The automotive industry has seen a paradigm shift because of e-mobility, which cuts greenhouse gas production and environmental pollution. The selection of the most viable automobile passenger car is a difficult choice in this context due to diverse power sources, technologies, specifications, and prices. In this paper, sixteen alternative vehicles are assessed utilizing an integrated criterion importance through inter-criteria correlation (CRITIC)—complex proportional assessment (COPRAS) technique. CRITIC is the method utilized to achieve weights for selection criteria for vehicles. In contrast, COPRAS is used to classify cars in terms of nine different technical and operational measures that the purchaser examines when it is ready to acquire automobiles, such as fuel efficiency, torque, boot space, top speed, range, the annual cost of fuel, acceleration, cost and kerb weight of their vehicle. The results show that that battery electric vehicle outperforms compressed natural gas. Furthermore, CRITIC-TOPSIS is used to corroborate the findings achieved from CRITIC-COPRAS. In addition, after adjusting the weight of the criterion, a sensitivity analysis is performed to determine model stability.
CRITIC-COPRAS-Based Selection of Commercially Viable Alternative Fuel Passenger Vehicle
Lect.Notes Mechanical Engineering
Advances in Modelling and Optimization of Manufacturing and Industrial Systems ; Chapter : 5 ; 51-69
2023-02-24
19 pages
Article/Chapter (Book)
Electronic Resource
English
A Commercially-Viable Electric Car
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