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I have a problem with air being sucked into my CH system creating airlocks in the radiators. The water is flowing back into the FE tank via the cold feed pipe. I can feel warm water coming through the feed pipe back into the tank as the tank water level slowly get higher. I can hear the overflow gurgling in the FE tank.

The system is 20 years old but the Worcester Bosch boiler is only 9 years old. All has worked perfectly well. I did have the classic blockage where the cold feed meets the hot return but the clogged pipes have been cut out and replaced.

I have fitted a new pump and it is set to the lowest speed. All of the radiators have been bled many times and balanced.

So the heating is working fine except that I have this problem of the air displacing the water back to the FE tank. The water it getting back into the tank a quite a rate - I would say about 2 litres per hour. This means that the rads need to be bled constantly.

Any ideas? Could it be an problem with the boiler itself?
 
Can you re-word this please: not sure what you mean.

The FE tank is fall as normal. However when the heating is running I can see the sediment at the bottom of the tank being moved around. I put my hand into the tank and can feel warm water coming back in via the cold outlet.

Because the tank is therefore getting fuller I scooped about 2 litres of it out. I turned the CH off. Bled all of the rads and did this again and about 30 mins later a further 2 litres had come back in. Is is not coming from the expansion pipe but I can hear that gurgling.
 
Hmm. So the water level continues to rise in the F&E even after the system is warmed up. And even if you continually bleed the radiators, the water rises in the F&E.

I assume you are taking water out of the F&E because there is no overflow?
 
Hmm. So the water level continues to rise in the F&E even after the system is warmed up. And even if you continually bleed the radiators, the water rises in the F&E.

I assume you are taking water out of the F&E because there is no overflow?

Yes the water is rising all the time. I have to bleed the rads every time the heating has been on. There is an overflow but I elected to scoop it our rather than let it get that full. In fact it was a pool of water outside that alerted me to the fact that water was returning to the FE tank.
 
I have a problem with air being sucked into my CH system creating airlocks in the radiators. The water is flowing back into the FE tank via the cold feed pipe. I can feel warm water coming through the feed pipe back into the tank as the tank water level slowly get higher. I can hear the overflow gurgling in the FE tank.

The system is 20 years old but the Worcester Bosch boiler is only 9 years old. All has worked perfectly well. I did have the classic blockage where the cold feed meets the hot return but the clogged pipes have been cut out and replaced.

I have fitted a new pump and it is set to the lowest speed. All of the radiators have been bled many times and balanced.

So the heating is working fine except that I have this problem of the air displacing the water back to the FE tank. The water it getting back into the tank a quite a rate - I would say about 2 litres per hour. This means that the rads need to be bled constantly.

Any ideas? Could it be an problem with the boiler itself?
Has this problem occured since the new pump fitting, if so you might post the make/model of the old pump and ditto for the new pump.
 
Has this problem occured since the new pump fitting, if so you might post the make/model of the old pump and ditto for the new pump.

No. It started before. I replaced the pump like for like (Grundfos UPS2). In actual fact I did't really need to replace the pump but did so at this time as a precaution because I know the last one that was fitted was a second hand one.
 
No. It started before. I replaced the pump like for like (Grundfos UPS2). In actual fact I did't really need to replace the pump but did so at this time as a precaution because I know the last one that was fitted was a second hand one.
The new pump will or should have PP (proportional pressure) control.
The present fixed speed setting 1 is equivalent to a 4M pump and for
most systems should not cause any pump over problems... however you could try setting it to one of the 3 PP settings which are all fairly close, I would suggest trying it on PP2 which will reduce the head considerably at the cost of reduced circulation through the system but might still be quite adequate for your purposes, if no pump over at this setting, I would suggest increasing it to PP3, if you still have pump over (at PP2) reduce it to PP1.
 
The new pump will or should have PP (proportional pressure) control.
The present fixed speed setting 1 is equivalent to a 4M pump and for
most systems should not cause any pump over problems... however you could try setting it to one of the 3 PP settings which are all fairly close, I would suggest trying it on PP2 which will reduce the head considerably at the cost of reduced circulation through the system but might still be quite adequate for your purposes, if no pump over at this setting, I would suggest increasing it to PP3, if you still have pump over (at PP2) reduce it to PP1.

The pump has 3 speed settings. Initially it was on 3 and I thought that was the problem so it is currently set to 1 and the problem still exists. I should mention we are in a bungalow so I think 1 is adequate anyway.
 
This doesn't sound like pump-over at all. And if the system is correctly designed, then the speed of the pump is immaterial.

I take it when you turn the boiler off and the system cools and you bleed the radiators, the F&E level is not dropping back down? You'd need to isolate the float valve aka ballcock to check as otherwise it will refill the F&E automatically.

I'm going to come up with the hypothesis that you have a hot water cylinder and that the coil in it is leaking. This would explain the water rising, though not sure where the air issue fits in. Do you have a cylinder or do you have a combi-boiler?
 
The pump has 3 speed settings. Initially it was on 3 and I thought that was the problem so it is currently set to 1 and the problem still exists. I should mention we are in a bungalow so I think 1 is adequate anyway.
Agreed, speed setting 1 should be fine in normal circumstances but by selecting PP control it will reduce the head from say 3M to ~ 1.5/1.7M and IF the F&E tank "movement" dies down or ceases then at least it will tell you something.
 
This doesn't sound like pump-over at all. And if the system is correctly designed, then the speed of the pump is immaterial.

I take it when you turn the boiler off and the system cools and you bleed the radiators, the F&E level is not dropping back down? You'd need to isolate the float valve aka ballcock to check as otherwise it will refill the F&E automatically.

I'm going to come up with the hypothesis that you have a hot water cylinder and that the coil in it is leaking. This would explain the water rising, though not sure where the air issue fits in. Do you have a cylinder or do you have a combi-boiler?

When I bleed the rads the FE level does drop and water enters via the ballcock. Yes we have a hot water cylinder.
 
So if your ballcock were not refilling the F&E, and no overflowing took place, you think the volume of water in the system would stay the same? There isn't any being added, by, say, a leak from the coil in your hot water cylinder?
 
Agreed, speed setting 1 should be fine in normal circumstances but by selecting PP control it will reduce the head from say 3M to ~ 1.5/1.7M and IF the F&E tank "movement" dies down or ceases then at least it will tell you something.

How do I change the PP setting? The pump only has the 3 setting selected via a button.
 
This doesn't sound like pump-over at all. And if the system is correctly designed, then the speed of the pump is immaterial.

I take it when you turn the boiler off and the system cools and you bleed the radiators, the F&E level is not dropping back down? You'd need to isolate the float valve aka ballcock to check as otherwise it will refill the F&E automatically.

I'm going to come up with the hypothesis that you have a hot water cylinder and that the coil in it is leaking. This would explain the water rising, though not sure where the air issue fits in. Do you have a cylinder or do you have a combi-boiler?

I thought I would post this photo of the piping as it might help to explain the problem in more detail? This piping is directly above the boiler.
CH Problem.jpg
 
So if your ballcock were not refilling the F&E, and no overflowing took place, you think the volume of water in the system would stay the same? There isn't any being added, by, say, a leak from the coil in your hot water cylinder?

How could I check that please?
 
How do I change the PP setting? The pump only has the 3 setting selected via a button.
It has 3 fixed speed settings and 3 PP settings, you press and hold the button for 5 secs to change from FP to PP (page 7 of attachment).
"When you press the button for five seconds, the pump
will change from fixed-speed operation to proportional pressure
control"
 

Attachments

  • Grundfos UPS2.pdf
    7.2 MB · Views: 15
How could I check that please?
If you were to isolate the ballcock and let the system cool, bleed the air out and add back the water you have scooped out, then you should have the same level you started with.

Looking at your photo, I am wondering where your vent is? I am assuming there isn't one? If so, then the system isn't pumping over.

Assuming your pump is somewhere on the boiler flow then anything between the cold feed and the pump inlet is running at a vacuum when the pump is on and there could be a minor weep which is admitting air to the system. Could be a radiator valve, the pump inlet gate valve stem, the pump inlet washer, or one of the joints in or near the boiler.

Alternatively, if there was a blockage, then there must be some degree of scale or rust in the system. Could be the boiler is kettling and creating steam, but I wouldn't imagine that steam could continue to survive as such for very long in the sort of quantity you are experiencing.

You seem to enjoy problem solving, so hopefully this will give you some ideas, but I am beginning to think you may need a professional to attend and have a good look at the system and how it is all arranged.
 
If the coil has failed in the cylinder the small feed and EXPANSION tank would constantly be overflowing due to the hot water cistern being higher/bigger. It's normal for the water to rise slighlts in the f+e. After all where else is the expanded water going to go????
 
If you were to isolate the ballcock and let the system cool, bleed the air out and add back the water you have scooped out, then you should have the same level you started with.

Looking at your photo, I am wondering where your vent is? I am assuming there isn't one? If so, then the system isn't pumping over.

Assuming your pump is somewhere on the boiler flow then anything between the cold feed and the pump inlet is running at a vacuum when the pump is on and there could be a minor weep which is admitting air to the system. Could be a radiator valve, the pump inlet gate valve stem, the pump inlet washer, or one of the joints in or near the boiler.

Alternatively, if there was a blockage, then there must be some degree of scale or rust in the system. Could be the boiler is kettling and creating steam, but I wouldn't imagine that steam could continue to survive as such for very long in the sort of quantity you are experiencing.

You seem to enjoy problem solving, so hopefully this will give you some ideas, but I am beginning to think you may need a professional to attend and have a good look at the system and how it is all arranged.

Hi Ric2013 - Thanks for all the info so far. To answer some of your points:

The vent (and by that I assume you mean the pipe that dangles over the FE tank?) is T’d into the boiler flow and is plastered into the wall about 20” to the right of the cold feed shown in the photo.


The pump is in the airing cupboard and I assume is attached to the boiler flow (pretty sure it is - the pipes come up through the floor boards). Above the pump is the 3 way motorised valve - which appears to be functioning correctly when you switch between CH and HW.


As for enjoying solving problems - yes I do - but this one is driving me nuts!!! :(

Thanks again.
 
Ah, so your arrangement is something like this then?
system.jpg


If so, the pump is pulling on the vent and could be pulling in air if it runs too fast. Unfortunately, in PP mode, the pump will start fast even when it then slows down. What you have there is probably a residual of an old legacy system much more than 20 years old that worked very well with the old boilers that had negligable resistance to flow, not so well with a modern boiler. Possibly has never been fully modernised. The pump may well have been on the return once upon a time.

You can try setting down the pump as other have suggested, but my feeling is that this kind of setup is prone to this sort of problem and you might want to look at getting the system reconfigured.

One important question: Did it used to work okay and when did this change?

View attachment 36394
 
Ah, so your arrangement is something like this then?View attachment 36395

If so, the pump is pulling on the vent and could be pulling in air if it runs too fast. Unfortunately, in PP mode, the pump will start fast even when it then slows down. What you have there is probably a residual of an old legacy system much more than 20 years old that worked very well with the old boilers that had negligable resistance to flow, not so well with a modern boiler. Possibly has never been fully modernised. The pump may well have been on the return once upon a time.

You can try setting down the pump as other have suggested, but my feeling is that this kind of setup is prone to this sort of problem and you might want to look at getting the system reconfigured.

One important question: Did it used to work okay and when did this change?

View attachment 36394
My own system has a combined vent and cold feed, ie the cold feed is teed directly into the vent where it passes by the Feed & Expansion tank, I know of a number of systems like Tiggy1995,s above that were modified to this combined system, this obviously isn't allowed in a solid fuel system. However he did say his system worked well as is and the boiler was renewed 9 years ago, I don't think he has had this problem for the past 9 years.

Re the pump speeding up on PP setting, it does, but only for a few seconds to find its steady state condition, its only the press of a button to try it out and it may alleviate if not cure the problem until a permanent solution is found.
 
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Ah, so your arrangement is something like this then?View attachment 36395

If so, the pump is pulling on the vent and could be pulling in air if it runs too fast. Unfortunately, in PP mode, the pump will start fast even when it then slows down. What you have there is probably a residual of an old legacy system much more than 20 years old that worked very well with the old boilers that had negligable resistance to flow, not so well with a modern boiler. Possibly has never been fully modernised. The pump may well have been on the return once upon a time.

You can try setting down the pump as other have suggested, but my feeling is that this kind of setup is prone to this sort of problem and you might want to look at getting the system reconfigured.

One important question: Did it used to work okay and when did this change?

View attachment 36394
Yes that diagram is correct. The system has never been reconfigured. We have lived here since the house was built. The only thing that has changed is the boiler. The original was an Ideal now a Worcester Bosch (I think the builder might have used BG to install the heating system at the time - over 20 years actually).

You are also correct in that this problem has just started in the last few weeks. I have also just realised something else this evening. When the system is set to CH and HW the heating hardly gets hot. On CH only it heats up nicely. I'm at the end of what I think I can do so I'm going to get a heating engineer to have a look at it now. I'm even considering replacing the whole lot with a combo boiler. We live in a bungalow and there are only two of us so a combo should be OK. I'll get advice.
 
I think getting someone in may be a good idea. No point fitting a new boiler as a soution until you can be sure what the problem is. Good luck, and please do let us know how you get on - makes it worth our while, you know.
 
OK guys here is an update on my situation...............

Action taken yesterday:

  • I fully drained the system.
  • I fitted a brand new diverter mid-position valve. I did this because a) it was old, b) the CH and HW were not working together c) the system was empty so do it now as a preventative measure.
  • I have filled the system with Sentinel X400 and that is currently still in the system.

Outcome:
  • The system is working very very well - getting a lot hotter that it used to.
  • The CH and HW work together now.
  • The whole system seems quieter and more efficient.

But:

  • The rads still need bleeding within 30 minutes of the CH starting up. One in particular is gurgling and this is the one loosing most of it’s water back to the FE tank.
  • The FE tank is still getting water pushed back into it via the flow outlet at the bottom of the tank. I know this because, apart from the rads getting cold at the top, if you watch it for 5 minutes you can actually see the levels rising and you can see murky water entering via the flow outlet. The tank water was perfectly clear yesterday, now it’s rusty red (well at least I guess the X400 is doing it’s job :).
  • When I bleed the rads the water level in the FE drops back to the correct level.

Planned next steps:

  • Leave the X400 in for a couple more days and see if this makes any difference.
  • Drain, flush and add some X100 inhibitor.
  • Test for another couple of days.
  • If I still have the back fill/bleeding problem call a good Heating Engineer for advice.
  • Go off and resolve the Brexit Crisis because that looks a lot easier ;)

Thank you all for your help - I’ll keep you posted.
 
OK guys here is an update on my situation....

Action taken yesterday:

  • I fully drained the system.
  • I fitted a brand new diverter mid-position valve. I did this because a) it was old, b) the CH and HW were not working together c) the system was empty so do it now as a preventative measure.
  • I have filled the system with Sentinel X400 and that is currently still in the system.

Outcome:
  • The system is working very very well - getting a lot hotter that it used to.
  • The CH and HW work together now.
  • The whole system seems quieter and more efficient.

But:

  • The rads still need bleeding within 30 minutes of the CH starting up. One in particular is gurgling and this is the one loosing most of it’s water back to the FE tank.
  • The FE tank is still getting water pushed back into it via the flow outlet at the bottom of the tank. I know this because, apart from the rads getting cold at the top, if you watch it for 5 minutes you can actually see the levels rising and you can see murky water entering via the flow outlet. The tank water was perfectly clear yesterday, now it’s rusty red (well at least I guess the X400 is doing it’s job :).
  • When I bleed the rads the water level in the FE drops back to the correct level.

Planned next steps:

  • Leave the X400 in for a couple more days and see if this makes any difference.
  • Drain, flush and add some X100 inhibitor.
  • Test for another couple of days.
  • If I still have the back fill/bleeding problem call a good Heating Engineer for advice.
  • Go off and resolve the Brexit Crisis because that looks a lot easier ;)

Thank you all for your help - I’ll keep you posted.

Thanks for the feed back, did you try the pump on PP control?.
 
Thanks for the feed back, did you try the pump on PP control?.

John G you are a star!!! Set the pump to PP2 and all is sweet! I thank you sir.

Would you mind spending 2 mins explaining to me in laymans terms exactly what the Proportional Pressure setting does? It must be more that just a lower pressure setting - thanks.
 
Yes the tank is full. As the heating runs I can see the sediment being moved around the FE tank. I put my hand in the tank and you can feel warn water coming back in via the feed outlet.
I see that you have 'solved' the problem by setting the pump to PP2. However this may be a compromise.

When the water is heated it will expand so the water level in the FE tank will rise and feel warm (hot water rises).

The level should be adjusted, by bending the ballcock valve stem, so the tank is only half full when the water is hot.

If the level is too high water will escape via the overflow pipe. So when it cools down the level in the tank drops and has to be replenished via the ballcock valve. This introduces more air to the system meaning more bleeding.
 
John G you are a star!!! Set the pump to PP2 and all is sweet! I thank you sir.

Would you mind spending 2 mins explaining to me in laymans terms exactly what the Proportional Pressure setting does? It must be more that just a lower pressure setting - thanks.

Good to hear that the pump over has stopped, I assume that you checked it with CH only & HW only. One concern I have is that you may have a partial blockage of the boiler heat exchanger as you ran for years with no pump over on a fixed speed setting, if there is a blockage and it gets progressively worse the the pump on PP control will just keep modulating down and the boiler deltaT will keep increasing for any given firing rate, I think some boilers cut out if the deltaT exceeds 25C or 30C, on the other hand you may have no blockage and/or you may have cleared it out with the chemical addition. Pump PP control is not recommended for boilers with a ABV (auto bypass valve) which opens on circ pump over run (if installed) for a short time on boiler shutdown to remove the residual heat from the exchanger, this is no problem with a fixed speed pump as the pump head will rise to its max (4M in your case) when all the zone valves shut so th ABV can be set at say ~ 3M so that it will open only on boiler shutdown, On PP control, the pump will reduce its speed to maintain its minimum head of ~ 1.2M but if you set the ABV down to say 0.8M then when the boiler comes back on the pump will ramp up to maybe 2M or so and there will be excessive bypass at this pressure. Again your boiler may not be fitted with this or it may use the post air purge to cool down the exchanger.
Now for the good news....pump PP control.
PP control was introduced on A rated circ pumps to save energy and in some cases to reduce noisy TRV,s when throttling down.
I have one myself (Wilo) which consumes 21/23 watts with everything opened up and falls to 12/14 watts on CH only when some of the TRVs are throttled down.
They work like this, depending on the PP setting you select the pump then sets a minimum head at zero flow and a maximum head at its full flow. For example assume that PP3 setting is selected on the UPS2, at that setting (see page 11 of the manual), the pump will modulate between 0 flow at 1.2M & 2.15M3/h (36 LPM) at a 3M head.
Now assume that the pump is running on fixed speed1 and the system with everything opened up requires a 2.9M head at a f/rate of 0.9 M3/h (15 LPM).....you now change over to PP3 control, the pump will go minimum speed and then starts ramping up, for any given point on that "curve" the pump calculates the exact power needed and compares this with the actual absorbed pump power and because there is only one point on this (or any) curve where that calculated power and the absorbed power are exactly equal then the pump will stop ramping and remain at this setting until the system conditions change. I am able to calculate this in a spreadsheet (unfortunately that I am unable to post on here) so if we go back to our original requirement of a 2.9M head at 15 LPM and c/o to PP control then the pump head and f/rate will fall to 1.8M head & 11.6 LPM, as the system requirements fall then the pump will modulate still further. Again if you are back to fixed speed and you shut off "1/2" the rads you might need a 2M head for a f/rate of 7.5 LPM, change back to PP control and the head will fall to 1.52M & the f/rate to 6.7 LPM. If you "dead headed" the pump by say shutting the pump discharge isolating valve, the pump head will fall to 1.2 M at zero F/rate, if you fitted a controllable by pass around the pump and started opening it, the pump would ramp up to a 3 M head & a f/rate of 2.15 M3/h or 36 LPM.

Edit: Should have asked, what PP setting are you using??, thanks.
Have just seen that you are on PP2, I will adjust the numbers above shortly to reflect this, I would suggest PP3 if still no pump over.
I have left the above PP3 and shown the PP2 settings below, very little difference, one of the draw backs of UPS2 PP control.

PP2 SETTING
assume that the pump is running on fixed speed1 and the system with everything opened up requires a 2.9M head at a f/rate of 0.9 M3/h (15 LPM).....you now change over to PP2 control, the pump will go minimum speed and then starts ramping up, for any given point on that "curve" the pump calculates the exact power needed and compares this with the actual absorbed pump power and because there is only one point on this (or any) curve where that calculated power and the absorbed power are exactly equal then the pump will stop ramping and remain at this setting until the system conditions change. I am able to calculate this in a spreadsheet (unfortunately that I am unable to post on here) so if we go back to our original requirement of a 2.9M head at 15 LPM and c/o to PP2 control then the pump head and f/rate will fall to 1.58M head & 11.1 LPM, as the system requirements fall then the pump will modulate still further. Again if you are back to fixed speed and you shut off "1/2" the rads you might need a 2M head for a f/rate of 7.5 LPM, change back to PP2 control and the head will fall to 1.35 M & the f/rate to 6.2 LPM. If you "dead headed" the pump by say shutting the pump discharge isolating valve, the pump head will fall to 1.1 M at zero F/rate, if you fitted a controllable by pass around the pump and started opening it, the pump would ramp up to a 2.7 M head & a f/rate of 2.34 M3/h or 39 LPM.
 
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Just in case you didn't follow that, and I'm not sure I did, here is another very rough explanation of PP as explained to me by a Grundfos engineer.

Very basically, a pump could run faster and slower to maintain the same available head as rad valves are open and shut. When a valve is opened, more water can flow so the pump runs faster to maintain the same pressure. This would be a constant pressure setting.

Proportional pressure slightly over-compensates, so as the flow increases when you (or a TRV) open the flow to a rad, the pressure at the pump is not only maintained by increasing the pump rotation speed, but the pressure is actually raised a little. The reason for this is that the primary circuit (the pipe from the boiler to the motorised valve and the common return to the boiler) creates more drag when the water velocity is higher. So if the pump merely maintained a constant pressure at the pump, the pressure at each radiator would drop when all valves were open and each radiator would still receive a little less water than if only half were turned on. By over-compensating, the pump makes up for the increased drag on the primary circuit as velocity increases.

On the UPS2 (and I would imagine most pumps are similar), the PP1,2, and 3, differ in that the PP3 does the most overcompensation, and the PP1 does the least.
 

Reply to Air in CH system and hot water returning to FE tank via the cold feed in the Plumbing Jobs | The Job-board area at PlumbersForums.net

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