HughF Posted 19 hours ago Posted 19 hours ago OSO (Vaillant) slimline for me, it was £500 on eBay 😂 1m2 coil, 9kW pump - reheat times are perfectly acceptable and the coil can take all the heat pump can throw at it.
SteamyTea Posted 18 hours ago Posted 18 hours ago 13 minutes ago, HughF said: reheat times are perfectly acceptable and the coil can take all the heat pump can throw at it. That may be more to do with the temperature differences, heating is not linear, it starts with rapid energy transfer, then the rate if transfer reduces as the stored water temperature rises.
HughF Posted 18 hours ago Posted 18 hours ago Just now, SteamyTea said: That may be more to do with the temperature differences, heating is not linear, it starts with rapid energy transfer, then the rate if transfer reduces as the stored water temperature rises. Coil is right at the bottom, I’ve yet to see it ramp either the pump or the compressor down during a dhw charge.
SteamyTea Posted 18 hours ago Posted 18 hours ago 3 minutes ago, HughF said: Coil is right at the bottom Generally the best place for them. It would be an interesting project looking at reheat time with different deltaTs, and how it affects the CoP of the systems.
MikeSharp01 Posted 18 hours ago Posted 18 hours ago 2 minutes ago, SteamyTea said: It would be an interesting project looking at reheat time with different deltaTs, and how it affects the CoP of the systems. Someone like @JohnMo must have done that somewhere on here?
JohnMo Posted 18 hours ago Posted 18 hours ago 27 minutes ago, MikeSharp01 said: Someone like @JohnMo must have done that somewhere on here? Heat geek have and have a video out there somewhere. To get best CoP you need the biggest coil you can get in the cylinder. Then your flow rate through coil has to be slow, the idea is the return temperature needs to be as close to the bottom of the cylinder temperature as possible. You then prolong the heat pump increasing flow temperature for as long as possible. Heating time extends but so does CoP. Talking high 4s early 5s for DHW CoP. My ASHP is factory set for DHW and there are no settings to change. So cannot replicate the above.
SteamyTea Posted 17 hours ago Posted 17 hours ago 54 minutes ago, MikeSharp01 said: Someone like @JohnMo must have done that somewhere on here? In electrical engineering, to get maximum power transfer, you use Jacobi's Law. To muddy the waters, there is also maximum power efficiency. PV inverts have MPPT built in, I wonder how difficult, or even if worthwhile, to have a similar system in HP. There are a lot more variables, OAT, IAT, WT, run times, input costs etc, but it would be a good add on to basic weather compensation.
sharpener Posted 6 hours ago Posted 6 hours ago 11 hours ago, MikeSharp01 said: Someone like @JohnMo must have done that somewhere on here? @JamesPa has a spreadsheet which I used to good effect when I was doing my system design. But it was a bit optimistic, never managed to quite work out why.
Marvin Posted 3 hours ago Posted 3 hours ago One of the best savings is achieved by insulating the hot water tank within an inch of its life not just the 2 inches of foam around it.
Nickfromwales Posted 2 hours ago Posted 2 hours ago 1 hour ago, Marvin said: One of the best savings is achieved by insulating the hot water tank within an inch of its life not just the 2 inches of foam around it. Most modern UVC's have very low standing losses, and we are advocates here of a bit of oversizing so the stored temp can be around 50-550C, further reducing losses. Good advice if it's a thermal store for DHW though.
Recommended Posts
Create an account or sign in to comment
You need to be a member in order to leave a comment
Create an account
Sign up for a new account in our community. It's easy!
Register a new accountSign in
Already have an account? Sign in here.
Sign In Now