞don’t think I really need the V66 module & all the complications & expense. Hot water managing ok for now, so it’s just the summer months to see how I will need to set it. Maybe 62oC as a target temperature will be ok with 2 periods per day, the Hot water should be cool at these times and may even go into condensing mode, if not will raise the target temperature to suit. Might not be able to achieve condensing mode with Hot Water only in the summer months.....will all be a distant memory in the not too distant future when we heat using Electricity 🤯. Just wish I could get the 3oC changed to 5oC for the over temperature cut out.
running D0 with 11KW, seems to prevent some of the cycling due to poor modulation when first firing up, but ok once stabilised and also from cold, seems a happy medium 🤞don’t think I really need the V66 module & all the complications & expense. Hot water managing ok for now, so it’s just the summer months to see how I will need to set it. Maybe 62oC as a target temperature will be ok with 2 periods per day, the Hot water should be cool at these times and may even go into condensing mode, if not will raise the target temperature to suit. Might not be able to achieve condensing mode with Hot Water only in the summer months.....will all be a distant memory in the not too distant future when we heat using Electricity 🤯. Just wish I could get the 3oC changed to 5oC for the over temperature cut out.
The +5C temp cut would certainly help but I feel that you havn't got true control of the flow temperature, its well named as target temperature, vaillant state that its the return temperature (probably the deltaT) that modulates the boiler, IMO Flow temperature control allows the flow temperature to increase very rapidly and as it approaches the SP temp it reduces the firing rate (derivative control) to avoid any or very little overshoot, this is what I see happening on my relations 20 kw Vokera VisionS where even with a 5kw demand and no range rating the flow temp only overshoots by ~ 2C. and the settles down but it has that +5C margin.
Hello
tHank’s “ derivative control” haven’t heard that term for a long while, used to try and ‘ help out’ the instrument mechanics when tuning refinery process controllers, fascinating stuff. Found these two settings in the 2nd level diagnostics, wonder if it’s to do with derivative control ?
need to try and stop it overshooting.....
Open the gate valve fully on the cylinder return. Check all TRVs are fully open or remove a few of the heads. Slow down the pump speed. Check pump valves are fully open. Then try again. If problem persists, i would remove and inspect pump.
It’s a brand new pump & working very well, the main issue is with the boiler controls.....
Some very interesting comments in this blog, also explains anti cycling time tables.
vaillantcyclingproblem.blogspot.com
Vaillant cycling problem
Vaillant 400-series boilers cycle on and off rapidly when they shouldn't - the stories of their unhappy owners
vaillantcyclingproblem.blogspot.com
Hello
read through it all, makes me wonder if Vailant wasn’t the best choice.
as an update, I am now running at 11KW limit, seems to satisfy fast warm up from cold and doesn‘t seem to impact on a boiler restart. Target temperature 62oC and is hot enough to keep the Hot water hot, set for Hot water, 8PM to 830PM and 8AM to 11AM Pump still on PP2, working well, all Rads getting hot. Room stat gets satisfied 2
-3 times a day, allowing the boiler to go off.....so the only thing I need to really resolve is the 3oC hysteresis rather than the 5oC that Vailant say it should be and the over enthusiastic firing amd overshooting.....hoped the heating curve settings could be the solution to this......
read through it all, makes me wonder if Vailant wasn’t the best choice.
as an update, I am now running at 11KW limit, seems to satisfy fast warm up from cold and doesn‘t seem to impact on a boiler restart. Target temperature 62oC and is hot enough to keep the Hot water hot, set for Hot water, 8PM to 830PM and 8AM to 11AM Pump still on PP2, working well, all Rads getting hot. Room stat gets satisfied 2
-3 times a day, allowing the boiler to go off.....so the only thing I need to really resolve is the 3oC hysteresis rather than the 5oC that Vailant say it should be and the over enthusiastic firing amd overshooting.....hoped the heating curve settings could be the solution to this......
A recent post I saw somewhere re a Glowworm "low water pressure" alarm on boiler/pump start up got me thinking about your very first post paragraph re S.53 & S.54. The glowworm alarm (and start inhibit?) is triggered by a pressure sensor which detects the small rise in pressure when the circ pump starts, so obviously if the pump doesn't start or is fouled with sludge etc then this alarm annunciates, the glowworm sensor apparently can get blocked very easily and a temporary fix was to increase the filling pressure and might lead one to falsely believe that this sensor was only used only as a method of detecting sufficient water in the boiler.
Valliant informed you that S.53 is triggered by the 30C flow/return deltaT but I think its triggered by the above (borne out by changing the pump) and S.54 is the deltaT alarm, however if this is correct then the boiler would have to fire up, perhaps on minimum firing?, to enable the high deltaT to develop between the flow/return or else S.54 isn't configured quite correctly. (Or else the boiler just waits and waits to see if S.53 clears).
I also see that you can run the boiler on return temperature by changing d.17, even though you seem to be getting very satisfactory performance now it might be interesting to try this control mode sometime to see its effect on the target (flow) temperature and of course condensing benefit, it is primarily suggested for UFH.
Also may be worth checking that d.18 (pump overrun) is on its default setting 1 ( comfort or continuous running).
Strange, but in all those interesting blog posts I havn't seen it mentioned anywhere that the flow trip is SP+5C.
Valliant informed you that S.53 is triggered by the 30C flow/return deltaT but I think its triggered by the above (borne out by changing the pump) and S.54 is the deltaT alarm, however if this is correct then the boiler would have to fire up, perhaps on minimum firing?, to enable the high deltaT to develop between the flow/return or else S.54 isn't configured quite correctly. (Or else the boiler just waits and waits to see if S.53 clears).
I also see that you can run the boiler on return temperature by changing d.17, even though you seem to be getting very satisfactory performance now it might be interesting to try this control mode sometime to see its effect on the target (flow) temperature and of course condensing benefit, it is primarily suggested for UFH.
Also may be worth checking that d.18 (pump overrun) is on its default setting 1 ( comfort or continuous running).
Strange, but in all those interesting blog posts I havn't seen it mentioned anywhere that the flow trip is SP+5C.
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Yes PP3.....
Hi
fascinating, as Spock would say, I still believe S53 is caused by a 30oC temperature differenc, as I used to run the output at 75-78oC, where it regularly exceeded the 30oC difference......this hasn’t happened once now, as I rarely see a differential that high, typically 20oC Max......D17 is I believe for underfloor heating systems, will have a look, but as you say, it’s running so well now, can’t see how I can improve it, but will give it a go, in the interest of science 😂 will check D18....I also haven’t seen any reference to the +5oC cut out, but have an email from Vailant confirming this, so hopefully it’s correct, just need to find out how to fix mine from 3oC to 5oC....🙏
take care. 🙏
Cant believe how silent the boiler and pump are, modulating perfectly @ 62oC DT 11-12oC inlet 52oC house warming up all rads hot......never ever been this good
had problems since 2009 🤯 before that my Potterton Netaheat presented no problems, but at 60-65% efficiency wasn’t good.
to save me looking back, was there a calculation for KW being used by the boiler, based on flow / DT maybe ?
Also on a bit of an off topic subject, I have a room stat a Coronado controls 2005 model, it has an ‘ offset ‘ setting of 0.5 or 1.0.....but with a target of 22.5oC it switches on @ 21.5oC and off @ 22.2oC don’t see this makes sense the ’offset’ is set at 0.5.
wonder if it’s faulty or I have misunderstood how it should work.....gets quite cool ( need to keep warm for my Disabled Wife ) before it switches on again....thanks
D18 is set to 0 ( zero ) what would changing it to 1 mean ?
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