Performance of Six Stroke Engine in a Hybrid Vehicle
International Journal of Thermal Engineering |
© 2015 by SSRG - IJTE Journal |
Volume 1 Issue 3 |
Year of Publication : 2015 |
Authors : Siva ganesh L.K, Dr.J.D.Sarcar |
How to Cite?
Siva ganesh L.K, Dr.J.D.Sarcar, "Performance of Six Stroke Engine in a Hybrid Vehicle," SSRG International Journal of Thermal Engineering, vol. 1, no. 3, pp. 7-11, 2015. Crossref, https://doi.org/10.14445/23950250/IJTE-V1I5P102
Abstract:
The aim of the obtainable paper is to realize the newest trends in internal incineration Engine while maintaining its leading spotlight on six stroke engine. The essential idea to this paper is to execute a six stroke engine joined to an electric motor in hybrid vehicle. This would then be numerically analyzed with obtainable hybrid vehicles like cycles, car etc. The important characteristic is to in reality combine the valuable actions of both hybrid machinery and six stroke engines. The parameters all through the assessment are efficiencies, fuel expenditure, etc. The enlargement of a more resourceful six stroke internal burning engine – the final two strokes calculated to harness the desecrate heat energy – has been explored moderately unproductively for over 100 years. Recent advances in technologies, materials, analytical modeling and simulation capabilities has opened the possibility of major advances towards the design and enlargement of a dependable, cost efficient and ultra efficient six stroke engine. The paper progresses with the governing six stroke engine principles in ideal case and then slowly implementing the idea in practical sagacity with four stroke engine.
Keywords:
Six Stroke Cycle, Air Induction organization, Water Injection structure, Hybrid vehicles.
References:
1. Chinmayee Karmalkar, Vivek Raut, Analysing the implementation of six stroke engine in a hybrid car, International Journal of Mechanical Engineering and Applications, 2(1): 1-4, 2014.
2. “A highly efficient six-stroke internal combustion engine cycle with water injection for in-cylinder exhaust heat recovery”- James C. Conklin, James P.
Szybist*Oak Ridge National Laboratory, 2360 Cherahala Blvd, Knoxville, TN 37932, USA
3. Robert. C. Tibbs (1976), six cycle combustion and fluid vaporization; US Patent 6,789,513.
4. Walker,J *Internet+ “Boiling and the Liedenfrost Effect” Available from:“http://www.wiley.com/college/phy/halliday320005/pdf
/leidenfrost_essay.pdf” [Accessed November 22nd 2010]
5. Conklin, J Szybist,P, “A highly efficient six-stroke internal combustion engine cycle with water injection for in-cylinder exhaust heat recovery”, (31st December
2009)
6. Bajulaz Six Stroke Engine [Internet] Available from: http://www.bajulazsa.com/Site/sixstroke.html [Accessed October 13th 2010]
7. IF97 Library - Wagner, W., Kruse, A. Properties of Water and Steam, The Industrial Standard IAPWS-IF97 for the Thermodynamic Properties and Supplementary Equations for Other Properties, Springer-Verlag Berlin Heidelberg, 1998