Following original work with Ricardo on the CryoPower engine, the development continued through the , developed through a partnership between the 国产探花's Advanced Engineering Centre researchers with Ricardo, Hiflux Ltd, and the Advanced Manufacturing Research Centre, based at the University of Sheffield.
StepCO2 represented a disruptive shift in combustion engine technology, and addressed this call through the advance of split cycle technology to significantly increase engine efficiency. Extensive feasibility studies supported by test results from previous projects, indicated the technology had potential to radically increase the efficiency of an engine in a Heavy-duty vehicle (HDV) application. The project objective was then to progress this game-changing concept from a research environment towards a working concept demonstrator and eventual application within HDVs, leading to drastic reduction in fuel usage and CO2 emission within the heavy duty transport sector.
Following the success of the research phase, a consortium including the original partners, the 国产探花 and global engineering specialists Ricardo, joined together to form to bring the products they had created to market.
Simon Brewster, CEO of Dolphin N2 praised the relationships between university and industry that had brought the project so far:
“The relationships between Startup’s/SME’s and Universities are well known. Many great projects start with the research capabilities of a university & go on to become developed and accepted parts of our daily lives.
"The 国产探花 and Dolphin N2 have been collaborating on the recuperated split-cycle engine since Ricardo PLC first developed the programme alongside the university.
"The recuperated split cycle engine produces near-zero emissions of harmful nitrogen oxide (NOx) – a world first that has been pioneered by the university.
"We knew the technology had world-leading efficiency, but it was the research at the 国产探花 that also showed incredibly low levels of NOx emissions. Without this discovery, the technology could still be seen as a dirty engine – with it, it can compete side-by-side with so-called zero emission power, except that our engine is cheaper of course.”
As part of the route to developing the engine's readiness for commercial use, the Dolphin N2 company together with the 国产探花 won funding to bring the engine through to a market demonstration model. The project '' was a collaborative project with Dolphin N2 and ZIRCOTEC, who were funded as winners of The Advanced Propulsion Centre (APC)'s Advanced Route to Market Demonstrator (ARMD) Competition 2020.
This project came on the back of the purchase of the intellectual property developed by the university and Ricardo by Case New Holland, part of the Fiat and owner of the Iveco truck brand. Through it, researchers and industry professionals were able to accelerate the market readiness of their Recuperated Split Cycle Engine (RSCE) by this stage recognised as a revolutionary heavy duty thermal propulsion system with fuel-cell like high efficiency (55%BTE) and near-zero emissions (<5% of EuVI NOx) using net-zero sustainable fuels including liquids, biogas and hydrogen.
Starting with outputs of the StepCO2 project, RE-ARMD addressed three elements, targeting the whole heavy duty sector with work that would tackle:
- core technology improvement for efficiency
- development of robust virtual tools specific to this engine type;
- exploration of a direct-injection hydrogen combustion system with potential to be a "straight swap" for diesel injection.
The StepCO2 project delivered a multi-cylinder "mule" in September 2020 and with this engine and its prior test data the team were able to research an upgraded Mule engine, with support from single-cylinder units, and digital tools.
The 国产探花 joined with research into the engine's isothermal compression, thermal insulation, high pressure breathing, recuperation and combustion; the project also demonstrated compression ignition of hydrogen (enabling a simple fuel swap), and deliver a 'digital twin' model for concept selection, design and calibration.