Continuous variable valve actuating (CVVA) technology provides high potential in achieving high performance, low fuel consumption and pollutant reduction. To get full benefits from (CVVT) various types of mechanisms have been proposed and designed. Some of these mechanisms are in production and have shown significant benefits in improving engine performance. In this investigation a newly designed gear drive mechanism that controls the intake valve opening (IVO) and closing (IVC) angles is studied. The control scheme is based on maximizing the engine brake power (P) and specific fuel consumption (BSFC) at any engine speed by continuously varying the phase between the cam shaft angle and the crank shaft angle. A single-cylinder engine is simu...
Current heavy-duty diesel engines rely on traditional camshaft technology for reliable valvetrain op...
University of Minnesota Ph.D. dissertation. December 2012. Major: Mechanical Engineering. Advisor: P...
A cam-based shear force-actuated electromechanical valve drive system offering variable valve timing...
The potential of a simple variable valve timing (VVT) system has been investigated. This system has ...
In this study, it is aimed to develop a new concept camshaft for continuously variable valve timing ...
The valve timing is a very closely studied event and effects the performance of an IC Engine greatly...
Some preliminary results concerning performance improvement of a two-cylinder automotive engine, are...
In this work, a Continuous Variable Valve Timing (CVVT) system for load control in spark-ignition en...
Most current i.c. engines are designed to operate with a fixed valve-timing diagram, which often res...
Air pollution, global warming, and rising gasoline prices have lead governments, environmental organ...
The objective of this paper is to meet the requirements of higher torque values at all engine speeds...
Right now, Internal Combustion engines with am controlled valves have been the source of propulsion ...
The objective of this project is to design a variable valve timing (VVT) system for an automotive en...
Vehicle powertrains with a continuously variable transmission (CVT) have a large freedom in controll...
The ability to control engine valve timing has the potential to alter the engine performance over th...
Current heavy-duty diesel engines rely on traditional camshaft technology for reliable valvetrain op...
University of Minnesota Ph.D. dissertation. December 2012. Major: Mechanical Engineering. Advisor: P...
A cam-based shear force-actuated electromechanical valve drive system offering variable valve timing...
The potential of a simple variable valve timing (VVT) system has been investigated. This system has ...
In this study, it is aimed to develop a new concept camshaft for continuously variable valve timing ...
The valve timing is a very closely studied event and effects the performance of an IC Engine greatly...
Some preliminary results concerning performance improvement of a two-cylinder automotive engine, are...
In this work, a Continuous Variable Valve Timing (CVVT) system for load control in spark-ignition en...
Most current i.c. engines are designed to operate with a fixed valve-timing diagram, which often res...
Air pollution, global warming, and rising gasoline prices have lead governments, environmental organ...
The objective of this paper is to meet the requirements of higher torque values at all engine speeds...
Right now, Internal Combustion engines with am controlled valves have been the source of propulsion ...
The objective of this project is to design a variable valve timing (VVT) system for an automotive en...
Vehicle powertrains with a continuously variable transmission (CVT) have a large freedom in controll...
The ability to control engine valve timing has the potential to alter the engine performance over th...
Current heavy-duty diesel engines rely on traditional camshaft technology for reliable valvetrain op...
University of Minnesota Ph.D. dissertation. December 2012. Major: Mechanical Engineering. Advisor: P...
A cam-based shear force-actuated electromechanical valve drive system offering variable valve timing...