Summary of the impact

Economic impact

• Design of a new and award winning product called Lightfoot^® that gives reductions of at least 10% in fuel use and CO₂ emissions.
• The creation of a new business, Ashwoods Lightfoot^® and three new jobs, with a sales value to date in excess of £625,000 and a subscription base of over £10,000 per month.
• Economic performance of 200 vehicle fleets, including six major operators, has been improved by 2,500 installations of the system, saving over £83,000 per month in fuel costs.

Environmental impact

• Saving an estimated 2,000 tonnes of CO₂ per year.

Summary of the impact

Impact on the environment

• The adoption of cost effective CO₂ reduction technologies across a range of Ford vehicles reduced CO₂ emissions by an estimated 40,000 tonnes in 2012. This reduction applies pro rata for 2013 and becomes cumulative year on year.

Economic impact

• Improvements to vehicle engines have saved over €25M in fuel costs to the owners of Ford vehicles in 2012.
• Research has led to improvements that have been made to Ford products and processes; these improvements have been used to address upcoming legislation on CO₂ in a cost effective manner. Future penalties of up to €0.5bn have been avoided by these improved products and processes.

Impact on practitioners

• Improved monitoring processes, reducing variability in measurement of CO₂ from vehicles within Ford by 50%, facilitating the adoption of a range of new fuel saving technologies, which helped to justify a $50M investment in the Ford UK facilities.

Summary of the impact

The research addressed the problem of improving the driver experience of the sound and vibration of their automobile operating under idle conditions in city traffic. As a result of the research, Shell Global Solutions UK developed and successfully adopted a test standard protocol that changed their R&D process for making diesel fuels. The research shifted the process of making fuels from one which were oriented to the product to one that was customer focused. The new test standard protocol and the vibration acceptability metric were also adopted by Ford Motor Company Ltd., Bentley Motors, BMW, Fiat, Ferrari, Jaguar Land Rover, Peugeot-Citroen and Renault.

Summary of the impact

Prof Zhao's development of an innovative hybrid engine RegenEBD was exploited by its industrial partner, Guangxi Yuchai Machinery Company (Yuchai), the largest bus engine manufacturer in China holding 80% of the domestic market. The first RegenEBD engine buses were operated in Yulin city, where Yuchai is based, in 2011. Yuchai confirmed that these buses have demonstrated notable fuel savings of 4.7-10% (1,100-2,200 litres of fuel saving), equivalent to 3.6-7.2 tonnes of carbon saving per vehicle per year. This led Yuchai to re-align their manufacturing strategies and development efforts for 3 years (2011-2013), investing significant resources to begin manufacturing and retrofitting of RegenEBD engines in 2014. They have employed over 30 new engineers to develop and manufacture RegenEBD and purchased equipment for RegenEBD engine testing and operations. Yuchai expects that hundreds of buses equipped with RegenEBD will be on the road by 2020.

Summary of the impact

The HOTFIRE collaborative research project (2004-2008) into advanced engine combustion systems led directly to a new, high specific power output, high fuel economy, low CO₂ emissions turbocharged `down-sized' three-cylinder engine that was demonstrated in the Opel Astra car in 2008. The valuable new knowledge, understanding and techniques gained in the HOTFIRE project has directly contributed to the successful delivery of a major engine family project for an ASEAN region OEM client of Lotus Engineering.

Summary of the impact

This research project, carried out at the University of Derby, was used to develop an engine performance monitoring system and a data optimisation method for engine management systems for Land Rover. The project delivered two pieces of software developed for data modelling and optimisation with respect to the engine test bed. This has significantly reduced the engine test time on the test bed by up to 30%, reduced the cost of each engine test and provided optimum engine operation parameters to the Engine Control Unit (ECU), which has resulted in lower emissions and improved fuel economy. The project was started in 2000 and completed in 2008. However the outcomes of the research and developed software tools are still used by the Land Rover engine test group.

Summary of the impact

Using powertrain system models arising from QUB research Wrightbus Ltd developed an advanced eco-friendly hybrid diesel-electric bus which won the New Bus for London contract worth £230M supplying 600 buses to Transport for London (commencing August 2012).

Demonstrating highly significant economic and environmental impacts the bus has twice the fuel economy of a standard diesel and emits less than half the CO₂ and NO_x. The full fleet reduces annual CO₂ emissions in London by 230,000 tonnes, improving air quality and reducing greenhouse gases.

The company continues to develop the technology in new hybrid vehicles reaching worldwide, including USA, Hong Kong, Singapore and China.

Summary of the impact

Loughborough University's (LU) research collaboration with The Hardstaff Group has resulted in a commercial Oil-Ignition-Gas-Injection system (OIGI®), which substitutes natural gas for Diesel oil in heavy goods vehicles. Using optical diagnostics OIGI® was redesigned, increasing average substitution rates from 45% to 60%. The economic impact for Hardstaff was a fuel saving of £406k per annum. The research allowed Hardstaff to create new business with Mercedes-Benz in the UK and Volvo in Sweden. OIGI® reduces CO₂ by up to 15%, harmful nitrogen oxides and particulate emissions by 30%. The research also demonstrated, for the first time, dual fuel technology in small, high-speed diesel engines, paving the way for its application in passenger cars.

Summary of the impact

University of Huddersfield research into engine technologies has resulted in a major new partnership with the UK arm of engineering multinational BorgWarner, leading to the company increasing R&D capabilities in the UK. This collaboration, funded partly by parent company BorgWarner US and partly by the government's Regional Growth Fund, involves multi-million-pound investment, as well as significant job creation and safeguarding. It was a key factor in the company securing a substantial contract with Jaguar Land Rover, whose decision was informed by the University's capacity to help BorgWarner further its R&D activities and upskill its workforce for the benefit of the UK automotive supply chain and the local and national economy.

Summary of the impact

This research by the University's Transportation Research Group (TRG) has contributed to the development of sustainable road transport networks both in the UK and other leading cities worldwide. In summary:

1. TRG has developed/evaluated the algorithms for advanced bus priority at traffic signals for Transport for London (TfL) — an application benefitting bus passengers and operators across London, valued by TfL at ~£29 million/year.
2. TRG provided the UK's National Traffic Control Centre (NTCC) with improved methods to forecast traffic flows and journeys on the UK's motorway network — producing benefits estimated at £50 million/year.
3. TRG's experimental research for Jaguar has led to better dashboard displays for drivers. Jaguar has valued this impact at ~£1 million to their business.