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Evening all,

Our boiler hasn't been doing very well recently. Just doesn't get the radiators hot at all. It was a relic of a smaller house, which was then extended. They didn't replace the boiler.

We've decided to replace the boiler and sort out some pipework, install new valves etc, but I can't settle on the boiler size required. All radiators are already installed etc, so it's a question of finding the right sized boiler to heat it all appropriately;

- 4 bed detached house
- 1 bath, 2 showers
- 2200 sq/ft
- 15 rads, 2 towel rails

We are going for a system boiler. My calculations are as follows

- Current radiator output (Watts - ΔT = 50°) = 22620 Watts (includes towel rails and two rads in a glass conservatory)

- House heat loss = 19000 Watts (17000 if remove conservatory)

The boiler which has been suggested is the Worcester-Bosch Greenstar 30i. As far as I can tell it has 24kW CH output, and 11ish LPM flow, with a max BTU of 100,000.

If I trawl the internet I find all sorts of stuff about 3kw per radiator, or any 4 bed houses needing 42kW boilers etc. I appreciate that in the past it's been common to massively oversize boilers, but it just makes me nervous that I'm missing a trick and the boiler won't be capable. With the numbers above would the 30i suffice and are there any apparent issues? I have the numbers but don't really know how to interpret them.....

My alternative is to have the 35CDI or something, at a marginally greater cost.

Many many thanks.
 
Now we have a conventional boiler, we are changing to a system boiler and getting rid of the cold water tank.

We need various bits of pipework doing at the same time so the added complexity of a system boiler doesn't really matter.
 
The 30i you are talking about is a combi
 
I’d suggest that you allow a competent gas safe engineer come out and carry out a full heat loss Calc of your property. All the rest is finger in the wind stuff
 
so your looking at getting an unvented cylinder fitted

as combis are only really designed for one bathroom / outlet at a time

i would allow around 15kw for an unvented cylinder
 
I understand what you mean but there is a degree of engineers experience and judgement that goes into correct sizing and as you say your variation between KW has been vast. Why not get someone to size it all properly then you have comeback if it doesn’t meet your requirements.
 
15 radiators and a cylinder 30kw wont be enough a system boiler will need a additional expansion vessel , so i would advise a heat only boiler expansion vessel Robo kit and unvented cylinder the final calculations would need to be calculated after a site vist . cheers kop
 
On a slight tangent, I can't really understand how we can ever size things reliably when we are the mercy of guessing the air changes per hour. I've seen the draughty/normal/airtight way of calculating before, but it seems fruitless to have to guess.

For instance, the last time I calculated the heat loss for the ground floor of a house (including the heat losses to the first floor which is not heated to the same temperature), the ventilation heat loss for the area was a quarter of the total heat loss. ASSUMING 1ac/h, but the 1 ac/h was an estimate based on the fact that it was an old building that had been draughtsealed reasonably well. If the actual ventilation were 2 ac/h, then it would have needed 3kW heat, not 2.4kW.

Of course, sizing the whole house, the actual fabric heat losses would be less as a proportion than sizing one floor (as internal walls heat transfer do not affect the boiler load, while they do affect the load on a radiator serving one room), but ventilation losses for the whole house might have been double those for the ground floor. While, at this point, 1.2kW or 2.4kW for the air changes isn't a great difference, it does start to mean that modifying a heat loss calculation for the thickness of loft insulation installed starts to feel rather academic.
 
I think a 30 kw system boiler will be perfect , your original thought of 3kw per rad is way off as many rads you'll find might below 1kw but depends on size and single or double , I was always taught to allow 13kw for hot water but I was using a boiler calculater this morning ( The energy saving Trust heating calculator ) and it stated allow 2kw for small unvented or 3kw for big so I'm gonna have to have a wee check as unvented does use less to heat and have massively less heat loss so quite possible ,,, But back to your boiler , 30kw won't be that far off the mark I don't think , too many people oversize boilers thinking oh it will modulate down but it doesn't get maximum efficiency / cond and there in lies the problem ,
 
I think a 30 kw system boiler will be perfect , your original thought of 3kw per rad is way off as many rads you'll find might below 1kw but depends on size and single or double , I was always taught to allow 13kw for hot water but I was using a boiler calculater this morning ( The energy saving Trust heating calculator ) and it stated allow 2kw for small unvented or 3kw for big so I'm gonna have to have a wee check as unvented does use less to heat and have massively less heat loss so quite possible ,,, But back to your boiler , 30kw won't be that far off the mark I don't think , too many people oversize boilers thinking oh it will modulate down but it doesn't get maximum efficiency / cond and there in lies the problem ,

2kw / 3kw is way too small for an unvented your right in saying 13kw but some have a coil cap of around 20kw
 
I appreciate everyone's input!

However, I'm still no closer to choosing a boiler or having any idea what is suitable. Opinions range from 'it'll be perfect' to 'definitely not sufficient!'

I don't really understand the process - assuming my numbers in the opening post are correct, will the suggested boiler do the job?

Edit: I note that this link for example suggests that for a 120l unvented cylinder, the approx energy input for a complete reheat is 3kw (over 3 hours).
 
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Unless I read it wrong as like I said I've always used 13kw , especially for copper open vented but it's kw as in energy used so unvented use way less energy to heat as 15 -30 mins heat time so kw needed is way less ,
 
I would say that's for a standard copper cylinder not an unvented, As if you allow let's say 2kw

And the unvented cylinder can do a reheat time of 30 mins with 20kw, that will give you a re heat time of 5 hours from cold

So if you use all your hot water it will take 5 hours for it to be fully hot
 
So I think I'm right in saying that this would only be an issue if you have the central heating and hot water on at the same time? If I stick the water on 30 mins before the heating (so the cylinder gets the full 30kw) then I'll be laughing?
 
So I think I'm right in saying that this would only be an issue if you have the central heating and hot water on at the same time? If I stick the water on 30 mins before the heating (so the cylinder gets the full 30kw) then I'll be laughing?

Yes correct
 
If I stick the water on 30 mins before the heating (so the cylinder gets the full 30kw) then I'll be laughing?
But the cylinder may only be able to take 20kW.

A popular solution is to run the system with 'hot water priority', which means that CH is automatically turned off when the HW cylinder needs to be reheated. This is normally done using a diverter valve. (This is how a combi boiler works.)

In any case, your solution only works early in the morning. What happens in the evening when several baths/showers are required one after the other?

Assuming your 19kW heat loss is correct, a 20kW boiler will handle both CH and HW if HW priority is implemented.
 
The cylinder may take 20kW from cold, but as it begins to warm, the temperature difference drops and the heat absorbed by the cylinder coil falls significantly.
 
The cylinder may take 20kW from cold, but as it begins to warm, the temperature difference drops and the heat absorbed by the cylinder coil falls significantly.
That's why the temperature of the water flowing though the coil needs to be 10-15C higher than the temperature set on the cylinder stat.

Incidentally, heat is not absorbed by the coil but from the coil; i.e. heat travels from the coil to the water in the cylinder, not the other way round.
 
They do a system version I believe;

Greenstar i System (27kW and 30kW) | Worcester, Bosch Group



Perhaps not quite finger in the wind, it seems a fairly detailed estimate using this calculator;

Calculate heat requirements


I would recommend you get a Heating Engineer to look at it. Either to price you for the work or to give a report and Heat loss calculations.
They will probably charge for the latter but it would be worth it in my opinion.
I just took a quick look at the calculator you used and it did not give the answers I expected to see.
 
I would recommend you get a Heating Engineer to look at it. Either to price you for the work or to give a report and Heat loss calculations.
They will probably charge for the latter but it would be worth it in my opinion.
I just took a quick look at the calculator you used and it did not give the answers I expected to see.

Do my numbers look on the low side? The boiler sticks out 30kw CH against my estimation of 19kw, so I figure that even if I'm out by a huge margin then I'm still on the safe side. And when I did my calcs I was pessimistic about certain things (e.g. wall insulation - fairly sure they're all cavity insulated by chose non-insulated in the calculator).

That said, I will do as you suggest and get in the pro's......

As a matter of interest, what tool do the pros use?
 
Do my numbers look on the low side? The boiler sticks out 30kw CH against my estimation of 19kw, so I figure that even if I'm out by a huge margin then I'm still on the safe side. And when I did my calcs I was pessimistic about certain things (e.g. wall insulation - fairly sure they're all cavity insulated by chose non-insulated in the calculator).

That said, I will do as you suggest and get in the pro's....

As a matter of interest, what tool do the pros use?

Personally I use a Mear Calculator, as well as knowledge and experience.
I have looked at a few online tools/calculators but I can't trust them the same.
I would size the Boiler for whichever has the largest requirement, DHW or CH, in your case.
Others will look at that different.
 
Mears all the way unless I just need a quick advisory calc
 
Evening all,

Our boiler hasn't been doing very well recently. Just doesn't get the radiators hot at all. It was a relic of a smaller house, which was then extended. They didn't replace the boiler.

We've decided to replace the boiler and sort out some pipework, install new valves etc, but I can't settle on the boiler size required. All radiators are already installed etc, so it's a question of finding the right sized boiler to heat it all appropriately;

- 4 bed detached house
- 1 bath, 2 showers
- 2200 sq/ft
- 15 rads, 2 towel rails

We are going for a system boiler. My calculations are as follows

- Current radiator output (Watts - ΔT = 50°) = 22620 Watts (includes towel rails and two rads in a glass conservatory)

- House heat loss = 19000 Watts (17000 if remove conservatory)

The boiler which has been suggested is the Worcester-Bosch Greenstar 30i. As far as I can tell it has 24kW CH output, and 11ish LPM flow, with a max BTU of 100,000.

If I trawl the internet I find all sorts of stuff about 3kw per radiator, or any 4 bed houses needing 42kW boilers etc. I appreciate that in the past it's been common to massively oversize boilers, but it just makes me nervous that I'm missing a trick and the boiler won't be capable. With the numbers above would the 30i suffice and are there any apparent issues? I have the numbers but don't really know how to interpret them...

My alternative is to have the 35CDI or something, at a marginally greater cost.

Many many thanks.

Well done on your maths work mate. TBH you’ve done a better job than most plumbers. Speaking from experience you should be fine with Worcester 30i system boiler, or Worcester 30 CDI is Avery good boiler for a bit more money.
If you wanted full peace of mind you could upgrade to the 35kw boiler, but yo give some idea I’m maybe looking at the 35CDI to heat a block of four flats whilst providing all the hot water too. Dan :)
 
I would say that's for a standard copper cylinder not an unvented, As if you allow let's say 2kw

And the unvented cylinder can do a reheat time of 30 mins with 20kw, that will give you a re heat time of 5 hours from cold

So if you use all your hot water it will take 5 hours for it to be fully hot[/QUOTE

I know its different as electricity but Even an immersion heater say 2kw of electric power would heat the tank in short period
 
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