Post
by ericmark »
Fri Jan 08, 2021 11:29 pm
I have asked the same question, in the end boiler started to leak so no option, however so much has changed can't really say how much cheaper to run.
The old system only monitors output water temperature, so you can set radiators with only 5°C drop across the radiator, but the new system needs the return water under a set temperature so around 20°C drop across the radiator, also output temperature may be lower, so the radiators can't put as much heat into the room.
In the main we have all had new windows, cavity wall insulation etc, so don't need as much heat from the radiators.
My on/off boiler has an output of around 18 kW but a combi boiler is more around 28 kW in the main so you can fill bath in reasonable time, but for the boiler to gain the latent heat, it needs to turn down, and the amount they can turn down varies a lot. Some can drop as low as 6 kW others can only drop to 12 kW, once the boiler reaches the minimum output it starts to cycle on/off just like the old boiler.
While the boiler output is between limits the control is handed over the the thermostatic radiator valve (TRV) and they gradually open and close, and once so many have closed the by-pass valve opens. So you get the radiators gradually heating and cooling rather than on/off, this in turn means very little hysteresis (over shoot) however the job of the wall thermostat completely changes.
Using a non electronic TRV head it can't send a signal to the boiler to tell it to start, so you need a wall thermostat in a room normally kept cool, on ground floor, with no alternative heating, and no outside door, and the lock shield valve is set so this is last room to reach temperature, if it ever reaches temperature until warm weather arrives, so it will switch off boiler. The room rarely exists, so some compromise is called for.
The problem is the boiler will still warm up the home even if not set correctly, so the user is often unaware when not set up to use the latent heat, even some proprietary controls can fail to use boiler to its full potential.
Mothers house I found a wall thermostat designed to stop hysteresis in an old boiler or oil boiler, it did this by switching off/on as it approached the target temperature to stop it over shooting, but each time it turned off boiler, it switches back on at maximum output, so all the cleaver stuff in the boiler designed to modulate the output was to no avail as wrong thermostat fitted.
Some boilers allow the use of third party controls direct to the ebus, normally OpenTherm so the boiler can have some very clever controls, others do not allow third party controls, so often whole home controlled by one wall thermostat.
In my old open plan house one thermostat would work, but most houses have doors on the rooms.
So what I am saying old boiler may be 80% efficient and new boiler 95% efficient but unless installed and controlled well, once installed both boiler could end up with same gas usage.
My annual oil bill as around £350, and the oil boiler would cost around £4000 and will last around 20 years (oil lasts longer) so to pay for a change the new boiler will need to used £200 worth less fuel, it is quite clear it can never save that much.
So gas boiler unlikely to last more than 15 years, so work on 15 years, although seen some only last 7 years, so cost say £2000, so it needs to save £130 per year to break even. With interest on the money spend it will be more. So really your looking at a £200 saving to be worth while.
My son proudly tells me my old gas fired central heated house fuel bill has dropped more than £200, however new front and rear doors fitted which seal better, and house heated to 18°C where we heated it to 20°C and now not heated mid day and it was heated mid day when we lived there, so not a true comparison.
