This article first appeared in Solar Business Focus UK. To read more articles on UK solar market developments subscribe today! While the feed-in tariff has been grabbing all the headlines, the UK Government has quietly launched a similar cash-back scheme for solar heating in non-domestic applications. But what is this incentive scheme, how does it work and what are the best opportunities for this technology in the UK?
At the end of 2011 it seemed that photovoltaic solar energy was always in the news, with legal challenges to the government’s management of the feed-in tariff and a rush to install before tariff rates dropped. Among all of this, it would have been easy to miss the fact that a similar cash-back scheme for renewable heat technologies, including solar thermal, was launched in November.
The Renewable Heat Incentive
The Renewable Heat Incentive (RHI) is aimed at all buildings with installations of solar heating with the exception of single domestic premises. It pays the owner of the solar system 8.9p per kilowatt-hour (kWh) of useful heat, with the tariff index-linked over the duration of the scheme. The solar system owner can claim the cash-back every quarter for 20 years from the date of registration.
Eligible buildings include commercial buildings or groups of houses or apartments served by a single communal solar system. Single domestic buildings are intended to come under the scheme during summer 2013, with a consultation expected to be launched this September.
Where are the opportunities?
Any building that has a need for hot water provides an opportunity to deploy solar thermal, but some buildings have a heat load that is more attractive than others. These include:
Accommodation blocks for students at universities, junior staff at hospitals and pupils at boarding schools often have a centralised plant room where water is heated for distribution around the building. It can be relatively straightforward to install a solar buffer tank to pre-heat the water before it is passed on to the existing heating system, which can top up the temperature on days of low solar energy. Sheltered accommodation and Extracare buildings are often heated in the same way, and if residents are assisted to bathe during the working day, then a smaller solar buffer tank can be used, reducing the capital costs.
Apartment blocks can pose a more difficult challenge to the integration of solar water heating, especially if each apartment has its own individual heating system. However solar heating systems which generate heat from a communal solar array and distribute it to individual apartments via a ring are possible.
Hotels often have a high water demand. If the occupancy of holiday accommodation is seasonally biased towards the summer months, then the effectiveness of a solar system is increased because the supply better matches the demand.
Swimming pools are also an excellent application for solar heating because the low demand temperature means the solar panels are more often working at maximum efficiency. Coupled to this, the large thermal capacity of the pool allows the full use of energy on sunny days, where storage capacity might limit the energy collection for a domestic hot water system.
Hospitals and surgeries can have a high demand for hot water, and are therefore very suitable for solar heating.
Industrial process heat: an untapped opportunity?
An EU research programme, So-Pro, identifies an enormous potential for utilising solar in industrial applications. Many national markets across the EU boast levels of solar thermal deployment for residential buildings that leaves the UK far behind, but when it comes to industrial applications, we’re all just getting started.
The UK’s Renewable Heat Incentive is the first scheme of its kind in the world, and could act as a real driver for businesses that use heat in their industrial processes to consider using solar thermal to reduce their dependence on fossil fuel energy, save on bills and get cash-back from Government for doing so.
So-Pro estimates that 30 percent of total industrial heat demand is at temperatures below 100°C, and may therefore be suitable for solar heating. The programme highlights a number of case studies where solar energy was successfully deployed in an industrial setting:
A producer of dried meat in Jerez de los Caballeros, Spain installed a 250m2 solar thermal array to heat 30,000 litres of hot water storage for washing processes in production, and for cleaning of vessels and machinery.
An electroplating company in Rahden, Germany installed a 220m2 solar array to support the heating of the galvanising baths to 80°C.
A brewery in Neumarkt, Germany installed a 72m2 solar array to preheat air for drying processes in the malt house.
A specialised truck washing company in Villamuriel de Cerrato, Spain installed a solar thermal system of 140m2 to heat water for washing tankers used to transport chemicals, food and industrial oils.
Preheating steam make-up water
A laundry in Marburg, Germany installed a 57m2 solar system to raise the temperature of make-up water feeding two gas-fired steam boilers.
The successful implementation of these bespoke renewable energy installations were found to require close cooperation between M&E contractors with a detailed understanding of their customers’ heating processes and technically competent solar suppliers or installers that could ensure the design achieved efficient use of the solar technology.
With the advent of the Renewable Heat Incentive, the stage is set for heating companies to help their customers cost-effectively reduce fossil fuel use in a wide range of commercial heating applications.
Stuart will be presenting on the outlook for the UK solar thermal market at this year’s Solar Power UK. Book your tickets here.
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