they would have been tested for operation
this is a wild assumption, boilers are tested in germany holland and italy for the way they are designed to be used there, that is with modulating controls.
You misunderstood what I was saying. I was talking about component testing. Honeywell, Dungs etc etc will have tested their gas valves, diverters etc to destruction before they released them to the OEM market to incorporate in their boilers. The OEM assemblers wouldn't consider buying them unless they knew what the expected life was. There will be some which fail early, but that's inevitable when quality control is based on statistical criteria. It's the Friday Afternoon syndrome.
A true story, which I heard years ago.
A British company ordered some components from a Japanese supplier. The specification was very detailed and included the phrase "the batch must contain no more that 2% failures", meaning no more than 2% can be outside the tolerance set.
The consignment arrived from Japan and inside the container was a separate box. Inside that was a number of the component with a small note which said: "These are the 2% failures you requested".
The only way, apart from changing all the rads, to allow for these variations is to have TRVs on all the rads.
well too a point.. what an efficient boiler needs is open passage to as many radiators as possible to ensure heat is dissipated. If it were a mild winters day the flow temperature is much lower.
But you are assuming that all rads are equally oversized; that's not correct in my case. The smallest bedroom has a 1200W radiator, but only needs 300W - four times the size required; the dining room has a 1200W but needs 1000. You cannot reduce the flow temperature so all rads get the correct amount; some will still be dishing out more heat than is necessary. The only way to resolve this is either change the rad or install a TRV.
I agree about the open passage. In general, I can't see any point in having a zone valve on a heating circuit if you have any sort of compensation. OK if you have two heating zones you might need them and also if you have stored HW you would need a zone valve on the HW circuit. A number of manufacturers now suggest using a diverter (not mid position) valve the "wrong way round". So the normally open (B port) is used for the heating circuit and the normally closed (A port) is used for the HW side. When HW is called for the valve closes the CH side and opens the HW side and the boiler automatically ramps up to full output. Come to think of it, I can't see why this arrangement could not be used on a non-modulating boiler if you have a thermostat with TPI control, e.g Honeywell CM series.
Experience suggest overheating as mentioned here isnt a problem, at least the boiler is not working to a high set point with a reduced flow causing all sorts of other problems...
Are you talking about heat gains form TVs etc?
and even in the car world there is a difference in motorway miles and city/town miles. I rather have a car that as been driven at a steady rate on the motorway for 100,000 mile then some town/city car that has had 100,000 mile of stop start driven...
