In a feasibility study part-funded by the UK Technology Strategy Board as one of the winning submissions for the recent ‘Disruptive technologies in low carbon vehicles’ competition, Ricardo is to work with the University of Brighton to model and evaluate an advanced split-cycle combustion system aimed at substantially reducing the carbon emissions of heavy duty vehicles.
Heavy duty vehicles such as long haul trucks represent a significant challenge in terms of the reduction of carbon dioxide emissions. An essential element of the transportation mix of modern industrialized society, heavy vehicles are inherently less amenable to the type of electrification and hybridization strategies that are already contributing to reduced carbon emissions and potential long-term sustainability for the light vehicle sector. A key global imperative is therefore the substantial improvement of heavy vehicle engine efficiency. Unlike many previous research projects that have focused on refining existing four-stroke engine technology, however, the CoolR project will examine a fundamentally new split cycle combustion concept based on a recuperated split-cycle with isothermal compression.
Ricardo has already successfully demonstrated a spilt-cycle isothermal compression engine in static form for power generation purposes. The so-called “IsoEngine” prototype demonstrated by the company for energy utility Innogy in the 1990s used water injection to achieve a thermal efficiency in excess of 60 percent in comparison with around 43 percent for a current state-of-the-art on-highway heavy duty diesel engine. While water injection would not be practical for a vehicular implementation, the CoolR concept aims to achieve the same thermodynamic benefits using liquid cryogen injection. Allowing for the energy costs of cryogen production, this would result in a thermal efficiency improvement of around 40 percent. This is significantly better than that of other promising technologies also currently being researched such as exhaust heat recovery concepts based on thermo-electric generation or the Organic Rankine Cycle which offer improvements of around 10-15 percent.
In this one year feasibility project, the partners will carry out a concept study aimed at addressing the fundamental questions that industry will face if such a radically new technology were to be adopted. In doing so, it is intended that a road map be developed to identify the necessary work required to bring the CoolR concept from feasibility to systems prototype and beyond.
Commenting on the announcement of the CoolR project, Nick Owen, project director for research and collaboration at Ricardo UK, said: “The global imperative to reduce the carbon footprint of road transportation is now almost universally accepted. While electrification, hybridization and improvements of the existing internal combustion engine offer a pathway to sustainability for light vehicles, a major problem remains in the heavy duty sector. By fundamentally reviewing the underlying thermodynamics of the internal combustion engine in a manner unseen for many decades, we believe that the CoolR spilt cycle cryogenic injection combustion concept offers the prospect of very significant improvements in thermal efficiency and hence reduced carbon dioxide emissions in the economically crucial heavy vehicle sector.”
CoolR is one of two projects to be led by Ricardo – out of a total of fifteen announced by the Technology Strategy Board as winners of its recent competition – selected to receive government support to carry out feasibility studies into the development of disruptive low carbon vehicle technology that will challenge current thinking. For further information see www.innovateuk.org.
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