Mysteries of heating water in England...

My family and I just moved into a new home. Our old home had a 'combi boiler' that was similar to living in the US. We turned the thermostat up, it got warmer. We wanted hot water, it provided...

We now live with a boiler (in the kitchen) that has a hot water cistern in the airing cupboard. I believe this is a system boiler. If anyone has answers to these basic questions, please advise!

1) There is a thermostat on the wall, on the cistern, and on the boiler itself. Should the thermostat on the cistern be lower than the thermostat on the boiler itself (not really a thermostat but a scale of 1-6)?

2) The boiler has a switch that can be set to "off", "hot water" and "hot water and heating". We can also set the boiler to "constant", "two times a day", "one time a day" and then set when we want the boiler to come on during the day (e.g., 6-7 AM and 5-6 PM) with the mechanical timer.

3) When we put on the "hot water" switch and it is at 5:05 PM when the boiler is supposed to be heating hot water, why do all the pipes and radiators also feel hot? Does the hot water run through the pipes to reach the cistern?

4) What happens when the hot water in the cistern runs out? If it is 10 AM and we have run out of hot water, do we just have to wait it out or do have to turn it on "constant" and wait a bit until we have some more hot water?

5) Any tips on saving energy/money with these types of boilers?

Thanks!

I think about this all the time. Bear in mind that each radiator usually has a little knob on it which can be adjusted to certain vague levels. You end up with a great number of permutations and combinations. I sometimes end up cracking windows for a few moments as well as radiators stay hot for a while after you turn them off - so you can "overshoot" if you aren't careful.

I don't have a system down yet but several working models which I switch around taking in other factors like whether I am drying clothes on the radiators.

I did once experience a faulty Y valve, the junction where the hot water from the boiler splits and goes to the cistern or to the radiators or to both - depending on the setting. Running the hot water would heat up the radiators no matter what. I sorted that out with a shoe string I could tie to the valve and pull it over into 'just hot water for the cistern' and dog it off on a screw I put in the nearby wall.

I have never figured out the timer but I am always up an hour before anyone else and just run about turning knobs and dials to get to where I want it.

Yes, it sounds like your system needs attention. We have the same sort of system, have only the hot water set to come on twice a day, and the radiators and pipes do not get hot at those times.

The valve which controls the flow from the boiler to the cistern or the radiator is I think called the '3 port valve'. If you follow the hot water pipe coming out of the boiler you will see it. It looks something like this:



See that little switch on the left side? That is used as a manual override. To test that this thing is malfunctioning you can turn on the hot water and feel the pipes coming out. If both the out lines are heating up then this valve is faulty or sticky. You can manually pull that switch over to the hot water cistern setting and you will actually feel the valve engage and then it will continue to run correctly.

Perhaps after a couple of times it will free up - or in my case I just kept doing that and resorted to the string method.

4) What happens when the hot water in the cistern runs out? If it is 10 AM and we have run out of hot water, do we just have to wait it out or do have to turn it on "constant" and wait a bit until we have some more hot water?

We have ours set on a twice-a-day timer. It comes on for an hour at 6:30am and then again for an hour at 3:30pm. It's plenty for both of us to shower in the morning, and usually enough to see me through lunch and doing any post-lunch washing up.

Then the afternoon water heating sees me through any supper prep or after supper washing up needed. Sometimes I have to leave lunch things to wash up later in the day if the hot has run out earlier.

It's actually a very efficient way of doing things. In the US, my system meant that my water was being heated 24 hours a day. What on earth for?!?! Who needs hot water 24 hours a day??

There are those rare occasions when we run out of hot water, and that usually happens in the morning. Our boiler has a little '1 hour' button and I just press that once. It's generally hot after 30 minutes, though.

It just means you have to think a bit about what you're doing and when you're doing it. But it's far better for the environment than having something running constantly.

My family and I just moved into a new home. Our old home had a 'combi boiler' that was similar to living in the US. We turned the thermostat up, it got warmer. We wanted hot water, it provided...

We now live with a boiler (in the kitchen) that has a hot water cistern in the airing cupboard. I believe this is a system boiler. If anyone has answers to these basic questions, please advise!

1) There is a thermostat on the wall, on the cistern, and on the boiler itself. Should the thermostat on the cistern be lower than the thermostat on the boiler itself (not really a thermostat but a scale of 1-6)?

2) The boiler has a switch that can be set to "off", "hot water" and "hot water and heating". We can also set the boiler to "constant", "two times a day", "one time a day" and then set when we want the boiler to come on during the day (e.g., 6-7 AM and 5-6 PM) with the mechanical timer.

3) When we put on the "hot water" switch and it is at 5:05 PM when the boiler is supposed to be heating hot water, why do all the pipes and radiators also feel hot? Does the hot water run through the pipes to reach the cistern?

4) What happens when the hot water in the cistern runs out? If it is 10 AM and we have run out of hot water, do we just have to wait it out or do have to turn it on "constant" and wait a bit until we have some more hot water?

5) Any tips on saving energy/money with these types of boilers?

Thanks!

1) Thermostat on the hot water cylinder should be set to 60 deg C, there isn't really a nominal number for the dial on the boiler - I've dialled mine down until the hot water stops reaching full temperature. That gives the best gas consumption (radiators and hence flue gas will be cooler), but takes a bit of experimenting. The 60 deg C is a regulatory requirement for legionella protection, although so far as I'm aware there has never been a case of legionella infection from domestic hot water.
3) Shouldn't, but it isn't uncommon for the valves to pass water through, or indeed the hot water to circulate backwards through the radiators. In practice there isn't much you can do about this. Best way to check which is going on is to feel the feed and return pipes on the radiators and see if the hottest one is the same when you're doing hot water and when you're doing heating. Either way, thermostatic radiator valves will probably help. That's assuming an S-plan system. Others have already mentioned what to do if it's a Y-plan system.
4) Either works. More modern heating controls (not hard to fit if you're a confident DIYer) will typically also have a "boost" button which turns either hot water or heating on for an extra hour.
5) i) Insulate the hot water cylinder. If the airing cupboard is detectably warmer than the rest of the house, you'll benefit by stuffing some more insulation around it or fitting an insulating jacket.
ii) Thermostatic radiator valves will probably help, they're pretty cheap to buy but I think you've got to drain and refill the heating system to fit them. I like ours a lot, as they keep all the rooms at the right temperature easily.
iii) Turn down the 1-6 dial on the front of the boiler a notch at a time over a few days until you notice the hot water isn't hot enough, then turn it back up a notch. Condensing boilers (basically any boiler under about 10 years old) stop condensing when the water temperature gets above about 60 deg C, so there are some fairly big efficiency gains by turning the water temperature down.
iv) Insulate insulate insulate - the biggest savings will always be from reducing heat losses and hence heating demand. Hot water is typically 10-20% of an annual gas bill.

Thanks everyone! All of your comments are hugely helpful in understanding this system.

PDF I like your planning and will incorporate it into my scheme.