For decades, scientists and engineers have been working to increase the efficiency of internal combustion engines. For spark-ignition engines, two technical questions in particular are always in focus:1. How can the air/fuel mixture be optimally ignited under all possible conditions?2. How can undesirable but recurrent early and self-ignitions in the air/fuel mixture be avoided?Against the background of the considerable efficiency increases currently being sought in the context of developments and the introduction of new fuels, such as hydrogen, methanol, ammonia and other hydrogen derivatives…mehr
For decades, scientists and engineers have been working to increase the efficiency of internal combustion engines. For spark-ignition engines, two technical questions in particular are always in focus:1. How can the air/fuel mixture be optimally ignited under all possible conditions?2. How can undesirable but recurrent early and self-ignitions in the air/fuel mixture be avoided?Against the background of the considerable efficiency increases currently being sought in the context of developments and the introduction of new fuels, such as hydrogen, methanol, ammonia and other hydrogen derivatives as well as biofuels, these questions are more in the focus than ever.In order to provide a perfect exchange platform for the community of combustion process and system developers from research and development, IAV has organized this combined conference, chaired by Marc Sens. The proceedings presented here represent the collection of all the topics presented at the event and are thus intended to serve as an inspiration and pool of ideas for all interested parties.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Ignition:- Requirements for ignition systems to meet future emissions legislation- Development trends and innovative ignition strategies such as pre-chamber ignition and ignition jet processes- Ignition technologies: Direct and alternating current, high frequency systems, Performance indicators, energy demand, multiple ignitionKnocking:- Thermodynamics and Phenomenology, Pre-ignition, extreme knocking, knocking, glow ignition- Combustion processes, EGR strategies, water injection- Engine concepts, engine cooling, design criteria for reducing of knocking- Measurement and analysis of knock on the engine test bench and in the vehicleKnocking and ignition:- Simulation and methods of development- Control and regulation, application and function algorithms, diagnostics- System components, durability, materials, operating conditions- Influencing factors of liquid and gaseous fuels, biofuels and lubricating oils
Ignition: - Requirements for ignition systems to meet future emissions legislation - Development trends and innovative ignition strategies such as pre-chamber ignition and ignition jet processes - Ignition technologies: Direct and alternating current, high frequency systems, Performance indicators, energy demand, multiple ignition Knocking: - Thermodynamics and Phenomenology, Pre-ignition, extreme knocking, knocking, glow ignition - Combustion processes, EGR strategies, water injection - Engine concepts, engine cooling, design criteria for reducing of knocking - Measurement and analysis of knock on the engine test bench and in the vehicle Knocking and ignition: - Simulation and methods of development - Control and regulation, application and function algorithms, diagnostics - System components, durability, materials, operating conditions - Influencing factors of liquid and gaseous fuels, biofuels and lubricating oils
Ignition:- Requirements for ignition systems to meet future emissions legislation- Development trends and innovative ignition strategies such as pre-chamber ignition and ignition jet processes- Ignition technologies: Direct and alternating current, high frequency systems, Performance indicators, energy demand, multiple ignitionKnocking:- Thermodynamics and Phenomenology, Pre-ignition, extreme knocking, knocking, glow ignition- Combustion processes, EGR strategies, water injection- Engine concepts, engine cooling, design criteria for reducing of knocking- Measurement and analysis of knock on the engine test bench and in the vehicleKnocking and ignition:- Simulation and methods of development- Control and regulation, application and function algorithms, diagnostics- System components, durability, materials, operating conditions- Influencing factors of liquid and gaseous fuels, biofuels and lubricating oils
Ignition: - Requirements for ignition systems to meet future emissions legislation - Development trends and innovative ignition strategies such as pre-chamber ignition and ignition jet processes - Ignition technologies: Direct and alternating current, high frequency systems, Performance indicators, energy demand, multiple ignition Knocking: - Thermodynamics and Phenomenology, Pre-ignition, extreme knocking, knocking, glow ignition - Combustion processes, EGR strategies, water injection - Engine concepts, engine cooling, design criteria for reducing of knocking - Measurement and analysis of knock on the engine test bench and in the vehicle Knocking and ignition: - Simulation and methods of development - Control and regulation, application and function algorithms, diagnostics - System components, durability, materials, operating conditions - Influencing factors of liquid and gaseous fuels, biofuels and lubricating oils
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