Please use this identifier to cite or link to this item: https://ptsldigital.ukm.my/jspui/handle/123456789/394147
Title: Improvement of engine performance using an adaptive valve lift and timing (AVLT) mechanism at high engine speeds
Authors: A.F. Abdul Rasid
T.I. Mohamad
M.J. Ghazali
W.M.F. Wan Mahmood
Conference Name: International Conference on Recent Advances in Automotive Engineering and Mobility Research
Keywords: Adaptive Valve Lift and Timing (AVLT)
Engineering--Engine power
Conference Date: 16/12/2013
Conference Location: Kuala Lumpur
Abstract: This paper explains about an improvement of high end performance using an adaptive valve lift and timing mechanism (AVLT). This system is developed with an aim to produce a more powerful engine through a variable valve timing technique. The preliminary design of this system adjusts the valve lift via control lever positioned by the rotation of an electric motor and has the potential to be actuated by a hydraulic cylinder that utilizes engine fluids pressure difference with respect to the engine speed which made the valve lifts higher in higher engine speed and loads. The mechanism actuation is determined by a feedback signal of the engine electronic control unit that interacted in relation with the present engine speed and load. Therefore, a continuously dynamic valve lift profile with respect to the engine speed can be achieved thus varies the output performance of an engine. As a result of applying the AVLT on a simulated engine model with the actual parameters, the power and torque were increased in high engine speed (above 4000 rpm). The AVLT is able to increase the default valve lift by up to 35.96%. In high end speed of7000 rpm, maximum lift of AVLT improved engine power by 4.26%, brake torque by 4.25% and reduced the brake specific fuel consumption by l.14%. Maximum lift of AVLT increased the engine peak power at 6000 rpm by 2.38%. The product of this research will be useful to optimize the height of the valve lift during operation thus improves the engine performance, fuel economy and emission levels of spark ignition engine.
Pages: 359-365 p.
Call Number: TD195.T7.I546 2014 kat sem
Publisher: Switzerland : Trans Tech Publications Ltd., 2014.,Switzerland
Appears in Collections:Seminar Papers/ Proceedings / Kertas Kerja Seminar/ Prosiding

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