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Hull University Teaching Hospitals Save Energy and Cut Emissions with Innovative Heat Pump System
ICS Cool Energy multi-pipe chillers and heat pumps took over from the hospital’s gas boilers, reducing heating system’s gas consumption by almost 69% in first five months of operations, and help Hull Hospitals on their way to carbon neutrality.
Hull University Teaching Hospitals (HUTH) NHS Trust worked with ICS Cool Energy, an international market leader specializing in complete temperature control solutions for manufacturing process and facilities applications, to retrofit and decarbonise their heating system with the latest heat pump and multipipe chiller technologies.
Commissioned in October 2022, the Hull Royal Infirmary’s new heating system is based on an ICS Cool Energy multipipe Aptus chiller and an i-FH heat pump set to take over from gas-fired boilers. In the first five months of operations, the average gas consumption dropped by almost 69%, reaching a record low of 40,748 kWh in February 2023 – compared to over 221,594 kWh in February 2022.
The hospitals’ decarbonisation of heating project involving switching from gas fired boilers to renewable sources of heating is part of their ambitious Zero30 commitment to be carbon neutral by 2030. Their efforts to use sustainable technologies in buildings have been recognised many times by the industry, including winning the ‘Sustainable Achievement Award’ from the Institute of Healthcare Engineering and Estates Management (IHEEM) in 2021.
“Our efforts put us among the greenest hospitals in the UK and we are aiming to become one of the first hospital trusts in
England to reach zero carbon emissions by 2030, up to 15 years earlier than the targets set by the Department of Health,” said Alex Best, Head of Capital at Hull University Teaching Hospitals NHS Trust. “The Trust has already made some significant progress towards this goal. Our project with ICS Cool Energy and the replacement of gas boilers with heat pumps is an important milestone in our journey. We also created a solar farm of 11,000 panels, which currently generates enough power to meet the daytime needs of the entire hospital site.”
“Over the last few years, innovation in cooling and heating has progressed immensely. Today’s technologies offer significant environmental and energy benefits, compared to the ones that they are designed to replace like the fossil-fuelled heating,” said Philip Ayres, Regional Sales Manager at ICS Cool Energy. “When Hull Hospitals approached ICS Cool Energy to retrofit their existing heating system, we knew we have the right solutions to ensure the lowcarbon heat so critical for the hospital wards and theatres.”
For the hospital, maintaining the right temperature, humidity, and air quality is essential to ensure comfortable and healthy conditions for patients’ care and staff’s comfort all day and night. Sanitary hot water is just as vital for cleaning and hygiene in a hospital environment. The existing heating plant serving two wards, office areas and seven operating theatres in the Hull Royal Infirmary, was based on 650kW gas boilers, and designed for a return hot water temperature of 80°C. This temperature range was also one of the main requirements for the new, environmentally friendlier technology.
“We discussed our requirements with several installation companies, and they were all saying it wouldn’t be possible to retrofit the system using heat pumps,” said James Watts, Engineering Project Manager at Hull University Teaching Hospitals NHS Trust. “The team at ICS Cool Energy proved them wrong. ICS clearly explained the benefits of electrifying our heating, which involved adding a cascade system with the i-FH heat pump and a multi-pipe chiller unit to our existing installation.”
The installed ICS Cool Energy Aptus multi-pipe unit can offer simultaneously up to 574kW of cooling and 695kW of heating, allowing the shift from a separate boiler and chiller to one single unit, reducing both operational costs and saving on energy. Featuring two completely independent water circuits, the units ensure precise temperature control for both leaving chilled and hot water. For the production of hot water, the units use renewable and recovered energy, and can replace the existing fossil-fuel boiler and chiller system to deliver both cooling and heating for the building with no direct greenhouse gas emissions.
To boost the hot water temperature to the 80°C levels desired by the hospital, the multi-pipe chiller was paired with the 429kW i-FH waterto-water heat pump. The i-FH can deliver hot water between 50°C and 80°C, with source temperatures from +5°C to +30°C, offering a unique opportunity to move to renewable energy heating.
The installation and leading pipework for this project proved to be an engineeringly complex task, requiring changes to the infrastructure and integration of the hospital’s chilled water and heat systems. Two of the old chillers were removed and the gas-boilers were temporarily kept for emergency. The hospitals’ Building Management System (BMS) was programmed to efficiently manage the old and new elements of the cooling and heating systems.
“This project and the significant progress in our decarbonisation efforts have been made possible thanks to the government grants received by the Trust. This also requires us to calculate and demonstrate the resulting savings,” said Alex Best. “During the first five months of operations, since commissioning in October 2022, the average gas consumption for heating dropped by almost 69%. The new system has practically taken over the full heating load with the boilers kicking in just sporadically. In February 2023, gas consumption dropped to 40,748 kWh compared to 255,814 kWh the year before, and we expect it to keep dropping. The decarbonisation aspect of the project is further reinforced, as we use the electric power coming from our solar plant to power for the cooling and heating units.”
“The ICS Cool Energy i-FH and multi-pipe units are an example of product development that can create a sustainable heating sector, contribute to mitigating climate change and massively reducing buildings’ and processes’ carbon footprint,” said Phil Ayres. “It is uplifting to work together with partners like Hull Hospitals, and together put sustainability front and centre, demonstrating the capabilities of the new technologies.”
For more information on ICS Cool Energy complete process temperature control solutions, please visit www. icscoolenergy.com/.
Durrell Wildlife Conservation Trust reduces its carbon footprint with a DC-optimized PV rooftop installation
• Innovative DC optimised solar system provides energy for a number of Durrell’s key buildings, including the charity shop, Les Noyers farm buildings and nursery and the Conservation Training Academy, including the Hostel
• Installers deployed multi-layered industryleading safety solutions to ensure infrastructure and occupant protection
SolarEdge technologies announces the installation of a 75kWp, 242-module DCoptimised solar array at Durrell Wildlife Conservation Trust in Jersey, Channel Islands. The system is now helping Durrell reduce the environmental impact of many of its buildings, including its charity shop, training academy, hostel, farm buildings and nursery operations. The environmental benefit of this installation is made evident in the just shy of 4 tonnes CO2e of emissions that were saved in its first full year of operation.
The Durrell Wildlife Conservation Trust array is sub-divided to 80 solar PV panels providing electricity to the charity shop and 162 which feed energy to the training centre that also includes their hostel. In order to reduce its environmental footprint, Durrell, which is headquartered at Jersey Zoo engaged with Jersey-based solar installer, Sunworks, to install a SolarEdge DC-optimised solar system.
Durrell Wildlife Conservation Trust is an organisation at the forefront of protecting and supporting some of the world’s most endangered species through extensive global conservation efforts. Through Jersey Zoo, they manage breeding programmes for release back to the wild, develop the skills and tools to conserve species in the wild, train others in animal husbandry and conservation practice, and communicate important messages to their visitors.
Ben Spencer-Newman, Solar Surveyor at Sunworks explained: “By installing the solar system at the same time as the charity shop was constructed, we were presented with a rare blank canvas. The building is ideal for solar placement with a uniform pitched roof and no shading from local structures. Understanding how busy the zoo site is, and how important the charity shop would be in helping to raise funds for conservation work, we recommended REC panels with SolarEdge infrastructure as the best solution for higher safety, quick return-on-investment and ease of monitoring.”
SolarEdge inverters offer SafeDC technology, enabling the power optimizers on each module to drop the voltage across the entire array down to a touch-safe 1V, and Integrated arc fault protection that detects and interrupts potential arc faults. For this installation, the SolarEdge Firefighter Gateway was also chosen to further enhance the system safety, because it provides a single centralised control for the entire solar system, allowing either manual or automatic shutdown to safe voltages using the in-built SafeDC technology. This gives the peace of mind that staff, visitors, maintenance crews, emergency first responders and of course the zoo’s residents are fully protected.
“As with any project, safety was paramount and we felt that the SolarEdge SafeDC™ and Firefighter Gateway gave ultimate peace of mind. The remote monitoring capability with pinpointed alerts allows less site visits and less module maintenance, saving Operations and Management costs. Finally, a solar system is a long-term investment, so we wanted to provide peace-of-mind to the zoo by working with an established supplier such as SolarEdge, that is able to back up its warranties over the lifetime of the system,” concluded Spencer-Newman.
