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Laser based combustion diagnostics of an automotive development engine. Automotive emissions regulations will continue to tighten in the foreseeable future. Engine manufacturers are therefore undertaking substantial research and development in order to meet future legal requirements. One technology with proven emissions performance is gasoline direct injection (GDI).
This project requests funding for the detailed study of a GDI development engine. Sophisticated, laser based diagnostics and an ? ....Laser based combustion diagnostics of an automotive development engine. Automotive emissions regulations will continue to tighten in the foreseeable future. Engine manufacturers are therefore undertaking substantial research and development in order to meet future legal requirements. One technology with proven emissions performance is gasoline direct injection (GDI).
This project requests funding for the detailed study of a GDI development engine. Sophisticated, laser based diagnostics and an ?optical access? engine will be used to examine the fuel spray, fluid motion and pollutant formation inside the cylinder during operation. Numerical simulations will complement these experiments. Using these results, the mechanisms of pollutant formation in a GDI engine will be determined.
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High precision material processing using ultrashort laser pulses at MHz repetition rates. The continual miniaturisation of mechanical and electronic components for biomedical, aerospace and industrial products is driving the demand for advanced fabrication techniques. Femtosecond laser micromachining in particular is emerging as a critical manufacturing process for these components and other new and unprecedented applications.
The project will build up strong links between the Photonics Institu ....High precision material processing using ultrashort laser pulses at MHz repetition rates. The continual miniaturisation of mechanical and electronic components for biomedical, aerospace and industrial products is driving the demand for advanced fabrication techniques. Femtosecond laser micromachining in particular is emerging as a critical manufacturing process for these components and other new and unprecedented applications.
The project will build up strong links between the Photonics Institute in Vienna, Austria, which is noted for their achievements in the development of femtosecond light sources, and the CLA, which has an excellent reputation for its expert knowledge in laser material processing. It is therefore believed to be beneficial for research in both countries.
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