- BuildingDesign News
- Request Product Information
- - Architectural - Internal
- - Architectural - External
- - Electrical Engineering
- - Mechanical / HVAC
- - Facilities / Interiors
- Latest News
- View Current Newsletter
- How To Feature
- Newsletter & Online
- Subscribe / Unsubscribe
- BuildingDesign Newsletter
- Professional Vacancies
- BuildingDesign Recruitment
- Connect With Us
-
Armstrong Integrated Heating Solution For University Reduces Energy Costs & Carbon Impact
Heating Systems - Water Heating - Commercial Heating - Cooling Systems
The installation of an Armstrong MBS integrated heating
solution at the University of Wolverhampton has delivered a
carbon reduction of 224 tonnes, and saved almost £11,000 in
fuel bills and reduced carbon credits, over the first 18
month period.
The University of Wolverhampton is an extremely popular
educational site with a student population in the region of
23,000. As part of its expansion programme, the University
constructed a new building on its Walsall Campus providing
additional teaching space (including new lecture theatres)
and offices. The five existing boiler houses at the campus
did not have sufficient capacity to supply the new
multi-storey building efficiently, and a new, self-contained
boiler house was specified.
The intended usage of the new building meant that it would
be occupied for longer hours than a typical teaching block.
Lectures often take place in the evening, meaning it would
be occupied from 8am until 9pm in term time. In addition,
important administrative functions would be housed here,
extending use of the building beyond the academic year.
Energy efficiency would be particularly important if the
University was to achieve its expansion plans with the
minimum carbon impact.
Some years in advance of the introduction of the
government’s CRC Energy Efficiency scheme, the facilities
management department of the University of Wolverhampton had
already adopted a strategy to specify the most energy
efficient equipment that budget allowed, to reduce the
institution’s carbon footprint.
So, in collaboration with its building services contractor C
A Sothers, a highly efficient Armstrong MBS integrated
heating solution was installed. It incorporates high
efficiency condensing boilers, variable speed drive pumps
and advanced controls, which automatically match the heat
delivered to the changing demands of the building and its
occupants.
Armstrong constructed the integrated heating solution at its
factory in nearby Halesowen. The finished package was
shrink-wrapped for its short journey to the University site
and the project’s contractors completed the cladding and
weather-proofing of the boiler room.
After its first 18 months of operation, the energy
consumption for the new building was calculated and compared
with the alternative option (linking to the large but ageing
centralised boiler plant). It was calculated that the
equipment in the new self-contained boiler house had
produced 224 fewer tonnes of carbon emissions. In addition,
the energy consumption for the site has been significantly
reduced. Over the first 18 month period, the University
reduced its gas bill by an estimated £8,191, almost halving
the potential energy cost for the building. In addition, the
resulting carbon reduction equates to a saving of £2,688 in
CO2 credits payable under the CRC Energy Efficiency Scheme.
Stephen Cocks, Energy Manager, University of Wolverhampton
said, “I have always believed in designing 10% above the
energy efficiency requirements of Part L. Now, with the
introduction of the CRC Energy Efficiency Scheme, selecting
the best available low carbon technology is more important
than ever.”