Do you have any idea what it currently uses energy wise?

You can work out the U-Values for the concrete walls once you find a suitable thermal conductivity value for the mix used. Google will help you out, but make sure you use SI units and not Imperial ones (the R-Value trap).

Also what is the airtightness like and the amount of solar gain? those two can greatly affect your calculations.

Posted By: cascinaI would like the ability to batch burn as infrequently as possibly, so having calulated the heat loss, would want to size a thermal store appropriately to the log boiler

The typical ratio for boiler to TS is 1:50 so a 40kW boiler gets a 2000 ltr TS but you can go bigger, say 1:75. My system is 40kW with 2000 lts TS and I find that without much load on the TS one fill of the boiler will raise the temp. of the TS from 40 top to bottom to about 85 - 90 top to bottom. When the weather is cold then I have to refill the boiler part way through a burn. I am happy with the boiler / TS ratio I have (1:50) - which is just as well as ceiling and footprint would prevent a bigger TS

It is important to get your system properly set up to maintain stratification as this maximises the use of the heat available in the TS. What I did with my TS is detailed here

http://www.greenbuildingforum.co.uk/newforum/comments.php?DiscussionID=13082&page=1#Item_8

And I am still very pleased with the results!

The general advice is to have a separate tank for DHW rather than a coil in the TS or a plate heat xchanger outside (which can really mess up stratification due to the high flow rates).

cascina, depending on the inner face of your IWI product, try low-ex foam adhesive in a gun? Fine control and you can be as creative as you like with the adhesive ribbons...

Thanks for the responses.

Steamytea,

It is impossible to know the current usage as the house has been vacant for over 10 years and connects to another house which was part heated from the same system, where the carers/farm manager lived. I presume from what Gotanewlife is saying that airtightness will be easier to manage. The only thing that will require some closer thought is the whole footprint basement. All the doors are ventilated and metal including the external doors which open up into an intercapedine (about 1 metre wide and with metal grilles to ground level. While some of this is the boiler room, we would like to use some of it as a games room, so will have to put some thought into where the insulated envelope of the house ends.

With the u-values from the net, would you then go about examining floor by floor the heat losses or is there still a way of calculating the whole heat loss of the house.

djh,

The heating system has been dead for over 10 years since the previous owners died- nothing happens fast here. The oil tank is heavily corroded and in a very poor state so I don't think it could be reinstated without considerable cost.

Peterinhungary,

Thanks for the numbers. I will peruse your thread. If you have a 40kw boiler, what is the heat loss of your home. I had it in mind, that if the heat loss was, say 25 kW, that you could install a larger boiler as you have to capture more heat from a single burn into a thermal store to enable less frequent charging and the boiler will not be running continuously, but others seem to be suggesting that it should be sized smaller and closer to the heat loss of the house if I am not misreading.

How does your boiler prioritise the DHW heating before the TS? Are there thermal diverter valves? I will have a read of your thread as it is probably covered there.

Darylp,

I have used Kingspan kooltherm in the past with dot and dab and then mechanical fixings, but will look at low-ex foam adhesive too.

Gotanewlife,

The ceiling surface is smooth with a well sealed non crumbly finish. Only part where I can see it being fun is the apex, where the render/plaster has been smoothed over to create an arc connecting one pitch to another with a neat angular join. I imagine this will be slighter trickier to detail and involve some foam.

As for utilities, the whole roof space is habitable excepting the void behind a dwarf wall which is about a metre high and runs around the perimeter and has a small hatch to get access where you could easily crawl around. This should allow access to all services. Does the MVHR only need to serve the loft space or will it be required for the bedrooms and bathrooms on the first floor. I must say, that is a whole field I haven't looked too closely into. I came across it in a lot of housing association installs and the vents were normally blocked with socks because they found it noisy! The architect across the hall told me not to finish the windows and doors in too airtight a manner to avoid ventilation and mould issues. When I mentioned MVHR he looked blankly at me and gave a shrug, telling me to make sure I didn't fill all the gaps!

You are indeed correct. There is a large wrap around balcony on the first floor to 3 bedrooms and then another portico covered terrace onto which 2 open. I presume the cold bridging is the issue here? Are there any neat solutions or is it something that we have to accept?

Oooops - of course you can also IWI the inside face of the dwarf walls and loft insulate the void behind - that moves the cold bridge somewhere acceptable (ie down stairs ceiling ) and keeps the current dwarf walls.

Also, you can fit a flat section across the apex allowing either on 125mm pipe or 2 204x60 'pipe' along for MVHR - either insulate the pipe and IWI under or (much better) IWI above and PB below - (when you get to the detail stage then you will want to understand choices of vent fitting, esp whether level with ceiling or extended a little as a compromise). Easier than try to shape IWI to the funny curve as well!

Generally, I get max 2 weeks below -5, snow once a year for max week, and +35 for up to a month. What about you. What was your max internal air temp last summer? - big diff from middle to top floor?

What is the mass of a 'load'

Gotanewlife

Thanks for the comprehensive reply. The house is currently officially 2 dwellings of 16 and 10 rooms respectively. The other houses have had their use changed to C2? from memory which has the effect of significantly reducing the rendita catastale (I think that was the impact).

It currently has 3 open fires, which I am getting abuse for not wanting to leave from every Italian who sees it. We will be removing one as it is what will become our master bedroom and replacing the largest in the living room with a wood burning stove. I think you may be right that a pellet boiler is the best option given the additional hassle of me not being around with work. I do love redundancy in a system.

I completely get what you say about the dwarf walls. I hadn't realised the impact of the cold bridging detail. Our builder suggested 25mm but when i smiled and told him he'd have to humour me with 100mm plus, he patted me on the back while laughing and said he'd fit whatever I wanted. I think he thinks my plans for insulation are a bit peculiar but is happy to work with it. The idea for the MVHR is great running in the apex. That as a subject alone is something I need to get my head into and study having had no exposure to it at all.

We have cold winters at below zero for a month or two, but snow for only a couple or few weeks. It was where my wife grew up but we are currently living an hour away on the coast. All parties (an inherited property with disagreement between the parties, so it's taken months) have signed the offerta and registered the contract. We are just waiting on the valuation for the bank which is being held up by the repartitioning of the vineyards from the house. I'm trying to get ahead of the game with planning building works. The geometra for the lands is the agent's brother and is pushing things along fast. We have the atto provisionally set for the end of July and our builder has had a quiet couple of months so is keen to start work at the beginning of August because of this.

Who makes your tank in tank TS? Why would you go bigger if possible? There is an old DHW cylinder which is in a poor way with corrosion and leaks and needs replacing, but has a flow and return for solar which they had in the 70s/80s up into the void space behind the dwarf walls in the loft. It is in the front of the house (southern perspective) whereas the caldaia is at the rear (with steps down from the rear of the property) meaning potentially long runs for the flow and return from the solar panels.

Peter_in_Hungary

Thanks for the info. I guess a lot of it is approximations and then as you move forward, tweaks to try and optimise the system.

So much to take in.

Did I mention that we want to be in there for Xmas? We've only got 23 coming over this year....