Dee Posted Friday at 14:50 Share Posted Friday at 14:50 Hi I have 2 rads that will not heat when other 27 rads are running. I've turned all other rads off both flow and return and the 2 cold rads are now hot. What does this tell me? What do I do now please? Link to comment Share on other sites More sharing options...
SteamyTea Posted Saturday at 10:53 Share Posted Saturday at 10:53 To me it says that the two radiators that stop working have a higher pipework resistance to them, or from them. Like electricity, water will take the path of least resistance. So it is probably a case of balancing (maybe a greater flow rate will help), but if there are TVRs fitted, then that complicates it all. Link to comment Share on other sites More sharing options...
Dee Posted Saturday at 11:50 Author Share Posted Saturday at 11:50 I've got those 2 working by turning off all 17 other rads at both f and R and forcing the heat to them....worked! then going back through each rad, turning back on and tweaking the return side. I stopped last night with 4 furthest from the boiler to balance....this morning I can't get those 4 to heat up!! They're all column rads with TRVs Link to comment Share on other sites More sharing options...
Dee Posted Saturday at 11:52 Author Share Posted Saturday at 11:52 So....if I go back along the chain of rads that preceed the 4 cold ones, do I tweak the lockshields more closed or more open? Link to comment Share on other sites More sharing options...
JohnMo Posted Saturday at 12:30 Share Posted Saturday at 12:30 35 minutes ago, Dee said: So....if I go back along the chain of rads that preceed the 4 cold ones, do I tweak the lockshields more closed or more open? You are trying to make the system resistance similar everywhere. So if some parts are not getting enough flow, you have to increase resistance elsewhere, by closing the LS a little. 1 1 Link to comment Share on other sites More sharing options...
Dee Posted 17 hours ago Author Share Posted 17 hours ago Thankyou for clarifying that! Other issue is I'm not achieving anything close to 12⁰ across any of the rads try as I might....at the boiler the difference is only 9⁰ Link to comment Share on other sites More sharing options...
JohnMo Posted 16 hours ago Share Posted 16 hours ago 1 hour ago, Dee said: Other issue is I'm not achieving anything close to 12⁰ across any of the rads try as I might....at the boiler the difference is only 9⁰ Are you room warm enough is your boiler running without too much cycling? dT is all to do with flow rate, if you moving too much water through the system dT will be low. You could turn down your circulation pump. But if circulation pump speed is controlled by boiler then the boiler is happy with the dT so don't mess with it. Link to comment Share on other sites More sharing options...
marshian Posted 15 hours ago Share Posted 15 hours ago 1 hour ago, Dee said: Thankyou for clarifying that! Other issue is I'm not achieving anything close to 12⁰ across any of the rads try as I might....at the boiler the difference is only 9⁰ Why is 12 deg important to you? At 70 deg flow temp you might see that at the boiler but not if you are running flow temps the allow the boiler to be in condensing mode all the time 27 rads is a lot of rads do you have control of the pump or is it inside the boiler - if external I’d try a faster pump speed - it could be that there just isn’t enough pump pressure to overcome the circuit resistance at the extreme ends of the system Link to comment Share on other sites More sharing options...
marshian Posted 15 hours ago Share Posted 15 hours ago 22 minutes ago, JohnMo said: dT is all to do with flow rate, if you moving too much water through the system dT will be low. You could turn down your circulation pump. But if circulation pump speed is controlled by boiler then the boiler is happy with the dT so don't mess with it. dT is also related to flow temp - lower the flow temps the narrower the dT will be (for same circumstances) 1 Link to comment Share on other sites More sharing options...
Dee Posted 15 hours ago Author Share Posted 15 hours ago (edited) That's always quoted as being the ideal temperature across f and R...I don't know enough to question that;) At 70 deg flow temp....Boiler is set to 60⁰ 27 rads TYPO! There are 19rads Edited 11 hours ago by Nickfromwales Thread tidied Link to comment Share on other sites More sharing options...
JohnMo Posted 13 hours ago Share Posted 13 hours ago 1 hour ago, Dee said: What is cycling?? Every time the boiler starts and stops. Short cycle time affects gas consumption in a bad way. So an on/running time of about 6 mins or less isn't good. 1 hour ago, Dee said: it's set to 3. If I turn it down will that effect the power to push the water to the end of the house Cannot answer that, you would have to try and see what happens. Link to comment Share on other sites More sharing options...
marshian Posted 11 hours ago Share Posted 11 hours ago (edited) @Dee please learn how to quote properly - write your responses under the quote of the post you are replying to - it’s horrible to untangle a mangled response where you’ve replied inside the quoted post (Thread now tidied ) Edited 11 hours ago by Nickfromwales Housekeeping Link to comment Share on other sites More sharing options...
marshian Posted 11 hours ago Share Posted 11 hours ago 3 hours ago, Dee said: That's always quoted as being the ideal temperature across f and R...I don't know enough to question that;) At 70 deg flow temp....Boiler is set to 60⁰ 27 rads TYPO! There are 19rads I have rads which a best only have a drop between flow and return of 3 deg (towel rails are rubbish for this) and other T22 rads that are 8 to 9 deg - only one rad in the house gets a drop of 10 deg and it a Triple panel, triple convector which is 1400 mm long by 700 mm high 12 deg is a legacy statement IMO from days of non condensing gas boilers - if you are using a condensing boiler you shouldn’t be running a flow temp above 55 leaving the boiler - the boiler is then always in condensing mode and more efficient. Now if your rads aren’t big enough at that flow temp then you have to go higher. 27 v 19 rads ok not as big as initially stated but still a large circuit on the column rads do they all have built in diverters - if they don’t it’s normally obvious - the bottom is hot the rest of the rad luke warm Link to comment Share on other sites More sharing options...
Nickfromwales Posted 11 hours ago Share Posted 11 hours ago Thread tidied. @Dee If you’ve got column rads then these are flow hungry, but will also bypass the flow potential of your pump (path of least resistance yaadaa-yaadaa), so basically try and draw a map of the rads and pipework in distance from pump > rad. Work these as an epicentre and adjust the LS valves according to % distance; eg 10 rads in a row in a straight line would have first LS set at 10% flow, 5th rad 50% flow 10th rad fully open. Are all the rads fed from 15mm pipe work? 10mm to column rads is ‘no bueno’. Do you know how much 22/28mm (if any 28mm at all?) primary pipe work there is? And do you know if no more than 4 rads are fed off a run of 15mm pipework? How old are the TRVs? These things don’t last forever. Link to comment Share on other sites More sharing options...
marshian Posted 11 hours ago Share Posted 11 hours ago Screw the lock shields down to the point that the drop between flow and return on each rad is 12 deg at a flow temp of 60 and I reckon you will have a very unhappy boiler that short cycles a lot - so you will have a very high gas bill and a cold house. Max number of cycles per hour should not exceed 6 but lower than that is preferred As an example - my house 13 rads currently has a boiler flow temp of 33.8 deg C and the boiler is running for 15 mins on and just circulating for 20 so 2 cycles per hour (but its all close to temp now) Link to comment Share on other sites More sharing options...
marshian Posted 11 hours ago Share Posted 11 hours ago 7 minutes ago, Nickfromwales said: Thread tidied. @Dee If you’ve got column rads then these are flow hungry, but will also bypass the flow potential of your pump How old are the TRVs? These things don’t last forever. Thank you for tidying the thread Agreed column rads need more flow but as they have a higher volume of water content they will work well at lower temps provided they have diverters (to stop short circuit) and you accept a slower warm up time Trv’s don’t last for ever - yep cheap ones are rubbish but the other thing to consider is cheap lockshields can be very non linear and make a circuit hard to balance - either get ones with a decent valve authority or go the other way and fit TRV bodies with flow control function 1 Link to comment Share on other sites More sharing options...
Nickfromwales Posted 10 hours ago Share Posted 10 hours ago FYI @Dee, the diverters are short / medium lengths of pipe or other to make the flow enter the rad vs just skip in and out like the SAS Same thing you’d get with the old twin-entry valves. Link to comment Share on other sites More sharing options...
Dee Posted 9 hours ago Author Share Posted 9 hours ago 2 hours ago, marshian said: @Dee please learn how to quote properly - write your responses under the quote of the post you are replying to - it’s horrible to untangle a mangled response where you’ve replied inside the quoted post (Thread now tidied ) Sorry! Link to comment Share on other sites More sharing options...
Dee Posted 9 hours ago Author Share Posted 9 hours ago TRVs are pegler terrier. Some are 20yrs old but I'm replacing them one by one as too costly to do all at once. Boiler cycles 3xhr I'm getting abetter understanding now and thanks everyone for your input Link to comment Share on other sites More sharing options...
marshian Posted 3 hours ago Share Posted 3 hours ago 5 hours ago, Dee said: TRVs are pegler terrier. Some are 20yrs old but I'm replacing them one by one as too costly to do all at once. Replacing them with what - same again?? Consider replacing them with a TRV body that either offers 6 adjustable flow settings (Drayton EB4 Bodies) https://www.toolstation.com/drayton-wiser-smart-radiator-thermostat/p50334?store=null&utm_source=googleshopping&utm_medium=feed&utm_campaign=googleshoppingfeed&gad_source=1&gclid=CjwKCAiAjp-7BhBZEiwAmh9rBcR1wEcxM8xrixvxTn8Bc1p-xOOXyXr6japIK4NNc0FIGr8jR9ikXhoCQlEQAvD_BwE Or the newer Flow control bodies https://www.toolstation.com/drayton-auto-balancing-valve/p19480?store=null&utm_source=googleshopping&utm_medium=feed&utm_campaign=googleshoppingfeed&gad_source=1&gclid=CjwKCAiAjp-7BhBZEiwAmh9rBTeH1kZaQ_VTDZBUakAjHVXcBD_mDBrVqQzDCF5dQqvOZAbLI3VfHhoCTp8QAvD_BwE Either of the above will enable you to run all the flow control at the TRV end and have the lockshield valve wide open 5 hours ago, Dee said: Boiler cycles 3xhr I'm getting abetter understanding now and thanks everyone for your input OK so cycling isn't an issue Ref Diverters - A lot of cheaper column rads don't have diverters or if they do the quality control isn't great - I had three column rads that all had different return temps despite very similar flow temps - One of them I was lucky to get any drop at all. They basically work fine at higher flow temps when the heat rises up the columns faster than the flow thro the rad - but when flow temps are lower without effective diverters they don't work so well https://www.bestheating.com/milano-flow-diverter-15mm-inlet-chrome-63476?gad_source=1&gclid=CjwKCAiAjp-7BhBZEiwAmh9rBQMqlsl_fWADI-zBoT93tixIGwN2tEfg3xTNkQsP8lPsOfTaOWPSDxoCAOIQAvD_BwE&gclsrc=aw.ds These diverters fixed all of them to give a decent drop between flow and return and the rads get warm all over If you've purchased good quality column rads with clearly marked flow and return ends and the location of the diverter and they are piped up with the flow and return correctly you should be fine Link to comment Share on other sites More sharing options...
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