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	Optimization of EGR system and water injection for gasoline engine Kertész, Tibor ; Svída, David (oponent) ; Bazala, Jiří (vedoucí práce) The focus in this master’s thesis is on proving effects of exhaust gas recirculation and water injection. Thermodynamic simulations were made in software GT-Power. There were tried different settings of systems and were observed impacts on a naturally aspirated engine. Results were compared with the engine without these systems. Úplný záznam
	Cooled EGR system loop architecture for gasoline engines Pospíšil, Juraj ; Svída, David (oponent) ; Bazala, Jiří (vedoucí práce) This master s thesis is focused on proving the effects of different exhaust gas recirculation architectures on turbocharged gasoline engines. Simulations were made in thermodynamic simulation software GT-Power. It starts with comparing the effects of different exhaust gas recirculation architectures on the steady-state simulations, mainly from the fuel consumption aspect, which are later implemented into the transient models running emission test cycles. At the end of the thesis are described impacts of exhaust gas recirculation on the function of three-way catalyst and function of the turbocharger. Úplný záznam
	Optimization of EGR system and water injection for gasoline engine Kertész, Tibor ; Svída, David (oponent) ; Bazala, Jiří (vedoucí práce) The focus in this master’s thesis is on proving effects of exhaust gas recirculation and water injection. Thermodynamic simulations were made in software GT-Power. There were tried different settings of systems and were observed impacts on a naturally aspirated engine. Results were compared with the engine without these systems. Úplný záznam
	Cooled EGR system loop architecture for gasoline engines Pospíšil, Juraj ; Svída, David (oponent) ; Bazala, Jiří (vedoucí práce) This master s thesis is focused on proving the effects of different exhaust gas recirculation architectures on turbocharged gasoline engines. Simulations were made in thermodynamic simulation software GT-Power. It starts with comparing the effects of different exhaust gas recirculation architectures on the steady-state simulations, mainly from the fuel consumption aspect, which are later implemented into the transient models running emission test cycles. At the end of the thesis are described impacts of exhaust gas recirculation on the function of three-way catalyst and function of the turbocharger. Úplný záznam

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