Double compression-expansion engine (DCEE) fueled with hydrogen: Preliminary computational assessment

Rafig Babayev, Arne Andersson, Albert Serra Dalmau, Hong G. Im, Bengt Johansson

Research output: Contribution to journalArticlepeer-review

2 Scopus citations


Hydrogen (H2) is currently a highly attractive fuel for internal combustion engines (ICEs) owing to the prospects of potentially near-zero emissions. However, the production emissions and cost of H2 fuel necessitate substantial improvements in ICE thermal efficiency. This work aims to investigate a potential implementation of H2 combustion in a highly efficient double compression-expansion engine (DCEE). DICI nonpremixed H2 combustion mode is used for its superior characteristics, as concluded in previous studies. The analysis is performed using a 1D GT-Power software package, where different variants of the DICI H2 and diesel combustion cycles, obtained experimentally and numerically (3D CFD) are imposed in the combustion cylinder of the DCEE. The results show that the low jet momentum, free jet mixing dominated variants of the DICI H2 combustion concept are preferred, owing to the lower heat transfer losses and relaxed requirements on the fuel injection system. Insulation of the expander and removal of the intercooling improve the engine efficiency by 1.3 and 0.5%-points, respectively, but the latter leads to elevated temperatures in the high-pressure tank, which makes the selection of its materials harder but allows the use of cheaper oxidation catalysts. The results also show that the DCEE performance is insensitive to combustion cylinder temperatures, making it potentially suitable for other high-octane fuels, such as methane, methanol, ammonia, etc. Finally, a brake thermal efficiency of 56% is achieved with H2 combustion, around 1%-point higher than with diesel. Further efficiency improvements are also possible with a fully optimized H2 combustion system.
Original languageEnglish (US)
Pages (from-to)100103
JournalTransportation Engineering
StatePublished - Apr 8 2022

Bibliographical note

KAUST Repository Item: Exported on 2022-04-15
Acknowledgements: The authors would like to acknowledge financial support from the Combustion Engine Research Center (CERC) at Chalmers University of Technology and the Clean Combustion Research Center at the King Abdullah University of Science and Technology (KAUST).


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