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HPM September 2017

60 D OME S T I C B O I L E R S & S Y S T EMS Unearthing a new generation Guy Cashmore, technical director of Kensa Heat Pumps, argues that the renewable industry needs to embrace the thousands of potential new installers currently working with boilers The government has named ground source heat pumps (GSHPs) as a ‘strategically important technology for decarbonising heat’. The idea of utilising freely available energy from the ground to heat homes isn’t new, but how can GSHP manufacturers encourage increased uptake in the technology to meet this challenge? Developing GSHP technology that makes installer’s lives easier, as well as increasing efficiencies to lower bills and give customers even more payback through the government’s Renewable Heat Incentive, is the way forward. Products need to be easy to install, with plumbing connections, electrical wiring and commissioning all kept as simple as possible. Unfortunately, some manufacturers have yet to grasp this. Simple controls Controls for the heat pump also need to mirror what installers are currently used to fitting, so standard room thermostats, time clocks and tank thermostats are much the preferred option here. Fancy control systems do have a certain niche appeal, but if the industry wants to become mainstream, then a simple option needs to be available. Having simple controls also future proofs heat pumps for use with battery storage systems and phase change heat storage in the future – both of which are close to becoming mainstream, but we don't know the details of yet. This allows the heat pump to be run as a simple 'on demand' unit with control coming from elsewhere. Water pumps for both the ground and heating side should be factory built in, saving time during installation and ensuring the pumps are right for the job. Incorrect pump speed adjustment is a major cause of wasted energy, but if the pumps are included in the unit they can be speed controlled automatically from the heat pump’s own controls based on the flow and return temperatures. It's a no brainer when you think about it. A slinky, a network of coiled pipe buried in the ground in horizontal or vertical trenches to a depth of Achieving efficiency Achieving the highest efficiency possible in GSHPs demands using scroll type compressors, but unfortunately, these are inherently noisy. We tackled this problem head on when designing our new Evo Series of GSHPs. Our design team created an enclosure and suspension system that delivered industry leading noise reduction while keeping the product just 600mm wide. This was a significant challenge, however, in our opinion, using other compressor types to reduce noise isn't the direction the industry should be heading, especially on larger units. Getting the very best efficiency out of any heat pump system also requires careful setting up and usage, but how does anyone know if making a change has made things better or worse? Although many systems are now fitted with a heat meter, getting an accurate Coefficient of Performance (CoP) figure is still difficult. We believe that GSHPs should be able to deliver a 'live' CoP readout. Car manufacturers have been fitting mpg gauges for years, so our industry has some catching up to do. This is why our Evo Series features an industry first 'live' CoP readout that delivers data directly from the operating conditions in order to combat this uncertainty. Domestic hot water systems using heat pumps always require close attention if decent hot water is to be delivered. This is especially the case if expensive use of immersion heaters is to be minimised or avoided completely. Having the two items controlled separately is never going to deliver best results. Ideally, the immersion won't be needed at all. However, when it is, then obviously it should be switched on only after the heat pump has already raised the temperature as much as possible, not before or during heat pump operation. A simple immersion control switched output from the heat pump is all that's needed. ‘Inverter driven’ heat pumps Some manufacturers are offering ‘inverter driven’ heat pump models, which essentially are electrical controls to theoretically adjust the heating output automatically according to demand. However, we believe that inverters on GSHPs deliver few advantages, in real world operation rather than test lab conditions they don't improve efficiency. They do add cost, complexity and likely future reliability issues. Class leading efficiency should be delivered using robust and well-designed mechanical components with a 25-year design life, not test cheating electronics. www.hpmmag.com September 2017 enquiry number 133 one to two metres to form a ground collector for the ground source heat pump, is installed


HPM September 2017
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