Delta 30 or 60 degrees for radiators?

[solarCH]

I would be really interested in opinions on whether it is more efficient to plan a central heating system to run at low or high temperatures.

The radiator manufacturer states heat output in W at delta 30 and delta 60 with respect to the average room temperature. The installation is a mild climate with only a few really cold days each year. I have estimates for the heatloss in each room (from the architect) so its a question of which size radiator to place in each space to replace the heat escaping. We will need more and/ or bigger radiators at D30.

D60 will obviously heatup quicker but I heard the other day that condensing boilers are more efficient at lower temperatures (that is, a D30 circuit will need the boiler to run longer at a lower temperature to raise the radiators to the required temperature but less gas will be consumed as the boiler is being more efficient??)

Each radiator will have a thermostat, and on really cold days we can increase the operating temp to heat up quicker (and replace the more rapid heat loss due the steeper temp gradient.)

Hope that all makes sense!

 

[AWheating]

i thought most manufactures gave outputs in t50? (based on 70 mean water,20room temp)

would have thought 30 being used for ground source and air source supply?

 

[Ray Stafford]

i thought most manufactures gave outputs in t50? (based on 70 mean water,20room temp)

would have thought 30 being used for ground source and air source supply?

EN442 (in force for about 7 years?) is Delta T50. The older BS was delta T60.

 

[DirksPlumbing]

i thought most manufactures gave outputs in t50? (based on 70 mean water,20room temp)would have thought 30 being used for ground source and air source supply?

I would not lay out on D30 unless it is a twin stage compressor.

@OP: You are right saying that. Driving your car to your 100mls away target and nailing the accelerator down probably gets you there in half the time.Would you expect that driving half the time only, will have saved you half the fuel then?
So why should that happen on a boiler which is basically a combustion engine as well.

 

[solarCH]

i thought most manufactures gave outputs in t50? (based on 70 mean water,20room temp)

would have thought 30 being used for ground source and air source supply?

Yes, that is true, I have seen that all the makers have T50 values, many have T60 as well, values obtained to UNE EN 442.

I have seen T30 quoted by Ferroli which offers traditional looking rads with aerodynamic vents, and by Jaga, which has units which are basically a pipe with square fins in a case. I guess the T30 is aimed at the solar/ water based HVAC systems??

 

[AWheating]

i dont think having a larger radiator with higher water volume at a lower temp will save you money over a smaller rad with higher temp. If both rads at different deltas have the same wattage then i would think they require roughly the same energy to reach the target output. its only the energy sources difference in efficiency at the diffrent temp levels that will be different. Have you spoke to the manufacture of your energy source and asked what if any the difference is?

what boiler are you planning to use?

t60 values are quoted i guess to relate to old measures.... when boilers had a higher flow temp or possibly for other fuels like solid fuel and oil as they have different temps from gas.

never seen t30 which is why i assumed it was used for new tech with low water temps like ground source, or whatever.


the delta stands for the difference between the mean water temp and the air/room temp.

 

[chris watkins]

Couple of thing's to think about -
1. Domestic hot water production, if off the same heat source as for the rads will need min of 70deg C flow to heat effectively to 60 storage.
2. The selection of rads (or other heat emitters) based on a lower delta t will have a great effect on how long the boiler (& assume that is what you are proposing to use) will stay in condensing mode for, if we can design the system so that the return is always less than <53deg C it will be in condensing mode (up to 13% more efficient)
3. The use of a weather compensation system (often built into modern standard boilers now) will be facilitated greatly by the use of rads with this lower working temp. We are now aiming for the heating equipment to be firing for longer but at lower outputs to avoid the wasteful cycling (on/off's) which tends to happen more at higher temps.
4. A delta t of 30 as a design temp may be a bit extreme but it selecting rads able to work at these lower working temps is at least future proofing the system if the boiler has to be replaced with an alternative heat source or hybrid system all of which seem to have to work at these much lower working outputs.

 

[solarCH]

I would not lay out on D30 unless it is a twin stage compressor.

OP: You are right saying that. Driving your car to your 100mls away target and nailing the accelerator down probably gets you there in half the time.Would you expect that driving half the time only, will have saved you half the fuel then?
So why should that happen on a boiler which is basically a combustion engine as well.

It would be 'twin stage' in the sense that I want to use a condensing boiler. The efficiency of these units changes with temperature, around 97% (of nominal) when working 80/60 and 107% (of nominal) at 50/30 degrees. So effectively these boilers produce more energy for the same gas when working at lower temperatures (ie less energy is lost to the environment)

The car analogy is a good one- my car reports better fuel consumption when I reduce the maximum speed on the motorway. So is that true for condensing boilers? A slow burnt for longer uses less gas overall than a full-on burn for a shorter time?? The only figures I have seen for gas consumption are max caudal.

 

[solarCH]

i dont think having a larger radiator with higher water volume at a lower temp will save you money over a smaller rad with higher temp. If both rads at different deltas have the same wattage then i would think they require roughly the same energy to reach the target output. its only the energy sources difference in efficiency at the diffrent temp levels that will be different. Have you spoke to the manufacture of your energy source and asked what if any the difference is?

what boiler are you planning to use?

t60 values are quoted i guess to relate to old measures.... when boilers had a higher flow temp or possibly for other fuels like solid fuel and oil as they have different temps from gas.

never seen t30 which is why i assumed it was used for new tech with low water temps like ground source, or whatever.


the delta stands for the difference between the mean water temp and the air/room temp.

Spot on! Its the boiler that is more efficient at lower temperatures (ie recovers more energy in the burner) I have seen efficiency of around 97% (of nominal) when working 80/60 and 107% (of nominal) at 50/30 degrees. I guess that the efficiency gets better running at 30/20?? - 30 degrees seems to be the min boiler temperature.

The average room temp (ie initial return water) will be 7-15deg depending on the month, average water temp needs to be 30-40 degrees, so the idea is to plan to T30 and put larger rads in any try to run the system at 30 degrees (technically T20!) and raise the temp to 40 or 50 on very cold days.

 

[chris watkins]

What is the type of system proposed ? new build, refurb, gas / oil fuelled boiler ? stored hot water / with or without solar, if new could you use U/F ?
Regarding the heat emitters I have seen the big manufacturers are now offering trebles (K3's) & a few are going down the route of small fans built into what looks like a compact rad to increase the airflow through them & not have to rely on convection to work with these lower water temps !!
PS they wouldn't last long in my house with all the dust !!!

 

[solarCH]

Couple of thing's to think about -
1. Domestic hot water production, if off the same heat source as for the rads will need min of 70deg C flow to heat effectively to 60 storage.

good points.
I am not planning to store water unless it is solar produced (in the future). Showers and basins will get hot water on demand, the source could change from the water supply direct to the water pre-heated by the solar system.

2. The selection of rads (or other heat emitters) based on a lower delta t will have a great effect on how long the boiler (& assume that is what you are proposing to use) will stay in condensing mode for, if we can design the system so that the return is always less than <53deg C it will be in condensing mode (up to 13% more efficient)

Have you seen tables for efficiency versus return water temp? Or peak temp figures (i guess this can vary between makers..)

3. The use of a weather compensation system (often built into modern standard boilers now) will be facilitated greatly by the use of rads with this lower working temp. We are now aiming for the heating equipment to be firing for longer but at lower outputs to avoid the wasteful cycling (on/off's) which tends to happen more at higher temps.

Yes, we want an external sensor as well.

4. A delta t of 30 as a design temp may be a bit extreme but it selecting rads able to work at these lower working temps is at least future proofing the system if the boiler has to be replaced with an alternative heat source or hybrid system all of which seem to have to work at these much lower working outputs.

 

[solarCH]

What is the type of system proposed ? new build, refurb, gas / oil fuelled boiler ? stored hot water / with or without solar, if new could you use U/F ?
Regarding the heat emitters I have seen the big manufacturers are now offering trebles (K3's) & a few are going down the route of small fans built into what looks like a compact rad to increase the airflow through them & not have to rely on convection to work with these lower water temps !!
PS they wouldn't last long in my house with all the dust !!!

Its a new build, probably gas but wood pellet burning boiler has not yet been ruled out.

Jaga has some interesting units with fans in to increase the flow as you describe, though it seems a bit counter intuitive worrying about low temp rads only to consume electricity in the fans..!! I believe a U-pipe with double the number of 'fins' works just as well as the extra heat kick starts the convection..

 

[chris watkins]

Its a new build, probably gas but wood pellet burning boiler has not yet been ruled out.

Jaga has some interesting units with fans in to increase the flow as you describe, though it seems a bit counter intuitive worrying about low temp rads only to consume electricity in the fans..!! I believe a U-pipe with double the number of 'fins' works just as well as the extra heat kick starts the convection..

If new build & gas, why not UnderFloor heating ? With water temp F 50-40deg C most modern boilers can be set to give this as a max, so no mixing valves required ! & with the the build insulation (U Values) it will work fine with either U/F or rads upstairs depending on the type of build construction.

 

[solarCH]

If new build & gas, why not UnderFloor heating ? With water temp F 50-40deg C most modern boilers can be set to give this as a max, so no mixing valves required ! & with the the build insulation (U Values) it will work fine with either U/F or rads upstairs depending on the type of build construction.

Unfortunately, we cant touch the floor and some walls are also off limits.

 

[doitmyself]

i dont think having a larger radiator with higher water volume at a lower temp will save you money over a smaller rad with higher temp. If both rads at different deltas have the same wattage then i would think they require roughly the same energy to reach the target output. its only the energy sources difference in efficiency at the different temp levels that will be different.

Surely that's the whole point of running at lower temperatures - it's more efficient. If you run the boiler so the return temperature is below the dew-point (55C approx), the boiler produces additional energy for nothing by condensing the flue gasses so a typical boiler which produces 17.6kW at 60C/80C will produce 19kW at 50/30C without any increase in gas consumed. That's an 8% increase in output.

Current advice - Domestic Buildings Compliance Guide 2010, page 16, Table 1 says that systems should be designed for a return temperature less than 55C so advantage is taken of condensing.

If you design the system so the DeltaT across the radiator is 10C (65/55), the radiator will have to be 'oversized' by 35% to allow for the reduced output. A DeltaT of 20C (75/55) requires an oversize of 17%.

If you really wanted to run at temperatures of 50/30C, the radiators would have to be oversized by 280%!

 

[solarCH]

If you design the system so the DeltaT across the radiator is 10C (65/55), the radiator will have to be 'oversized' by 35% to allow for the reduced output. A DeltaT of 20C (75/55) requires an oversize of 17%.

If you really wanted to run at temperatures of 50/30C, the radiators would have to be oversized by 280%!

Or have more radiators, or taller ones. So if we don't go with the traditional 82/71 and 50/30 is a bit extreme, what would you recommend?

 

[DirksPlumbing]

Or have more radiators, or taller ones. So if we don't go with the traditional 82/71 and 50/30 is a bit extreme, what would you recommend?

55/45 is quite common. (2x oversized towards D50)

 

[chris watkins]

Or have more radiators, or taller ones. So if we don't go with the traditional 82/71 and 50/30 is a bit extreme, what would you recommend?

Domestic heating design guide suggests 70 flow - 50 Return with a room temp 21 (delta t 39) for rads & where a system is used to generate DHW. This seems to work for me & most boiler manufactures state a temp drop across the boiler of 20 deg C.
Does anybody have any thoughts on these figures if you were going to install a W.Comp system (so the HWS is not a factor), also what about adding the 10 -15% to the heatloss for intermittent heating this does/may not apply if running at lower temps & keeping the boilers on longer ??

 

[solarCH]

55/45 is quite common. (2x oversized towards D50)

I'm seeing more references to 20 deg drop across each radiator. I guess if you have gotten energy from the boiler to the radiator, it makes sense to leave as much as possible.

I guess the 55deg is related to the earlier post regarding efficient condensing?

 

[solarCH]

Domestic heating design guide suggests 70 flow - 50 Return with a room temp 21 (delta t 39) for rads & where a system is used to generate DHW. This seems to work for me & most boiler manufactures state a temp drop across the boiler of 20 deg C.
Does anybody have any thoughts on these figures if you were going to install a W.Comp system (so the HWS is not a factor), also what about adding the 10 -15% to the heatloss for intermittent heating this does/may not apply if running at lower temps & keeping the boilers on longer ??

Uponor only give MLCP friction tables for 82/71 and 70/50deg.
Agree that the boiler specs refer to 20deg drop, I have numbers for 80/60 and 50/30. That said, Junkers Bosch have one solar boiler with 40/30 in Germany/ Spain.