Heating options during refurb

Hi all, OK so new member here.... I've done a fair bit of reading but am starting from quite a low base knowledge wise, and would hugely appreciate any advice on the following!

We currently live in a reasonably large detached 1920s house in Norfolk. Mix of solid and cavity walls. Good loft insulation. Double glazing. EPC grade C. Suspended floors which I plan to insulate at some point, and we’re looking at options for the walls also. Some of it is much newer construction so obviously much better insulated.

Heating use currently is about 15000kWh/year currently provided by a 40kW Baxi Gas Combi boiler. Probably installed around 2011/2012. But unfortunately located in one of our upstairs bedrooms (lazy previous owner, builder who had clearly bought it and done things to a 'standard'... a low one...).

No underfloor heating but rads are generally reasonably sized (and we are changing a few as we go anyway) and I ran the boiler at 50c flow temp over last winter and kept us warm enough. We are 18c people rather than 25c people, if that makes sense.

We have a 4kW Solar PV array also.

I have only ever lived in houses with combi boilers so have no experience of tanks or system boilers. Nor, indeed of ASHPs.... which is the reason I'm here!

We are planning to do some reconfiguration work upstairs (resizing a bathroom, putting up some partition walls, etc) and at the same time I would like to get rid of the combi boiler in the bedroom and place it somewhere more sensible - possibly the loft?

Except, of course, options seem much more complicated, as we'd also like to become a bit more green in the process!

I came across the Daikin Hybrid Heat Pump system which includes both a gas boiler and 8kW ASHP and this seems a reasonable system. I reckon I could get the gas boiler in the loft and we’ve got a few potential sites for an ASHP which I don’t think would be too problematic for the neighbours. There's an Ebay seller who is putting these packages out at less than £4k which doesn't sound bad. The presence of the boiler gives perhaps a bit of comfort if things get really nippy outside and of course means no tank. Anybody used this set up? And are Daikin the only people making this pair in this way? Is Daikin a reputable company? Are these easy enough to get fitted?

Of course we could also put in a tank somewhere and then presumably get an ASHP to run both DHW (??) and heating, and get rid of a fossil burner completely.

Or I could get a hot water tank, some kind of system boiler (is that right?), and an ASHP as some kind of bivalent (?) system.

Please be gentle if I’m using a vocabulary that stretches beyond my knowledge – I guess I really just don’t appreciate the various benefits of the different setups, and, before I go asking for quotes I really want to know what I’m asking for rather than to end up with the installer’s personal preference.

So I guess my main question is, if you were in my shoes, what would you do, and why? I know experience is a great teacher and I suspect people on this forum are a lot further down that road than me...

Primary considerations include:
* Installation cost
* Operational effectiveness and efficiency for heating
* Longevity and need to service
* Simplicity
* Actual ‘green’ impact

Thank you so much!

First the best approach is to reduce the heating load as much as you can first and I like your idea of 18c as this does a massive amount for you. Next is air sealing, draughtbusting followed by adding insulation. I like to choose a Target U-value And work towards that.

If you can face it do the floor insulation this time round, absolutely essential with UFH. EWI is better than IWI and increase ceiling insulation to the maximum.

As I don’t have a formal heating system I am not the best person to advise on your proposed set up and am sure that others will jump in.

I have high hopes for you not needing a heating system 🙂

Ask me about that route if you wish - spend on insulation - no more heating bills

As others have said, concentrate first on the building fabric. Decide how much insulation you want (i.e U-value) and how airtight you'll try to make it and only after that can you plan a heating system and also ventilation (which will be vital if you do much in the way of draught reduction, which is itself a very good thing to do).

Personally I like hot water stores - thermal stores in particular - because it can be heated using the solar panels most of the year. But I do recognize they have higher standing losses that an instantaneous system like a combi.

Start with the loft. Where is your insulation - along the rafters or along the ceiling joists? If the latter then don't even think about putting a boiler up there. In either case make sure there's at least 300 mm and preferably 100 or 200 mm more. Make sure that there's an airtightness layer wherever the insulation layer is.

Posted By: philedgePersonally, Id want any boiler/tank/pump etc on the ground floor in the centre of the house so the heat losses are all used to warm the house.

Except in summer, when you don't want it to warm your house :)

Insulate it / them well, whether inside or outside the heated envelope.

In your shoes I would...

- insulate as much as you possibly can, and spend the say £8k on that rather than an ASHP. The floor insulation on the suspended floor is a must, irrespective of how you heat. My clients visibly wilt when I tell them that they are effectively living in a shed, thermally, if you consider the floor boards have no insulation under them, and so are essentially like a shed wall. Plus, your feet tend to be very good temperature sensors, and will give you a sense of discomfort, even if the room air temp is warm.

- insulating walls and improving airtightness is an area that needs more thought, especially with solid walls

- keep the existing gas boiler. It's likely over 90% efficient, as only 8/9 years old, and you should get another 10 years out of it (scrapping and buying new kit has a carbon footprint too)

- locate it somewhere else in the house if you wish, but preferably not in the loft, not least of which because maintenance will be more tricky, and less likely to get done.

- keep plumbing set-up as-is, with combi feeding DHW & CH. Rads should have their own temp valves, so you'll only heat the rooms that the valve permit. Presumably there is an existing wall thermostat, which gives the permissive signal for the CH to run

- get the existing CH system cleaned out, and as you mention oversize any new rads. I always do a room by room heat loss calc, to be sure I know what over-sizing actually means.

- in the future, you can hook up an ASHP to the CH system, and continue with the gas combi for DHW if you wish, or replace the gas combi with a DHW cylinder, into which the ASHP can add heat, plus the solar PV can feed into it. Consider the route for future ASHP insulated feed pipes, and allow for those routings now (ducts in/under floor, or through a wall, whatever, to get you to the desired location in the house).

- The solar PV shouln't really have any bearing on our choice of heating, as it will be generating very little excess energy in the heating seasons, almost all output from April to Oct.

Posted By: djhAs others have said, concentrate first on the building fabric. Decide how much insulation you want (i.e U-value) and how airtight you'll try to make it and only after that can you plan a heating system and also ventilation (which will be vital if you do much in the way of draught reduction, which is itself a very good thing to do).

Personally I like hot water stores - thermal stores in particular - because it can be heated using the solar panels most of the year. But I do recognize they have higher standing losses that an instantaneous system like a combi.

Start with the loft. Where is your insulation - along the rafters or along the ceiling joists? If the latter then don't even think about putting a boiler up there. In either case make sure there's at least 300 mm and preferably 100 or 200 mm more. Make sure that there's an airtightness layer wherever the insulation layer is.

Thanks for this - the loft insulation is I think done to 300mm. Some bits have been a bit dodgy though. Some bits were loosely boarded over with insulation chucked on top. In places I've begun to remove the boards, creating a raised platform for storage with Celotex both between the rafters then above as well... slightly stalled however when I found a bundle of lighting cables which seem to be hung together with gaffer tape, so wanted to get that sorted first (by a sparky I hasten to add) before going further.

The biggest (?) problem we have are some sloping ceilings that cut up into the loft space - about 2ft diagnoally. Above which a void then tiles. I guess you might as well leave a window open...
Plan was to try and insulate those bits from the inside, I reckon I could get at least 50mm insluation backed plasterboard or similar along there, and leave the middle empty or relatively empty to maintain ventilation... but again, all advice welcomed.....

Posted By: tonyFirst the best approach is to reduce the heating load as much as you can first and I like your idea of 18c as this does a massive amount for you. Next is air sealing, draughtbusting followed by adding insulation. I like to choose a Target U-value And work towards that.

If you can face it do the floor insulation this time round, absolutely essential with UFH. EWI is better than IWI and increase ceiling insulation to the maximum.

As I don’t have a formal heating system I am not the best person to advise on your proposed set up and am sure that others will jump in.

I have high hopes for you not needing a heating system 🙂

Ask me about that route if you wish - spend on insulation - no more heating bills

The only issue with the 18'c philosophy is when you turn up at work and I find I'm shedding layers when I get into the office!!

I have to say I have (seriously) never heard about somebody in a modern house not having a heating system.

You said 'ask me about that'... which sounds like an open invitation, so please tell!! Does this involve a heat recovery system as well? (again a term I know only through reading, not from experience). How key is that in the grand scheme of things?

Draughts, air tightness and the like see https://readinguk.org/draughtbusters/

My house http://tonyshouse.readinguk.org/

Have a read pick any good bits that you like

Posted By: NRDiggerthe loft insulation is I think done to 300mm. Some bits have been a bit dodgy though. Some bits were loosely boarded over with insulation chucked on top.

Hmm - attention to detail as mentioned above.

Posted By: NRDiggerslightly stalled however when I found a bundle of lighting cables which seem to be hung together with gaffer tape, so wanted to get that sorted first (by a sparky I hasten to add) before going further.

If they are all lighting cables and you are using LED lighting fittings there will be no problems with insulating around and over these cables, providing the cables are in good nick. LED lights use so little power that there is no chance of over heating by wrapping the cables in insulation. Undo the gaffer tape to spread the wires out and change the circuit breaker to one that is 50% of the existing, (down rating the may current available to the cables) this should still provide any amount of light needed given the lower power needed for LED lights and will give a safety margin for the insulation wrapped cables

Posted By: NRDiggerThe biggest (?) problem we have are some sloping ceilings that cut up into the loft space - about 2ft diagnoally. Above which a void then tiles. I guess you might as well leave a window open...

Skeiling ceilings - One of the reasons it is difficult to retrofit a house to negate the need for a heating system. A real pain to insulate.

One issue with insulating inclined/skielings/coombes, is it normally has to be done from inside, which equates to mess/redecoration. Assuming you can live with that, a few options, you might consider...

- strip off the existing plasterboard
- fix battens to the sides of the rafters, immed under the felt, to ensure a 50mm ventilation cavity is left after insulation is installed between the rafters (you might consider reducing that 50mm cavity as the coombe is only 2ft, but that's a judgment call).
- fit insulation between and under the rafters. Lots of options for that, but here are a few with Uvalue numbers, assuming the rafters are 50x150mm...

1. PUR/PIR 100mm between and 50mm PUR/PIR underdraw - 0.147 W/mk

2. Knauf Frametherm32 wool 100mm between and 50mm FT32 underdraw between perp battens - 0.205 W/mk

3. Knauf Frametherm32 wool 100mm between and 50mm PUR/PIR underdraw - 0.175 W/mk

Getting continuity of insulation on either side of the coombe (above to below) is vital, but I'm sure we can all give you chapter and verse on how to achieve that once you've decided on insulation materials.

In terms of being breathable/vapour open, the wool above is extremely vapour open. The PUR/PIR with foil faces is extremely vapour closed. This is such a small area, and with a ventilated cavity at the rear, so I personally would not concern myself with that aspect. Save that conundrum for your solid walls.

Posted By: NRDiggerDoes a MVHR help with the 'breathable' problem? Presumably less damp air floating around inside the house is also better for the walls?

To some extent it helps, as you say. But it's better to solve the problem properly, either by making the whole construction 'breathing' or by making sure any vapour-impermeable layers are always warm enough to be above the dewpoint temperature (e.g. EWI outside the cement render could achieve that).

And - retrofitting an MVHR to an old house? - laughable or do-able? (or worthwhile??).

It's doable but might be quite a bit of work. It depends on the exact plan of the house and on which MVHR you install. Most MVHR systems require ducts from the unit to each terminal in the rooms and that's what can be difficult to do. There are a few that operate with one or more freestanding units though they have other requirements.

I'm just reading your post and reacting, so it may not be of much help.

EWI vs IWI, I'm not your man. Personally I'd always go for EWI, but I ran away from even that and built new instead. With IWI you need to be especially careful about condensation issues is about the most I can say.

edit: Vilnis Vesma seems to be one of the good guys who knows his stuff, so I'd expect his calculator to be sensible.

Boilers I don't know very much about.

MVHR, I'd definitely recommend if you can find a way to fit one. Every house should have one.

Good plan, we did IWi which transformed the comfort of the house, and ASHP which transformed the carbon footprint.

Retrofitting MHRV, I am going for several small MHRV units dotted round the house, each supplying one room and extracting from the adjacent room. Rather than one central MHRV unit with ducts and manifolds, we don't have good routes for those.

Thanks all, would be very interested to hear more about the option for several small MHVR units as opposed to a whole system... And as with the other Peter (who I guess is in Hungary) an idea of costings?

Mike, thanks so much for the IWI links. I will digest!

I'd be very cautious about usisng multiple MVHR units.

On a central unit you have a single pair of holes to the outside, both on the same elevation, so variations in external wind pressure don't affect the system; if you have multiple holes in multiple walls / ceilings, I suspect that the ventilation rate might rise significantly as the wind causes cross-flow through the house.

Not sure what size holes you need to drill for the VAHR100r, but I'd guess that the total cross-sectional for all the units might be higher than for a central unit, so greater heat loss.

You'd also have multiple fans running all the time instead on one, multiple filters to change, probably no proper summer bypass, probably less effective suppression of external noise (they won't each come with a 1m long silencer), and maybe some other things I've not thought of...

In short, better than no MVHR, but less efficient and effective as a central system.