TY - GEN
T1 - The effect of valve control on a motor vehicle engine performance
AU - Zibani, Ishmael
AU - Chuma, Joseph
AU - Marumo, Rapelang R.
PY - 2012
Y1 - 2012
N2 - A camshaft controlled car engine poppet valve system has been in use for many years since the industrial revolution. The crankshaft synchronously drives the camshaft using a timing belt. The camshaft in turn opens and closes the poppet valves during the Otto cycle. The main disadvantage of this system is the high possibility of damage to the valves, pistons or perhaps the engine itself in the event of a timing belt failure. Another drawback is the labour-intensive job of replacing a timing belt. A number of research activities have gone into computer controlled camshaft to make the system more reliable and predictable. But as long as the valve and piston paths cross, a collision is invertible at some point. The belt requires regular replacement. An electronically controlled rotary valve (ecrv) has been proposed. Its motion is perpendicular to the piston, averting any possibility of a collision. In this study, timing parameters of the poppet valve system are discussed and compared to those of the ecrv. Furthermore, the operational difference between the two valve types is extensively covered, clearly demonstrating performacnce advantages of the ecrv. At the time of writing this script, a prototype engine was being implemented.
AB - A camshaft controlled car engine poppet valve system has been in use for many years since the industrial revolution. The crankshaft synchronously drives the camshaft using a timing belt. The camshaft in turn opens and closes the poppet valves during the Otto cycle. The main disadvantage of this system is the high possibility of damage to the valves, pistons or perhaps the engine itself in the event of a timing belt failure. Another drawback is the labour-intensive job of replacing a timing belt. A number of research activities have gone into computer controlled camshaft to make the system more reliable and predictable. But as long as the valve and piston paths cross, a collision is invertible at some point. The belt requires regular replacement. An electronically controlled rotary valve (ecrv) has been proposed. Its motion is perpendicular to the piston, averting any possibility of a collision. In this study, timing parameters of the poppet valve system are discussed and compared to those of the ecrv. Furthermore, the operational difference between the two valve types is extensively covered, clearly demonstrating performacnce advantages of the ecrv. At the time of writing this script, a prototype engine was being implemented.
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U2 - 10.2316/P.2012.761-019
DO - 10.2316/P.2012.761-019
M3 - Conference contribution
AN - SCOPUS:84883638744
SN - 9780889869486
T3 - Proceedings of the IASTED African Conference on Modelling and Simulation, AfricaMS 2012
SP - 140
EP - 147
BT - Proceedings of the IASTED African Conference on Modelling and Simulation, AfricaMS 2012
T2 - 4th IASTED African Conference on Modelling and Simulation, AfricaMS 2012
Y2 - 3 September 2012 through 5 September 2012
ER -