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A newly developed system for gaseous fuels makes it possible to inject hydrogen directly into the combustion chamber. A special control system can increase torque by 20 percent.
The system is particularly suitable for large engines such as those of heavy commercial vehicles, construction machinery or locomotives.
Zero-emission hydrogen engines, like all internal combustion engines, require a mixture formation system, i.e. a system for metering the fuel, in this case hydrogen gas. The most promising approach is a low-pressure direct injection system (LP-DI), meaning an injection directly into the combustion chamber.
If injection is only allowed to start after the intake valves have closed, the undesirable air displacement effect can be avoided. As a result, torque can be increased by approx. 20% at the same boost pressure compared with simple duct injection, and backfiring into the intake duct is reliably ruled out. By designing the system for low injection pressures of around 20 bar, the pressure tank can be run almost completely empty without any loss of performance.
However, the low density of the hydrogen requires comparatively large opening cross sections to blow the gas into the combustion chamber in the available time window. In addition, the dry gas has no lubricating properties whatsoever. At present, there are no mass-produced LP-DI injectors that can meet the specifications in the long term.
The Heilbronn scientists led by Prof. Karsten Wittek have developed a novel LP-DI system for gaseous fuels. It is based on an inward-opening nozzle with a seat seal. The sealing element is actuated servo-pneumatically and uses the pressure energy of the inflowing fuel gas. The design of the seat geometry in combination with highly wear-resistant ceramic materials also guarantee compliance with the demanding service life requirements of industrial applications.
The system is particularly suited for large engines such as those of heavy commercial vehicles, construction machinery, locomotives and GenSets.
The concept was realized as a prototype and extensive series of tests were completed on the injection nozzle test bench and on the engine test bench. All relevant functional properties could be confirmed experimentally.
A detailed scientific presentation and discussion of the test results can be read in the technical publication (link: https://doi.org/10.1016/j.ijhydene.2022.12.023).
A patent application was filed for the invention, which has since been granted (DE 10 2020 127 020 B3). Technologie-Lizenz-Büro (TLB) GmbH supports the scientists and Heilbronn University of Applied Sciences in patenting and marketing the current development. TLB is in charge of the exploitation of this pioneering technology and offers licensing opportunities to engine manufacturers.
For further information: Innovation Manager Benjamin Schilling, M.Sc. (schilling@tlb.de).
Prof. Dr.-Ing. Karsten Wittek
Hochschule Heilbronn, Fakultät für Mechanik und Elektronik (T1)
Mail: karsten.wittek@hs-heilbronn.de
"Development of a pneumatic actuated low-pressure direct injection gas injector for hydrogen-fueled internal combustion engines", International Journal of Hydrogen Energy; https://doi.org/10.1016/j.ijhydene.2022.12.023
The concept was realized as a prototype. Extensive series of tests were completed on the injection n ...
Karsten Wittek, HS Heilbronn
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Journalisten, Lehrer/Schüler, Studierende, Wirtschaftsvertreter, Wissenschaftler, jedermann
Elektrotechnik, Energie, Maschinenbau, Verkehr / Transport, Werkstoffwissenschaften
überregional
Forschungs- / Wissenstransfer, Forschungsergebnisse
Englisch
The concept was realized as a prototype. Extensive series of tests were completed on the injection n ...
Karsten Wittek, HS Heilbronn
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