It's interesting how projects change as they evolve
We have had to ditch our idea of home brewed low-grade storage tanks & move to a commercial accumulator, a more conventional approach, but almost certainly more reliable.
Original post here: I'd better give everyone a little more information before asking for your input & opinions:
The house is constructed from a reinforced concrete skeleton with infill cavity block walls, these may also be insulated & the whole structure will have a 50mm exterior surface insulation. The building has a very large thermal mass & the projected U-value is 0.35 - 0.40, not well insulated in comparison to northern Europe, but suitable for the climate of Crete.
Climate info at the bottom of the page on this link The heated floor area of the house will be approx 130 - 150m². The system is to be wet heated low temperature water @ 40°C, the store temperature can be above this & circulated heating water can be fed to the heating circuits via a thermal mixing valve. The construction is plastic pipe in 100mm cast concrete slab above 50mm insulation. This mass should stabilise internal temperatures.
Current Solar water heating specification is for 3 x 30 tube 47mm ET collectors facing south & connected in series, feeding into a 320 litre thermal store for domestic hot water with a AKVANTTI 1400 litre accumulator in parallel. Both these tanks are going in the basement. The DHW tank gets first call on solar output & when up to temperature the excess goes into the accumulator for use by the under floor heating. This should be easy enough with a motorised 2-position valve on the solar return pipe.
There is a wood burning stove specified with a boiler for supplemental heat supply (8 kw/hour max) to top up in case of solar deficit & in colder weather conditions. Both DHW heat stores & accumulator will be heated from this sources via a separate circuit of pipe work pump & indirect coils. Again DHW gets first call on resources.
I've had a chat with Mike at Navitron & he has pointed out a potential problem.
If you have space then having two cylinders sounds like a sensible idea. One thing to bare in mind is that if you are running a wood burner into this cylinder it will need to be vented and I would imagine the standard in Crete would be to have unvented cylinders. This has caused problems for our customers in the past so it would be worth double checking that the underfloor heating system is compatible with a vented tank.
I know there are a few people that post on this Forum who have taken a similar approach with AKVANTTI Accumulator Tanks in other EU countries. I'm very intersted in your input here.
OK... Question time.
I suspect my UFH is designed for an unvented system & with both tanks in the basement & a flat roof with no roof void, installing a header tank up their would be quite a pain. I'm just wondering if I could turn the AKVANTTI Accumulator Tank into an indirect heat store by using a mains pressure DHW coil for the UFH. The peak demand from the majority of the UFH is quite low as it is designed to be low temperature & high thermal mass designed to maintain a steady temperature?
If the DHW coil is not up to the Job, is there another indirect system using an external heat exchanger that would be suitable?
Any free software out there so I can get a schismatic together so this post makes more sense? (I have to get this system approved so the property can be signed off & I will need a local installer to do this, even if I do the work myself)
Please ask me questions & give me your opinion's...
Steve...
