Immersion Heater - PV electricity

[dennis2011]

I have read the whole of this thread and found it fascinating. I am not an electrician but have a scientific background. It occurs to me that with a maximum saving of only around 50p per day, during the summer months, the level of sophistication you need with any system depends not only your HW usage but also what kind of installation is possible at an economic price.
We have a recently installed 3.92 kW SE facing PV system, with a newly acquired ‘freebie’ display unit. (Referral gift). There are only two of us in the house most of the time. We are retired and are at home quite a lot especially in the winter. Our ‘background’ power usage is around 300w. We probably use more than half of the electricity we generate during the winter. We heat hot water using gas CH boiler linked to a DPS Pandora Heatbank system which gives mains pressure HW to all taps and showers.
We have no immersion heater whatsoever. There is not even a power point in the airing cupboard; neither are there any spare ‘ways’ on the consumer unit. Changing this for a larger one would be quite expensive. However looking on the bright side, when I ordered my thermal store a few years ago I had the cost of a standard immersion heater deducted of the bill and they fitted a blanking plug instead. The tank is 150 litres in capacity and does have an immersion heater point half way up the tank – so a short 280mm heater, like the ones from the SureJust range, (probably go for 1000w), could be fitted horizontally and heat half the tank at least. I have checked with DPS and they see no problem – so just drain, fit heater, refill, add inhibitor and plumbing side of job done.
I have checked for a suitable method of getting power to the airing cupboard and the utility room below has power sockets on a 32A short ring main serving just the utility, dining room and one bedroom – so I propose to take a spur from one of the sockets then to a switched FCU and then up the wall, through the ceiling and up through one of the floorboards into the airing cupboard finishing with a twin 13amp socket on the inside of airing cupboard wall.
I need some advice please as to what I put in between the FCU in the utility and the twin socket in the airing cupboard.I am thinking along the following lines –
from the FCU go to a socket box mounted timeswitch, like Grasslin 24 hr, then next up to something like Legrand 20A dual bath/sink immersion switch. This could both isolate the immersion heater (irrespective of timeswitch setting), and also divert the electricity supply direct to the immersion heater, 1000w, in the ‘bath’ position or alternatively to the next box up on my wall container a ‘power halver’ which would operate at 500w, in the ‘sink’ position. I am still waiting to hear back from Abeltronics but my wife is hoping for the sake of appearance/neatness that I can put the ‘power halver’ in something like a galvanised cooker back box, 47mm deep, mounted vertically and covered with a standard brushed steel blanking plate. (Drilling ventilation holes top and bottom if needed)
My way of operating this proposed ‘system’ could only generously be described at ‘semi-automatic’. I would set the time clock to come on say 1 hour after dawn and go off say 3 hours before sunset. The system would start each day on 500w and when the inverter was producing over 1500w then manually switch the heater to 1000W. If it became cloudy then manually back down to 500w. If we went out for the day unless certain to be cloud free would leave on 500w.
You might be wondering why the twin socket in the airing cupboard and not simply a wired in connection. Am I correct in thinking that immersion heaters 2000w or less can be fitted with a 3 pin plug and run from a plug socket? I may use the other plug socket for circulation of water in the tank so that the immersion heater could possibly heat the whole tank.
Due to several bad admin errors when I ordered my DPS system I had fitted on the input side of my heatstore cylinder a ‘quick recovery system’ instead of the more usual indirect coil. As compensation I was not charged extra for this. It is basically another plate exchanger on the input side operated by a Wylo pump. DPS say they see no reason why I couldn’t utilise this pump, if needed, to circulate the HW heated electrically. Whether I need to this I don’t know yet as I could run the top part of the tank at 85 C if needed and it would still come out at 50 C through the mixing valve and this might give us enough hot water.
So what do you think of my system? The inputs of Mr Robinson and Mr Heath are quite evident! but I am somewhat ‘snookered’ in that I can’t easily install a fully automatic system, at least I can’t at an economic price.
What I like about my design is –
I will have for first time an emergency use immersion heater

Total installation cost is quite cheap
I can control it from down stairs without having to use my savings towards buying a new stair carpet!
What I don’t like about my system is –
Too many sockets/boxes on the wall
Need to change time clock at least every month to allow for different day lengths.
Danger of leaving set at end of day in 1000w position so starts next day at 1000w! Could really do with a warning light when in 1000w ‘bath’ but nothing in 500w ‘sink’ position.
All comments and suggestions most welcome – and thanks for your time reading this.

 

[inie meanie]

Inie,
If you are controlling power directly, eg with a Triac, then you are correct. If you are controlling output by reducing the voltage (as people have done with transformers) the the output is a square law as the heater resistance is fixed.
I am told that The biggest issue with Traics in commercial kit is the EMC regulations and harmonics generated which can be solved at a cost but with annual savings of £50 -£100 it may not be cost effective.

Yes but we are all dealing with power measurement and control, we are not spinning a motor.
I would have thought that every body here is using triacs. You can purchase a two stage filter up to 20 amps for £10 so not a big deal. If you make your controler effective it will have a shorter payback. A little bit more effort in the design will reap rewards in the long term. Buy cheap buy twice!

 

[dennis2011]

Just looked at this Fair Trade Gadget - at £168 it doesn't look good value. With a 3 kW system lots of time with cloud around you will often be in the 1000-1200 range and your 1kw heater won't work but you could run 500 heater. With the system as sold, every time you make a hot drink, make toast, use your microwave etc you will have to turn your immersion off. I hope your switch is downstairs, otherwise the temptation will be not to bother and then you will be heating your water at full electric prices. If this device could send all power in excess of say 600w to your immmersion heater by a variable control up to say 1kw then it would have some value, especially for people out at work all day.

 

[sharpener]

I have checked with DPS and they see no problem – so just drain, fit heater, refill, add inhibitor and plumbing side of job done.
I have checked for a suitable method of getting power to the airing cupboard and the utility room below has power sockets on a 32A short ring main serving just the utility, dining room and one bedroom – so I propose to take a spur from one of the sockets then to a switched FCU and then up the wall, through the ceiling and up through one of the floorboards into the airing cupboard finishing with a twin 13amp socket on the inside of airing cupboard wall.
...I am still waiting to hear back from Abeltronics but my wife is hoping for the sake of appearance/neatness that I can put the ‘power halver’ in something like a galvanised cooker back box, 47mm deep, mounted vertically and covered with a standard brushed steel blanking plate. (Drilling ventilation holes top and bottom if needed)
...Could really do with a warning light when in 1000w ‘bath’ but nothing in 500w ‘sink’ position.
All comments and suggestions most welcome – and thanks for your time reading this.

A couple of quick comments:

It used to be common practice to connect 3kW immersion heaters to an airing cupboard socket on the ring but the 17th Edition On-site guide now says they should have a dedicated circuit, from memory there is no mention of the power level either way.

The inhibitor goes in the indirect side so you don't need to add any when fitting an immersion heater.

AFAIR the Abletronics power halver is a series diode or similar arrangement. As I have pointed out before this will put DC back down the supply wires which as well as being illegal will upset the trip threshold of an ordinary ELCB so you will not get the shock protection it would normally provide.

If you are going to the trouble of fitting a supply to the airing cupboard and all the time switches and controls you describe then IMHO you would be better off waiting for a fully proportional controller to become available because it will be a truly fit-and-forget solution. I leave mine on all the time and even in January there is a 50% likelihood of not needing any night-time top-up. On dull days there is still enough power to make good the losses and keep the tank up to temperature.

 

[suntrap]

The inhibitor goes in the indirect side so you don't need to add any when fitting an immersion heater.

I imagine this system is a heat store like a hot water cylinder "in reverse", which is filled from the primary circuit and which heats domestic hot water instantanously by passing mains water through a coil.

 

[echase]

All comments and suggestions most welcome – and thanks for your time reading this.

I’d say don’t do it this way if you value your marriage and your mental health. You will end up always worrying about whether is should be 500W or 1000W and what time to set and beating yourself up for getting it wrong. And, like some friends of mine, the couple will argue about it constantly.

Look at my graphs from yesterday to see how fickle the UK weather is and it’s actually worse than this because some clouds could have gone by between the 5 minute samples points shown. You can’t possibly second guess this with a time clock.

 

[dennis2011]

Thanks for replies so far. Firstly as concisely as possible re my HW system.
Yes, my heat store is like a hot water system ‘in reverse’, NOT filled from the primary circuits, but mains water does in effect pass through it by means of a very efficient plate heat exchanger not a coil. A dedicated pump comes on whenever you turn on a HW tap that both circulates water in the tank, (from top to bottom), and also through this plate exchanger to heat the cold mains water. The tank originally comes pre-dosed with inhibitor and only needs a slight draining off and topping up with 1 litre of inhibitor every 5 years. The water in the tank is sealed, apart from an expansion vessel in the top, and does not mix at all with the water in the central heating system. The effective usable HW capacity of the tank is governed by its size, the temperature of the water in the store, (it can be set as high a 90 C), and also how fast it can be re-heated.
Quoting from DPS blurb –
Rapid Indirect Recovery Options:
Instead of using a coil to allow connection to a boiler, the Pandora can be supplied with a plate heat exchanger (PHE) to reheat the store using everything the boiler can provide. This reduces heat up times dramatically, and reduces the size of the store required.
So my HW system has all this, and so in total has 2 pumps and 2 plate heat exchangers.
Right – on to the electrics!

I really do need an emergency HW system. Since posting my first message my CH system has gone wrong, the CH pump keeps running – I think one of the motorised valves has failed in the open position – plumber hopefully coming soon!
So at the end of the day if all I can get is a 1kw immersion heater with just an on/off switch downstairs then I will happily settle for that. I am aware of Sharpener’s point that ideally an immersion heater should be on a separate circuit, but I do think it would be a bit of an overkill for me to go to the trouble and expense replacing the consumer unit with a larger one, with a separate 16A mcb protected circuit just to provide power to a 1K heater drawing at most 4A intermittently, on a lightly loaded ring main circuit.

I would be very interested in a fully proportional controller but I have already been in touch with Rudge Systems and I am presuming all the other systems work along similar lines in that they require a dedicated immersion heater circuit, because sometimes they turn this circuit off. I don’t have a dedicated circuit - I am coming off a ring main and therein lies the problem. I think I need to be coming direct from the consumer unit for any system to measure how much electricity is being used in the house at any point in time?

We have been married 46 years so our marriage is quite stable. I will not lose any sleep if I wake up one morning and ‘the sun don’t shine’ and the heater has been on 500w for 2 hours. OK it will cost me 15p – I can live with that. Most of the time especially in the summer months I will be generating more than enough power to utilise 500w one hour after dawn. (In the winter I would forget the time clock and just switch on/off manually). I would be quite happy to leave it on 500w a lot of the time rather than chasing the sun. The benefit of even halving an immersion heater when I had nothing before would still make it worthwhile for us.

So if I understand correctly, then the ‘Power Halver’ is not recommended for my situation. Perhaps ok to use one on a dedicated 16A immersion heater circuit but not on a ring main spur as I would lose some protection for all the sockets on this ring main. So how then could I safely, easily and conveniently, reduce the power of my immersion heater, running it from a fused spur?


For example I have seen several 1kw light dimmers on the market – but many have rotary control – might be difficult to work out exactly where the 500w setting was – many seem to be rotary with no markings. That’s why I liked the simplicity of the ‘power halver’ - flick the switch one way 500w, switch the other way for 1000w. I even thought about wiring up a small 2 x neon indicator panel, green for 500w, red for 1000w.

Perhaps I should forget the idea of trying to devise a dual 500w/1000w immersion heater? SureJust do make a 750w model. I could just fit that, forget power halvers, crossover switches etc and just set my timeclock to catch just the peak 4 hours or so per day during the summer months. For emergency use, if left on continuously, a 750w heater should still heat up my tank and provide a reasonable amount of hot water?


Thanks for all comments and advice – more please.

 

[Whip1971]

Hi Dennis
I've read on this thread that people are using 110v site transformers to drop the wattage on 3kW immersion heaters.

3kW = 240v / 12.5A / 19.2ohms
630W = 110v / 5.7A / 19.2ohms

Also you would be able to plug it into a ring circuit. It's just the cost of a transformer.

 

[dennis2011]

Hi whip1971 - it is not just the cost of a transformer. As I mentioned in my first post I don't have any immersion heater at all. I cannot really see the point of buying a 3kW immersion heater just to derate it to 630w with a transformer when I can just buy a 750w or 1000w immersion 'off the shelf' especially as Sharpener points out that it is not best practice to run an immersion off a ring main anyway. So why make things potentially worse by having 3kW potentially available?

 

[pmcalli]

Hi whip1971 - it is not just the cost of a transformer. As I mentioned in my first post I don't have any immersion heater at all. I cannot really see the point of buying a 3kW immersion heater just to derate it to 630w with a transformer when I can just buy a 750w or 1000w immersion 'off the shelf' especially as Sharpener points out that it is not best practice to run an immersion off a ring main anyway. So why make things potentially worse by having 3kW potentially available?

After reading all this distressing stuff I have to take pity on you. Send me a pm with your email and I will send you a circuit and parts list to control up to 12kW. You can plug it into the ring main all you would need to do Is run a screened wire back to a ct on your meter tail.

 

[echase]

as Sharpener points out that it is not best practice to run an immersion off a ring main anyway.

My house is wired that way and its never been much of a problem. It is even the same ring main as the TV uses and the TV never complains about any interference from the SSR.

 

[Andysimm2000]

Non electrical question...

I currently have a combi boiler with no hot water tank / immersion heater. I can see that I could install a pressurised tank, Immersion fed from solar surplus, Combisol Mixer valve (to either send hot water to taps or preheat boiler water feed) but can not see an economic feedback - I hate to see me "wasting" solar PV but can anyone persuade me that my thoughts are wrong?
TIA
Andy

 

[pmcalli]

Non electrical question...

I currently have a combi boiler with no hot water tank / immersion heater. I can see that I could install a pressurised tank, Immersion fed from solar surplus, Combisol Mixer valve (to either send hot water to taps or preheat boiler water feed) but can not see an economic feedback - I hate to see me "wasting" solar PV but can anyone persuade me that my thoughts are wrong?
TIA
Andy

I have had someone in your situation install an unvented tank with dual immersions and then feed it to the combi boiler. It's not cheap £300 plus but the saving per year is over £100 so pay back is around three years

 

[pauldreed]

Hobbo2006 - I got your PM re Solar Power Manager, but could not reply as your inbox is full and you can't receive any more messages.

Good luck with your project, and if you get stuck, please post here in the forum, and we will try and assist.

 

[Hobbo2006]

thanks Paul, not sure what's going on as the inbox is empty. Could it be that I'm still restricted as I'm a newbie?


*cue flood of posts*