Yes, might just do useful thought but slower thwn solenoid actuation, and best of all is dumping hest through an already open circuit/zone as suggested by one of the regulars above.
smokebox
Bypass when using Grundfos Alpha2 pump
- Thread starter smokebox
- Start date
Yes, might just do useful thought but slower thwn solenoid actuation, and best of all is dumping hest through an already open circuit/zone as suggested by one of the regulars above.
smokebox
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Agile
Yes, but present issue is pump failure due to poor equipment specs, with inadequate output, and wasteful bypassing!
smokebox
Hailsham
Thanks for that link! though it does not explicitly want one to use auto bypass in any 'proportional pressure', and I reckon the autoadapt section is a sort of complex combination of the 2 PP operation modes.
As often you have given me work to do and calculations which I shall attend to when they send me home! Basically as I've actually mentioned above, I agree I need a bigger pump head with this 'tight' boiler and some long pipe runs. I'll need to do a couple of potential index circuit calcs.
Your point about running cold and avoiding loss of condensing, is good, but I am doubting it will always be possible to keep temps that low. I'll reread your earlier post! The good thing about your posts is that one has to actually think for a lot of them!
AS you have noted Grundfos do say AUTOADAPT MODE IS INCOMPATIBLE WITH AUTOBYPASS. But I am determined to use it with crafty bypassing!
smokebox
To MJN and all
I have tried to send a reply to your personal message, but apparently I have to be a friend, or you do!
I can't work out how to make friends (a long story tee-hee). Some of the help instructions on using this website are as bad as Vaillant manuals!
Can anyone help me in steps of one?!
smokebox
I have tried to send a reply to your personal message, but apparently I have to be a friend, or you do!
I can't work out how to make friends (a long story tee-hee). Some of the help instructions on using this website are as bad as Vaillant manuals!
Can anyone help me in steps of one?!
smokebox
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Here are the Grundfos documents Smokebox mentioned earlier in the thread, uploaded here for reference:
http://www.newtonnet.co.uk/permanent/GrundfosDocs/Alpha2&Alpha2LControlModes.pdf
http://www.newtonnet.co.uk/permanent/GrundfosDocs/BypassCommissioningAlpha2or2L.pdf
http://www.newtonnet.co.uk/permanent/GrundfosDocs/SystemBypass.pdf
http://www.newtonnet.co.uk/permanent/GrundfosDocs/SystemRadiatorBalancing.pdf
Mathew
http://www.newtonnet.co.uk/permanent/GrundfosDocs/Alpha2&Alpha2LControlModes.pdf
http://www.newtonnet.co.uk/permanent/GrundfosDocs/BypassCommissioningAlpha2or2L.pdf
http://www.newtonnet.co.uk/permanent/GrundfosDocs/SystemBypass.pdf
http://www.newtonnet.co.uk/permanent/GrundfosDocs/SystemRadiatorBalancing.pdf
Mathew
Very interesting and useful. It's a pity they are not available on the Grundfos website.
The only bit I would query is in the paper on Balancing where it says:
If the differential temperature is too low, slightly open the lock shield valve; and if the differential temperature is too high close the lock shield valve slightly.
I think this should read: If the return temperature is too low, slightly open the lock shield valve; and if the return temperature is too high close the lock shield valve slightly.
See Drayton TRV Commissioning Instructions, which say, in para 4a: Remember that to increase the temperature drop you need to slow the flow rate by closing the lockshield valve and vice versa.
Hailsham
I new you'd be the first to spot that boo boo!
smokebox
I new you'd be the first to spot that boo boo!
smokebox
From the PDF
They then go on to say
I have allready shown you how to do that
Matt
Matt
Yes you have, and very many thanks! I am planning to follow that route when a bit better, I hope
smokebox
Yes you have, and very many thanks! I am planning to follow that route when a bit better, I hope
smokebox
Gary
I am very interested in Vaillant's way of advising your heating curve of 2.3.
? did it sound like a 'reasonable' guesstimate, or a bit more scientific, or just a sensible starting point?
What information did they request about he house?
smokebox
I am very interested in Vaillant's way of advising your heating curve of 2.3.
? did it sound like a 'reasonable' guesstimate, or a bit more scientific, or just a sensible starting point?
What information did they request about he house?
smokebox
Smokebox
Very early in this discussion the question of the "minimum flow rate" was raised, in particular Vaillant's assertion that it is 1220 lph. I pointed out that this does not appear in continental versions of the manuals, where it is just referred to as the "flow rate".
Much of your concern has been about maintaining this "minimum flow rate" and the effect it would have on return temperatures. My belief is that you have to ignore the Vaillant manual and apply some logic to the problem.
I was reading the installation manual for another boiler which said that the minimum flow rate should be that which provided a 20C differential when the boiler is at the lowest modulation. This immediately made sense as it tied in with Grundfos's advice in Bypass Commissioning (see page 1, the yellow line on the graph).
The minimum output of the 428 is 5.7kW so the flow rate with a 20C differential is 0.07 litres/sec (245lph). If this is set on the Taco Nova bypass with the pump on fixed setting I or II, the maximum flow you will get through the valve is about 300lph or 25% of the total flow.
Very early in this discussion the question of the "minimum flow rate" was raised, in particular Vaillant's assertion that it is 1220 lph. I pointed out that this does not appear in continental versions of the manuals, where it is just referred to as the "flow rate".
Much of your concern has been about maintaining this "minimum flow rate" and the effect it would have on return temperatures. My belief is that you have to ignore the Vaillant manual and apply some logic to the problem.
I was reading the installation manual for another boiler which said that the minimum flow rate should be that which provided a 20C differential when the boiler is at the lowest modulation. This immediately made sense as it tied in with Grundfos's advice in Bypass Commissioning (see page 1, the yellow line on the graph).
The minimum output of the 428 is 5.7kW so the flow rate with a 20C differential is 0.07 litres/sec (245lph). If this is set on the Taco Nova bypass with the pump on fixed setting I or II, the maximum flow you will get through the valve is about 300lph or 25% of the total flow.
I have to disagree with that conclusion although I understand what you are thinking. Unfortunately that will not provide adequate bypass flow in all conditions.
The bypass flow rate should be that required by the boiler at MAXIMUM power!
This arises because the demand might be suddenly ceased when the boiler is firing at its maximum.
This could happen if someone manually turned the boiler off at a room stat, timeclock or just if a timed period ended when for example someone had just used up all the stored water and the boiler was firing at maximum to replemish the store.
Tony
But as soon as the boiler turns off it is no longer generating any heat to bring the water back up to temperature. So the fact that it was running flat out when the boiler turned off is irrelevant. All you are doing is dissipating the residual heat in the water.
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