JAGUAR LAND ROVER INSTALLS THE UK'S LARGEST ROOFTOP SOLAR PANEL ARRAY AT ITS ENGINE MANUFACTURING CENTRE
3 APRIL 2014
Wolverhampton, UK - Jaguar Land Rover has completed the installation of the UK's largest rooftop solar panel array at its new state-of-the art Engine Manufacturing Centre at i54 South Staffordshire. The new facility has been designed with sustainability embedded throughout and has recently been awarded BREEAM's 'Excellent' rating for the design stage of the assessment for sustainable buildings.
More than 21,000 photovoltaic panels, with a capacity of 5.8MW, have been fixed to the roof of the Engine Manufacturing Centre, with plans to increase this to over 6.3MW by the end of the year. It is estimated that the system will generate more than 30% of the Engine Manufacturing Centre's energy requirements. This is the equivalent to the energy needed to power more than 1,600 homes. The photovoltaic panels will reduce the plant's CO2 footprint by over 2,400 tonnes per year. Trevor Leeks, the Engine Manufacturing Centre's Operations Director, said, "Our world-class facility showcases the latest sustainable technologies and innovations. The completion of the UK's largest rooftop solar panel installation here at the Engine Manufacturing Centre is just one example of this."
"As the first manufacturer to win the 'Responsible Business of the Year' last year, environmental innovation lies at the heart of Jaguar Land Rover's business."
Based at the heart of the UK, the state-of-the-art Engine Manufacturing Centre is the first new plant that Jaguar Land Rover has built from the ground up. The site represents an investment of more than £500 million and will create almost 1400 new jobs by the time the plant reaches full capacity.
The world-class plant will manufacture the first family of premium, advanced technology engines, Ingenium, to be entirely designed and built in-house by Jaguar Land Rover for exclusive use in the company's future vehicles. The Jaguar XE, debuting in 2015, will be the first vehicle equipped with these four-cylinder engines.
Jaguar Land Rover's Engine Manufacturing Centre uses cutting-edge heating and lighting systems designed to minimise energy demand through the use of insulated cladding, to maximise daylight through the roof design and to harness natural ventilation through the use of automatic louvers.
Extensive energy monitoring facilities in the plant continually analyse the amount of energy being used and identify opportunities to reduce that energy consumption, for both electricity and natural gas.
Outside of the building, Jaguar Land Rover plans to create an ecological corridor across the bottom of its site. The corridor will be designed to encourage the natural movement of species from one side of the site to the other.
In addition, there are plans to install features such as boxes, habitat piles, dead wood stumps and insect houses to encourage small mammals, invertebrates, amphibians, bats and birds to the site.
Jaguar Land Rover won Business in the Community's 'Responsible Business of the Year 2013' for placing environmental innovation at the heart of its business strategy, embedding sustainability at every stage of the product development process and all levels of the business. This week Jaguar Land Rover is celebrating 'Responsible Business Week' as part of Business in the Community's national week-long campaign dedicated to sustainable business.
Jaguar Land Rover supports the reduction of emissions, including carbon dioxide globally, from both its products and manufacturing & logistics operations per vehicle produced
Over the past five years, the company has reduced fleet CO2 emissions by 23% and operating CO2 emissions by 21%
Waste to landfill has fallen by 75% and water consumption by 17%
The company's environmental innovation roadmap to 2020 aims to use less resources and create zero waste culture as well as reducing its dependency on fossil fuels
Challenging 2020 targets include a 30% reduction in CO2 emissions and water use
BREEAM is the Building Research Establishment Environmental Assessment Method for buildings and large scale developments. It sets the standard for best practice in sustainable design and has become the de facto measure used to describe environmental performance of buildings and communities