Anyone for an air source heat pump?
This man would very much like you to have one. His name is Peter Ferguson and he owns and runs Trianco, the Sheffield-based, metal bashing oil-fired boiler maker. I spent a couple of hours with him on Monday, listening to his tale and sharing his dreams and aspirations.Oil boilers are a mature market. There are perhaps a million of them dotted around the country, mostly in out of the way locations where mains gas can’t reach. Each year, 60,000-odd new ones get installed, mostly as replacements. Trianco have a slug of this market, around 10%, but it’s not growing. Oil boilers, just like solid fuel boilers before them, would seem to be yesterday’s technology. Even with the recent move over to condensing boilers, there doesn’t seem to be much mileage left here for long term growth plans.
The question is what will replace them. The world and their aunt are all harping on about renewables and carbon-free or carbon-lite power systems. With climate change slowly moving centre stage, it’s hard not to conclude that this is where the future lies. But there is still a lot of doubt as to which of the new technologies will succeed and which will fall by the wayside.
Ferguson reckons he’s spotted a market gap here and thinks that Air Source Heat Pumps (ASHP) may just be the next big thing. ASHP are the smaller and lesser known relative of the ground source heat pump (GSHP) which has, in contrast, had quite a lot of attention in recent years. ASHP differs from GSHP in three crucial respects:
• it doesn’t require digging up the garden and rolling out 100s of metres of tubing
• instead it works by taking heat out of the air
• it’s cheap compared to GSHP and to all the other green power systems.
To date, people have thought of heat pumps primarily as space heating devices. Ferguson’s Eureka moment came when he saw that it would be beneficial to position ASHP against solar thermal panels, as an alternative method of delivering hot water for the tap. Instead of spending maybe £3,000 or more installing solar panels on your roof, which, if you were lucky, would deliver just over half your hot water requirements throughout the year, here is a solution which would cost half this price and which would provide all your hot water. Because it’s a heat pump, it delivers around three times the energy it requires to run it, so potentially you could draw off say your 4,000kWh of hot water (typical of a modern household of four) for an outlay of just 1250kWh, cost around £100 a year.
He is particularly interested in the small ASHP units, which are rated at 3kW output. The one in the photo I took is the larger 5kW one, so you can imagine that the 3kW one is almost half this size. Crucially, it is small enough to fit through the average loft hatch, and this in itself opens up a whole new market for heat pumps — small houses without gardens. The unit can get plumbed into the loft where the air temperature will, in any event, be a little higher than outdoors, and in about two hours a day it will be capable of delivering 150lits of hot water, enough for a couple of people. It’s not a renewable power source, as it uses electricity, but because the way heat pumps work, it will use about a third of the electricity an electric immersion heater would use, so it will deliver 6kWh of heat energy for just 2kWh of juice burned.
Will it catch on? Well, it may do. The one thing that makes Ferguson very bullish about his ActivAir heat pumps is that he can sell them for £695 + VAT. Compare that with solar panels (at around £2,500), or indeed any of the other renewable or carbon-lite technologies, and you can see that his ASHP units may well find a new market.
The downsides are that the units are a little on the noisy side to be happily operating indoors. And the recovery rate, the time taken to replenish your hot water cylinder, is rather slow. The 3kW unit would take over two hours to recover, as compared with 30 minutes for a similar-sized cylinder heated by a conventional boiler.
There is also the cost calculation to run through. Although ASHP will deliver three units the heat output for every one unit of electricity required to operate it, that electricity is always going to be more expensive than mains gas. And if the mains gas is a third of the price of mains electricity, then your cost saving vanishes. As it stands, mains gas is rather more expensive than this at the moment, but not by a lot, so the running cost saving is there, but only just. Unless of course you manage to run your ASHP unit on Economy 7, in which case it becomes very cheap to run indeed. But then you’d have it whirring away for a couple of hours every night whilst you slept. If you mounted it correctly, you wouldn’t hear a thing, but it would always be a concern that it could keep you awake.
Trianco’s ASHP units are available in larger sizes. As well as the 3kW output, there are 5kW, 7kW and 12kW. This largest size is capable of taking on GSHP as a whole house space heating solution. Many people feel that it’s got to be less efficient than GSHP because outside air temperatures are habitually lower than winter ground temperatures, but Ferguson’s units work at good efficiencies down to —3°C, which is about as cold as it gets in southern England these days. And at £1895, it is way cheaper than any GSHP unit I have come across.
At the moment, Ferguson is importing his ActivAir units from China, but has high hopes of bringing the metal bashing and assembly functions in house as sales demand rises. It’ll be fascinating to see whether he manages to establish ASHP as a serious contender for the future of home heating. It won’t be for a lack of trying.
Labels: Business Stories, Renewables
posted by Mark Brinkley @ 11:08 AM
17 Comments:
What's really needed is air-source heat pumps that run on gas or oil and that have an interior box the size of a boiler and a reasonably small exterior box. That could easily halve fuel use for heating and hot water throughout the whole country.
I don't think any heating appliance running solely on electricity is a good idea.
You are missing the point with the technology, a heat pump uses a compressor to "create" the heat - compressing a gas or fluid raises its temperature - so an electric motor is used to drive the compressor. It uses not form of combustion or electrical resistence heating at all which is why you cannot use gas or oil directly unless it is to run a generator that is either directly connected to the compressor or generates electricity to run the compressor motor. In either case it would hardly be a simple, small packaged unit.
Is the warm air produced by an ASHP used for space heating dried as well as warmed through the process of compression?
What warm air produced? The system uses the low grade heat from the ambient air temperature to raise the temperature of the heat transfer medium, water, to a useful heat energy.
I was at BuildStore at the weekend and they said that the Trianco ASHPs could be installed in a loft as you still have air circulating up there and this could be a much better place to site a noisy system. Any views?
Can the Air source heat pump be outside? We have a flat roof, (half-way through new build, compact site in London, trying not to use a gas boiler), and underfloor heating.
Luke
I've taken a long time to reply to this, but, "anonymous at 11:34pm", no, trust me on this, you certainly can run a heat pump on gas or oil without using an engine.
The principle is the same as for a gas-fired fridge.
As someone who has been involved with this technology for a number of years I would like to take issue with some of Trianco's claims. Firstly I'm a little sceptical of their COP figures, any heat pump (ground or air) that is trying to heat DHW will not get a COP above about 2 when it is asked to produce water at 60 deg + Air source heat pumps have large fans and vibrating compressors, the last place you should put one is in the loft, the noise would resonate through the whole house! The other issue that Mr trianco seems to have overlooked is that heat pumps need special hot water cylinders with much larger coils to get the heat transfer into the hot water, coupling up to a standard cylinder will not work. There are plenty of good air source heat pumps on the market which do an excellent job of heating and hot water from manufactures that understand the technology, Mr Trianco should stick to what he knows, importing container loads of cheap swimming pool heaters does qualify you as an expert!
hi i am building an extension to my existing house & i like the idea of ashp but the house has 6 radiators already & with the extension we will have 6 bedrooms in total , can a ashp heat this size of house ???????
Hi, I am building a 3000ft2 house in N. Ireland with a SAP rating of 76 for building control regs. We are thinking of using an air pump
with underfloor heating and for our hot water and scraping the 2m2 solar panel that is in the plans for building regs. Is this a well insulated house and therefore an overkill on the heating? Any suggestions
as an experienced installer of air, water and ground source heat pumps i would not recommend anyone to install an air source heat pump inside a loft space unless they are deaf. even the top of the range ashp's produce a hum that could provide a distraction at night which is why ashp's are recomended to be situated outside, away from bedroom windows. in addition to this the exhaust air expelled from the ashp is much colder than the incoming air and given the limited space in the average loft, pretty soon you will end up with a very cold loft. so what i hear you say, you dont spend time up there. no, but your ashp does and it will be sucking in that very cold air, which makes it harder for the ashp to produce heat in an efficient manner. Far better to buy a quality ashp and site it outside.
Air source heat pumps , if used where the air is damp(most of the UK), will freeze up their collector, if the air is below 5c.
So at temperatures below 5c the heat pump will need to defrost itself once the collector starts to freeze up.
So when it's cold the heat pump will be switching from heating to defrosting.
This means that the cop of air source heat pump depends on your location.
i.e on the west coast of Scotland they are not a good idea.
Hope this helps
In reply to anonymous 7:49PM comments you have obviously only come across poor ASHP's in your time. I have a 7KW heat pump imported from China coupled up to a standard central heating system with 11 rads and a copper cylinder with standard copper coil and it gets the hot water in the cylinder to 55 Deg no problem! And the rooms to 21 Deg (return flow temp of 49 deg) all through the winter, even better if you used underfloor heating. It works brilliantly at temps over 5 deg, OK @ 0 deg but below 0 deg it does struggle. The main problem we have with these ASHP is you need to rely on the temp at some points of the day getting to 5 or above. I do agree that I would not ever consider putting one in the loft, that is a big no no!
www.greenairheatpumps.co.uk
http://www.wharfplumbing.co.uk/air_source_heat_pump.htm
surely the big difference here is that after installation cost solar is not reliant on the comparative price of other energy whereas the ashp requires the compressor to be driven by electric - or gas. and you dont in my understanding get 4 times the energy out that you put in, it has to be less, ie the heat energy from fossil fuel or nuclear etc required at the power station to produce 1kw of electric is over 4kw. if the price of electric goes up relative to gas and thus cost required to heat water via boiler lower then ashp becomes uneconomic. producing the 1kw from photovoltaic would circumvent this but then the argument would be superfluous since you could heat up the water directly using a solar panel. the cold and noisy loft and freezing up in damp air points are well made and illustrate the need to look who's making money and from what before believing anything they say
I am looking to heat a 5x6 meter cabin that is going to have a small endless exersize pool in it, can anyone recomend a air source heat pump to warm the cabin and maybe heat the pool as well
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