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www.heatingandventilating.net


also more than 60% lower than traditional systems. What makes CCIR different is that the software within each panel constantly monitors each individual room and the energy storage characteristics within it, adjusting its routine to maintain the ambient temperature within the room, maximising its performance and using fewer units of energy than a traditional heating system.


CCIR’s processors and sensors give it the ability to adapt to the environment it is operating in and optimise heat settings accordingly, enabling users to benefit from high-performance and cost-effective heating. This helps drive the high performance levels compared to traditional convective systems.


It saves time and money


CCIR systems are also easy to install, whether they’re being retrofitted into an existing building or installed within a new build, because they simply need wiring into the mains rather than plumbing in.


Another benefit is reducing the administrative burden of processing warranty claims. For example, CCIR has no moving parts and requires no annual maintenance, so makes a suitable choice for end user customers – particularly housebuilders – looking to ensure that they have minimum after sales issues and warranty claims.


It improves the comfort of end users


Many end users opt for CCIR because the heating experience feels natural and comfortable – once the fabric of the room is saturated with energy, it emits a comfortable, radiant heat.


CCIR also has a proven track record in reducing and preventing damp and improving the air quality within a building because it is not reliant on circulating air, so there’s typically less circulating dust. The natural heat and improved air quality creates a much more comfortable living environment.


low carbon buildings What applications is CCIR suitable for?


In short, CCIR can be installed in any building that has electricity. While it is particularly suitable for off-gas grid properties, given the UK’s targets for switching from fossil fuel heating to low-carbon alternatives, housebuilders, landlords, commercial and public sector buildings could all benefit from the high performance and emissions reductions CCIR provides. This year is set to be a big year for policy and strategies to tackle heat decarbonisation, so the future of heating has to be low-carbon. However, while some heating solutions could seem to be a ‘safe bet’ right now, it is likely they will be overtaken by newer and more efficient systems in the not too distant future. Therefore, it is important to take time to understand and investigate all the alternatives to gas central heating – such as CCIR – to ensure that the benefits are not only felt in the short term but are also sustainable solutions for the longer term.


LOW CARBON BOOST FOR UK'S LARGEST SCIENCE CAMPUS G


lobal resource management company, Veolia, is set to deliver low carbon energy to the UK’s largest single site life science campus at Alderley Park in Cheshire. Designed, installed and operated by Veolia the new energy services will provide around 45GWh of electricity and 200GWh of heat to support companies involved in pioneering innovation in bioscience and technology.


The service will also help to deliver energy security and counter climate change by saving around 8,400 tonnes of CO2 each year. Part of Bruntwood SciTech, Alderley Park is home to the internationally-recognised Mereside life science campus and offers more than 1m sq ft of high specification lab space, a range of scientific services and an accelerator delivering a comprehensive programme of business support for start-ups and scale-ups. It is also home to a vibrant and fast growing community of over 60 established and 150 pre-start up companies. To deliver the low carbon energy power to


essential facilities that support the campus cutting- edge research the new energy centre and district


The


solution includes a 5.2MWe CHP plant and 24MWth thermal plant


heating network will include a 5.2MWe CHP plant and 24MWth thermal plant to provide electricity, steam and hot water. The contract scope includes a fully engineered package, provided by Veolia's specialist teams, covering decommissioning of existing plant on the site, and design, procurement, equipment supply, project management, installation and commissioning of the new energy centre and heat network. As well as reducing carbon emissions, the businesses on Alderley Park will also benefit from stable energy supplies with costs that are less susceptible to energy market price changes.


When commissioned, Veolia will provide 24/7 engineering support for operation and maintenance for 15 years through a dedicated on-site team, backed by mobile engineers and helpdesk facility.


This will cover the complete CHP system, steam and hot water plant, controls, heat network, high and low voltage electrical systems, and metering. Gavin Graveson, executive vice president at Veolia UK and Ireland said: “This latest application of modern CHP technology shows how we can help support businesses in their commitment to the environment and the goal of net zero carbon. "The real advantage for Alderley Park is that our teams can provide the complete service enabling these innovative businesses to focus on their core activities, with guaranteed energy supplies and predictable energy costs. With an increasing demand for energy, CHP can play a key role in guaranteeing cost effective and sustainable low carbon electricity and heat and make a real difference in delivering the energy needed to maintain ground breaking research activities.“ With over 450 CHP units in operation in the UK, the energy activities of Veolia annually achieve CO2 reductions of 407,000 tonnes through efficient on-site generation and management of utilities, including electricity ( enough to power over 1.2 million homes), heat and cooling.


www.heatingandventilating.net


February 2021


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