International Journal of Pollution and Noise Control

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The literature search was mainly focused on topics related to Electric and Hybrid cars. The review of publications and research work revealed the basic guidelines and area of work need to be conducted exhaustively on a particular model of car, where positive result is expected, in favor of society and future demand for saving of fossil fuel and environment pollution point of view.

Chau et al. Development of full-toroidal traction drives in flywheel based mechanical hybrids, J Terramech. 2001; 6: 259–65p.

Chau et al. Multi-objective optimization for hydraulic hybrid vehicle based on adaptive simulated annealing genetic algorithm, Eng Appl Artif Intell. 2002; 1: 27–33p.

C.K. Maini. Kinetic energy recovery system by means of flywheel energy storage, Adv Eng. 2005; 3: 1846–5900p.

Eberhard et al. Energy-management system for a hybrid electric vehicle, using ultracapacitors and neural networks, IEEE Trans Ind Electron. 2006; 21(2): 614–23p.

J. Cibulka. Kinetic energy recovery system by means of flywheel energy storage, Adv Eng. 2009; 3: 1p. ISSN: 1846-5900.

Morkel. Train operation minimizing energy consumption in dc electric railway with onboard energy storage device, In: Power Supply, Energy Management and Catenaries Problems Part A. Southampton, UK: WIT Press; 2010, 45–54p.

D. Das. Electric and Hybrid Vehicles: Design Fundamentals. CRC Press, Taylor and Francis Group; 2011.

S.K. Patil. India IJRMET. 2012; 2(2).

D.A. Notter, M. Gauch, R. Widmer, P. Wäger, A. Stamp, R. Zah, H.-J. Althaus. Contribution of Li-ion batteries to the environmental impact of electricvehicles, Environ Sci Tech. 2010; 44: 6550–6p.

J. Dixon. Energy storage for electric vehicles. Industrial technology (ICIT), In: IEEE International Conference. 2010, 20–6p.

M. Panagiotidis, G. DelagrammatikasD. Assanis. Hybrid Electric Vehicle. The University of Michigan, SAE, 2000.