Archive for May, 2010

Heat pumps:10 things a good installer should ask

Wednesday, May 26th, 2010

Finding an installer for a renewable energy technology should be a straight forward exercise. With all the certification an installer has to meet, such as the Microgeneration Certification Scheme (MCS), to enable a client to access grants, the installer has to know what they are talking about and be competent. Don’t they?

Unfortunately, with the installation of heat pumps about to explode due to the Renewable Heat Incentive (RHI) and other incentives being offered, the installer market will see a number of unscrupulous companies trying to cash in, even if they have the ‘correct’ approvals.

As an aside, there are a number of companies who aren’t approved who are more than competent, do an excellent job and have been involved in installing renewable technologies for years and are not MCS approved simply as it can be a difficult and onerous process particularly for one man bands, but that’s a different subject. [NB: if you want to benefit from the RHI, you will need to use a MCS accredited installer - ed]

It therefore pays for the client to still do their homework on any potential installer/supplier.

The normal guidelines for entering any contract will apply, such as: references – preferably actually talking to previous clients – ideally ones who have lived with the technology for at least a year; talking to a number of companies to obtain comparable quotes; trade associations, etc.

However you would also expect the installer/supplier to ask you questions, and these questions, or lack of them, should give you an indication of whether the company actually knows what it is talking about.

1. Is the building being insulated to current building standards? This should be one of the first questions the installer/supplier should ask as it will determine whether heat pump technology is right for the building. See my blog on whether heat pumps are suitable for your home).

2. Will a SAP calculation be available? A Standard Assessment Procedure (SAP) can be used to calculate the size of a heat pump suitable for the property as it takes into account the form, construction and insulation levels of the property. It can also be used to check the insulation levels of the property.

3. What is the overall area of the building to be heated? In the absence of a SAP, the overall area of the building can give an installer/supplier an initial indication of the size of the heat pump required.

4. How is the property being heated? UFH (under floor heating) or radiators? This will determine the efficiency of the heat pump and will impact on your fuel costs and hence payback.

5. How is the domestic hot water (DHW) being heated? Is solar thermal being installed? The heat pump can provide domestic hot water if required, however the installer/supplier needs to be aware of this as it does have an impact on the amount of ground arrays and the equipment supplied. DHW is an additional load on the ground and is all year round so the ground arrays need to be increased, also any hot water cylinders need to have oversized coils due to the lower temperature generated by heat pumps.

6. What is the floor construction of the building? Joisted, beam and block or other? Floor construction can again have an impact on efficiency for example for a joisted underfloor first floor system the flow temperature has to be higher than the magical 35oC always quoted for underfloor, as the heat has to be driven through the floorboards.

7. Is a single or three phase electrical connection available on site? Some manufacturer’s single phase heat pumps are limited in size (Kensa can offer a 24kW, which is one of the largest in the market place). Three phase is better as the heat pumps are more efficient and it is a more stable electricity supply but expensive to put in.

8. Is an area roughly twice the area of the property available for the ground arrays? For ground source heat pumps horizontal arrays, i.e. slinkies or straight pipe roughly twice the area to be heated is required for these. If this isn’t available then the alternative is boreholes. While equally effective they can be expensive.

9. Has planning permission been obtained? Ground source are a permitted development, but air source currently still require planning permission.

10. Finally be aware of any significant differences for claimed COPs. This should be quoted at standard conditions as laid out by EN14511-2 and should provide a means of comparing like for like. Any other standard will give different figures. In fact COPs from one brand to another should be roughly the same as many will contain similar if not the same key components

About the author: John Barker-Brown is special projects manager at British heat pump manufacturer Kensa Engineering. First published on YouGen blog: http://www.yougen.co.uk/blog-entry/1477/Heat+pumps%273A+10+things+a+good+installer+should+ask/

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Is a heat pump suitable for my home? 3 key checks

Tuesday, May 4th, 2010

Heat pumps are one of the most talked about renewable technologies – on television, in newspapers and magazines. The way they are portrayed they seem to be the answer to all our problems and will suit all properties. But is this true?

Heat pumps (ground, air or water) suit only certain applications and it is important to cut through the marketing spiel and realise this. These units can have large capital costs and can cost you more to run than the system you are replacing if installed in the wrong place.

Three of the key issues to check out before you install are as follows:-

1) Well insulated buildings

As heat pumps are a low temperature device, it is important that buildings that they are installed in are well insulated. Un-insulated buildings require high flow temperatures (the maximum from a heat pump is approx 55 degrees C). Heating to this temperature reduces the efficiency of the heat pump, as the compressor has to work harder to produce the higher temperatures. Add to this, the fact that in a poorly insulated building the heat emitting device, radiators or underfloor, may not be able to provide heat into the building at the low temperatures, so not only are the running costs high, but you also feel cold!

Insulating the building well also reduce the size of the heat pump needed, and the initial capital costs and, in the case of ground source, the amount of ground required.

2) Heating distribution systems

Most existing houses have radiators installed as their heat emitting device. A lot is made of the fact that heat pumps should only be used with underfloor heating. This is not strictly true. However, as radiators require the water to be heated to a high temperature, a heat pump will run up to 25% less efficiently with radiators. In addition, you may need to install larger radiators, to keep warm enough.

3) The fuel you are replacing

Many companies indicate savings can be achieved of up to 50% of your current fuel bills. However what they don’t tell you is that the amount you save depends on the fuel you are replacing and the installation, as we saw above. Different fuels have different costs associated with them. Direct electricity is the most expensive and gas the cheapest. While heat pumps use electricity to drive them, because of their high efficiencies the cost per kWh used can be as much as quartered, if you are currently heating with electricity.

If you have mains gas, the running cost of a well installed heat pump is similar, but as soon as you add radiators or a poorly insulated building into the equation, it pays to stay on gas. However this is likely to change next year if the Renewable Heat Incentive is introduced.

Heat pumps do not suit all applications. You can see that a rambling 17th Century listed building on radiators is not an ideal candidate, neither is an un-insulated building on radiators and the gas main. Do not install a heat pump in a poorly insulated building. However, where the application is correct heat pumps can significantly reduce running costs and carbon emissions making them a worthwhile investment and with the renewable heat incentive the growth of the heat pump market is about to explode.

Written by John Barker-Brown, special projects manager at British heat pump manufacturer Kensa Engineering. First published on www.yougen.co.uk.

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