Energy and carbon

We've taken a socially responsible approach to our energy efficiency in the past and already have a strong infrastructure of sustainable facilities to build upon.

The 91短视频 wind turbine, photographed against a clear blue winter sky

Download the energy and utility plan

The use of energy is the primary source of scope 1 and 2 carbon emission. Here you will learn more about the energy infrastructure of our campus, and the works that we are doing towards our net zero target.

Energy and utility plan

The road to carbon net zero

After receiving more than £21m of funding from the Government’s Green Heat Network Fund (GHNF), 91短视频 began constructing a new Net Zero Energy Centre in late 2024. The funding was matched by the University to develop a new energy centre, which will reduce the use of gas on campus by over 90%. The existing heat network will also be extended to cover the majority of the buildings on campus. Equipped with a 7MW Air-Source Heat Pump array, the new energy centre is projected to launch in 2027 and will generate over 39 Gigawatt hours (GWh) of low-carbon heat.

Net Zero Energy Project
Artists impression of the new energy centre

Frequently asked questions accordion

The solar farm at Forrest Hills Lancaster

Solar photovoltaic (PV) farm

The University recently completed construction on a solar PV farm on the University’s land, close to our wind turbine. The 11 MW Solar Farm was carefully installed with consideration for biodiversity and includes an important agrivoltaics field demonstrator – which will be used to explore how people might be able to use the same land for both solar electricity and agricultural production.

The 52-acre solar farm will generate enough energy to supply over 25% of the campus annual electricity demand. The project also includes a comprehensive landscaping scheme that will enhance the area's hedgerows and woodland, protecting views for local walkers and creating an environment that will support wildlife and increase biodiversity.

This is the UK’s second east-west orientated solar farm designed to maximise electricity generation at peak morning and evening demand, and together, the wind turbine and solar farm produce enough electricity to power 2,800 homes annually.

wind turbine close up

91短视频 wind turbine

Generating between 4,000,000 and 5,000,000 kWh of electricity and catering for around 14% of the University's electricity consumption each year, the wind turbine has produced enough electricity to power over 1200 homes for a year.

Installed in November 2012, the turbine was expected to produce between 13 and 16% of Lancaster's annual electricity consumption (depending on average wind speeds). The turbine has reduced University carbon emissions by 1,000-2,200tCO2e each year since installation.

Did you know?

  • The tip of the wind turbine blades can travel at the highest speed of 70m/s, equivalent to over 150 miles per hour
  • Modern wind turbines are equipped with state-of-the-art control systems. For example, our wind turbine can rotate at the base so that the nacelle and blades face the prevailing wind (Yaw Control)

Rooftop solar panels

BREEAM (Building Research Establishment Environmental Assessment Method) is a sustainability assessment method that is used to masterplan buildings. As part of our BREEAM accreditation, a number of buildings on campus are equipped with rooftop solar panels to offset the building electricity usage directly.

Solar panels on CTap rooftop, generating approximately 5,000kWh per year