I live in Denmark and we design systems to an out door temp of -12C. We generally use DT 3-7 with a snail pattern at 150mm cc, but we put 400mm of insulation under our slab
Is there not a tradeoff in pumping losses? 100mm centres means quite a lot more pipe (50% more than 150mm and twice as much as 200mm) so more power needed to shift the water through it. Or do you just keep the pipe length to some limit and add more loops? So there is a bit more pipe in the runs back to the manifold, but mostly it's just an investment in manifolds?
Are you saying with low temperature UFH on full weather comp that room stats should still be installed as temperature limiters or none at all? I'd like to know for my self build with 37.5 MWT, if i should use 100mm centres throughout the ground floor or use custom per room to match the heat losses and floor coverings. Two equally sized rooms I have, ones 590w, ones 1100w because it has more glazing so not sure same centres would work?
Should you have smart thermostats for underfloor zones? Currently have 3 honey well mechanical at home… so not sure how we can set up a set back differential I.e 20 degrees during the day 18 at night
Can underfloor heat and low-temp radiators use the same weather compensation curve? I guess they would require the same mean t and dt for this to work?
Im using 10mm pipe - whats the maximum loops and what size pump do I need for a 20m2 area? Approx 7.7l of water in pipes. Im thinking 12 loops (easy for a 22m manifold with 4 10m outputs/inputs on it.
As the Building Regulations at the time of construction were most definitely split zones on most New Builds, even small flats.! It sounds like an oversight by the Builder, Plumber or Electrician. I’d contact the House Builder & inform them that your home doesn’t comply with the Building Regulations. Unless, of course you’re a Self-Build, then it’s you that’s the twat! Regards Dick Puller👍👍
There are special underfloor heating base plates for that. They look a bit like lego base plates. They come with a 50 mm spacing so jou have some flexibility in spacing and bends. They are available without and with insulation, raising your floor height. If you have a concrete ground floor with proper insuliation, just get a professional to do all of it when your floor needs replacing. Special machines can cut out the snail patterns and they level it all, which you will need for PVC floors anyway. That way you do not lose any height and all of the outside doors will still open. Upstairs just shortening the doors if needed is much easier. These machines are heavy and bulky anyway, so a base plate system makes more sense.
So in summary for a lay man that’s about to have UFH. Large rooms go 100mm centres, small rooms 150-200mm centres. Open circuit no zones. Is that correct? What pattern should I have? Didn’t understand that?
No. 100mm centers everywhere and use balancing to rectify. NOT controls .. they are the fall back. This video is not for laymen or enthusiasts really and could lead to issues.. laymen should listen to designers I don't want responsibility
From over 30 years experience in UFH, you’ll generally find that due to limited available Floor Area in Bathrooms & Shower Rooms etc. You need to Close Band the UFH Loops in these areas. With Heat Loss, Air Changes & High ambient temperatures required for these areas, 100mm centres would be farting at thunder in these areas & no more so than with a Low Temperature Heat Pump system. Regards Dick Puller
Hi Heat Geek People I've watched your video, and it is unclear as to the diameter of the underfloor pipe where the heat source is an Air Heat Pump. Please advise. Robert
Problem with low DT and Inverter heat pumps is they cycle too often. Need to drip feed them with cooler water so that they have something to work with.
It’s energy based, dt doesn’t matter. Even if the dt was wide if energy out is below energy in it will cycle. Infact widening the dt will increase flow temp and cause overshoot so cycle
@@HeatGeek I’ll take a look, I just installed an omnie TorFloor system in my place and their flow rate stuff confused the hell out of me without all the extra lingo 😂
This is only highlighting concepts, not providing any formulas or design on how to design your UFH on the amount of pipe required as in length, flow rates, and delta T, and using with heat pump or boiler and the best flow temperature to get the best efficiencies from your design system
@@HeatGeek Hi, Thank you for your reply, I will sign up for the training course as I am building a Passivhaus design house in Cornwall, as a self build, and will require council sign off from a MCS accredited company that will install the heat pump. Some time ago, I have put down a deposit to have a regional installer, GreenGen to supply a Vaillant monoblock unit. Their heat loss calculations they supplied is way off, and insisting to fit a 8kw unit. My calculations suggest a 5kw unit as my total thermal envelope loss is less than 100w per degree change. I am old school, have an Engineering degree and have worked on nuclear subs in Devonport dockyard, so I am not an idiot, but these companies do treat you as such. Shame that you are so far away, I would have you guys install the heat pump and tank system for me. Anyway, your work and knowledge is top notch, rare qualities nowadays indeed. Regards Adam
Having a 40 flow and 39 return doesn’t mean you’ll have a warmer room. It means that you haven’t transferred any of the heat into that room. Your return temperature has an effect on the performance of the heat pump. Having a lower flow rate increases the amount of heat transfer, increasing efficiency.
Sorry that's completely incorrect, the output of all emitters are based on the dt between their MEAN water temp to air temp (mw-at). The greater the MW-AT the greater the heat flux /power output.
I think this is what the student in the video is trying to ask. Heat output is a function of dT (as well as SHC and flow rate) according to your mass flow video, so when you suggest increasing the dT they (and I) initially correlated that to an increased heat output. However, to achieve that higher delta T the flow rate will be much lower and so the actual output in kW will be lower. Have I understood it correctly? This wasn't really explained brilliantly in this video, though I'm sure the point was made in the class.
@@HeatGeek sorry a floor heating system output is based upon BS EN 1264 and can be easily calculated using the difference between the surface and air temperature. It is different to radiators whereby a kH value is calculated dependent upon the overall floor construction kH * (MWT-Air)^1.1. With radiators it is easy to apply EN 442 with a simple MWT-Air due to the very low material resistence between the water and the air. However, floor heating system build ups vary so much, such as a foiled and grooved insulation panel with a timber covering versus a dry pug screed system beneath a chipboard and carpet. I would recommend you studying BS EN 1264 as it will give you a good grounding 👍 good luck.
I live in Denmark and we design systems to an out door temp of -12C. We generally use DT 3-7 with a snail pattern at 150mm cc, but we put 400mm of insulation under our slab
Exactly what we do mate 100-150mm then I catch it on the flow rates when commissioning 👌
Look up.. absolute legend of heating
does this all change if using a condensing oil or gas boiler? or if coming from a thermal store?
100mm centres everywhere future proof the house.
Also further down the line you are not stuck on what floor coverings you can have on tog value
100%
Ok thanks
Is there not a tradeoff in pumping losses? 100mm centres means quite a lot more pipe (50% more than 150mm and twice as much as 200mm) so more power needed to shift the water through it. Or do you just keep the pipe length to some limit and add more loops? So there is a bit more pipe in the runs back to the manifold, but mostly it's just an investment in manifolds?
Are you saying with low temperature UFH on full weather comp that room stats should still be installed as temperature limiters or none at all?
I'd like to know for my self build with 37.5 MWT, if i should use 100mm centres throughout the ground floor or use custom per room to match the heat losses and floor coverings. Two equally sized rooms I have, ones 590w, ones 1100w because it has more glazing so not sure same centres would work?
Should you have smart thermostats for underfloor zones? Currently have 3 honey well mechanical at home… so not sure how we can set up a set back differential I.e 20 degrees during the day 18 at night
Can underfloor heat and low-temp radiators use the same weather compensation curve? I guess they would require the same mean t and dt for this to work?
Don't be lazy. Get that volume in the floor
Im using 10mm pipe - whats the maximum loops and what size pump do I need for a 20m2 area? Approx 7.7l of water in pipes. Im thinking 12 loops (easy for a 22m manifold with 4 10m outputs/inputs on it.
My 2020 new build is 80 degree flow 60 return 👍👍👍👍👍👍 and no thermostat on the downstairs room (it's on the first floor zone).
As the Building Regulations at the time of construction were most definitely split zones on most New Builds, even small flats.! It sounds like an oversight by the Builder, Plumber or Electrician. I’d contact the House Builder & inform them that your home doesn’t comply with the Building Regulations. Unless, of course you’re a Self-Build, then it’s you that’s the twat!
Regards Dick Puller👍👍
Standard lol. building regs are to change to a 55c flow temp max from now on.
@@TheDickPuller it's 3 floors 2 zones. Unfortunately no zone for the obviously colder ground floor.
Builder doesn't care whatsoever.
any tips on how to make those 100mm bends without kinking the pipe
There are special underfloor heating base plates for that. They look a bit like lego base plates. They come with a 50 mm spacing so jou have some flexibility in spacing and bends.
They are available without and with insulation, raising your floor height.
If you have a concrete ground floor with proper insuliation, just get a professional to do all of it when your floor needs replacing.
Special machines can cut out the snail patterns and they level it all, which you will need for PVC floors anyway.
That way you do not lose any height and all of the outside doors will still open.
Upstairs just shortening the doors if needed is much easier. These machines are heavy and bulky anyway, so a base plate system makes more sense.
So in summary for a lay man that’s about to have UFH. Large rooms go 100mm centres, small rooms 150-200mm centres. Open circuit no zones. Is that correct? What pattern should I have? Didn’t understand that?
No. 100mm centers everywhere and use balancing to rectify. NOT controls .. they are the fall back. This video is not for laymen or enthusiasts really and could lead to issues.. laymen should listen to designers I don't want responsibility
@@HeatGeek where do I find a designer in Essex!?
@@waterandlightbyalandeeney4304 have you looked on find a heat geek map?
@@HeatGeek I had a look, the guy you and nath recommended has had Covid and couldn’t see any others near me?
From over 30 years experience in UFH, you’ll generally find that due to limited available Floor Area in Bathrooms & Shower Rooms etc. You need to Close Band the UFH Loops in these areas. With Heat Loss, Air Changes & High ambient temperatures required for these areas, 100mm centres would be farting at thunder in these areas & no more so than with a Low Temperature Heat Pump system. Regards Dick Puller
Hi Heat Geek People
I've watched your video, and it is unclear as to the diameter of the underfloor pipe where the heat source is an Air Heat Pump.
Please advise.
Robert
16mm
Problem with low DT and Inverter heat pumps is they cycle too often. Need to drip feed them with cooler water so that they have something to work with.
It’s energy based, dt doesn’t matter. Even if the dt was wide if energy out is below energy in it will cycle. Infact widening the dt will increase flow temp and cause overshoot so cycle
Came for the UFH … got absolutely bamboozled by the talk about DTs… what’s a DT
Take a look at our mass flow rate video.. this will explain all.
@@HeatGeek I’ll take a look, I just installed an omnie TorFloor system in my place and their flow rate stuff confused the hell out of me without all the extra lingo 😂
So, it’s just like balancing radiators
Good video 👍
This is only highlighting concepts, not providing any formulas or design on how to design your UFH on the amount of pipe required as in length, flow rates, and delta T, and using with heat pump or boiler and the best flow temperature to get the best efficiencies from your design system
Correct. See our 120 hour indepth training on our site for that
@@HeatGeek Hi, Thank you for your reply, I will sign up for the training course as I am building a Passivhaus design house in Cornwall, as a self build, and will require council sign off from a MCS accredited company that will install the heat pump. Some time ago, I have put down a deposit to have a regional installer, GreenGen to supply a Vaillant monoblock unit. Their heat loss calculations they supplied is way off, and insisting to fit a 8kw unit. My calculations suggest a 5kw unit as my total thermal envelope loss is less than 100w per degree change.
I am old school, have an Engineering degree and have worked on nuclear subs in Devonport dockyard, so I am not an idiot, but these companies do treat you as such. Shame that you are so far away, I would have you guys install the heat pump and tank system for me. Anyway, your work and knowledge is top notch, rare qualities nowadays indeed.
Regards
Adam
Can someone tell whats dt? Eg: dt15
delta temperature (if your temperature is 40 and DT is 15 then the comeback temperautre is 25
Two guys talking bull
1 guy lol
dictatorship vs democracy 😂
Having a 40 flow and 39 return doesn’t mean you’ll have a warmer room. It means that you haven’t transferred any of the heat into that room.
Your return temperature has an effect on the performance of the heat pump. Having a lower flow rate increases the amount of heat transfer, increasing efficiency.
Sorry that's completely incorrect, the output of all emitters are based on the dt between their MEAN water temp to air temp (mw-at). The greater the MW-AT the greater the heat flux /power output.
When your 40 degree radiator doesn't transfer any heat, it's probably because you room is steaming hot already.
A very common misconception. See Adams mass flow video for a better understanding
I think this is what the student in the video is trying to ask. Heat output is a function of dT (as well as SHC and flow rate) according to your mass flow video, so when you suggest increasing the dT they (and I) initially correlated that to an increased heat output. However, to achieve that higher delta T the flow rate will be much lower and so the actual output in kW will be lower. Have I understood it correctly?
This wasn't really explained brilliantly in this video, though I'm sure the point was made in the class.
@@HeatGeek sorry a floor heating system output is based upon BS EN 1264 and can be easily calculated using the difference between the surface and air temperature. It is different to radiators whereby a kH value is calculated dependent upon the overall floor construction kH * (MWT-Air)^1.1. With radiators it is easy to apply EN 442 with a simple MWT-Air due to the very low material resistence between the water and the air. However, floor heating system build ups vary so much, such as a foiled and grooved insulation panel with a timber covering versus a dry pug screed system beneath a chipboard and carpet. I would recommend you studying BS EN 1264 as it will give you a good grounding 👍 good luck.