The downsizing of Internal Combustion Engines (ICE) is already recognized as a very suitable method for the concurrent enhancement of Indicated Fuel Conversion Efficiency (IFCE) and the lowering of CO2 and NOx emissions. In this report, ultra-downsizing is introduced as an even higher stage of development of ICE. Ultra-downsizing will be implemented here by means of real Atkinson cycles using asymmetrical crank mechanisms, combined with multi-stage high-pressure turbocharging and very intensive intercooling. This will allow an increase of internal combustion engines (ICE) performance while keeping the thermal and mechanical strain strength of engine components within the current usual limits
In a medium term scenario Internal Combustion Engine (ICE) downsizing and hybrid powertrain will rep...
Increased fuel costs and diminishing petroleum supplies are forcing both governments and industries ...
Abstract: The next generation of heavily downsized-gasoline engines will demand advanced charge-deli...
Downsizing internal combustion engine is recognized as one of the development trends of the construc...
Improvements of vehicle fuel economy may be achieved by the introduction of advanced internal combus...
Engines are machines designed to provide mechanical energy to a wide variety of systems by convertin...
The paper discusses the concept, design and final results from the ‘Ultra Boost for Economy’ collabo...
Individual transport is facing more and more constraints. In the past decade regulations and car man...
Presently, the piston-type Otto cycle and Diesel cycle engines suffer from two fundamental disadvant...
In order to meet commitments in terms of vehicle CO2 emission reduction for the whole fleet of cars ...
The introduction of advanced internal combustion engine mechanisms and powertrains may improve the f...
In this paper, performance, efficiency and emission experimental results are presented from a protot...
Driven by a demand for better fuel economy and increasingly stringent emissions regulations over a w...
In a medium term scenario Internal Combustion Engine (ICE) downsizing and hybrid powertrain will rep...
Copyright © 2009 SAE Japan and Copyright © 2009 SAE International – 2009 SETC. This paper is posted ...
In a medium term scenario Internal Combustion Engine (ICE) downsizing and hybrid powertrain will rep...
Increased fuel costs and diminishing petroleum supplies are forcing both governments and industries ...
Abstract: The next generation of heavily downsized-gasoline engines will demand advanced charge-deli...
Downsizing internal combustion engine is recognized as one of the development trends of the construc...
Improvements of vehicle fuel economy may be achieved by the introduction of advanced internal combus...
Engines are machines designed to provide mechanical energy to a wide variety of systems by convertin...
The paper discusses the concept, design and final results from the ‘Ultra Boost for Economy’ collabo...
Individual transport is facing more and more constraints. In the past decade regulations and car man...
Presently, the piston-type Otto cycle and Diesel cycle engines suffer from two fundamental disadvant...
In order to meet commitments in terms of vehicle CO2 emission reduction for the whole fleet of cars ...
The introduction of advanced internal combustion engine mechanisms and powertrains may improve the f...
In this paper, performance, efficiency and emission experimental results are presented from a protot...
Driven by a demand for better fuel economy and increasingly stringent emissions regulations over a w...
In a medium term scenario Internal Combustion Engine (ICE) downsizing and hybrid powertrain will rep...
Copyright © 2009 SAE Japan and Copyright © 2009 SAE International – 2009 SETC. This paper is posted ...
In a medium term scenario Internal Combustion Engine (ICE) downsizing and hybrid powertrain will rep...
Increased fuel costs and diminishing petroleum supplies are forcing both governments and industries ...
Abstract: The next generation of heavily downsized-gasoline engines will demand advanced charge-deli...