Abstract
The article was dedicated to the topic of energy consumption of driving cars equipped with an electric motor. Due to the emerging demands for the excessive use of energy by vehicles (including car-sharing system vehicles), the authors carried out research to determine factors that affect the energy consumption. Due to the occurrence of a research gap related to the lack of reliable scientific information regarding real electricity consumption by vehicles used in car-sharing systems, the authors attempted to determine these values based on the proposed research experiment. The purpose of the research was to identify factors that increase energy consumption while driving in the case of car-sharing systems and developing recommendations for users of car-sharing systems and system operators in relation to energy consumption. Based on data received from car-sharing system operators and to their demands that users move cars uneconomically and use too much energy, the authors performed a scientific experiment based on Hartley’s plan. The authors made journeys with electric cars from car-sharing (measurements) in order to compare real consumption with data obtained from operators. As a result, the authors developed a list of factors that negatively affect the energy consumption of electric vehicles from car-sharing systems. As conclusion, a number of recommendations were developed for car-sharing system operators on how to manage their systems to reduce excessive energy consumption in electric vehicles.
Highlights
One of the main trends aimed at improving the condition of the automotive in accordance with the assumptions of sustainable transport development is the use of vehicles with alternative drives
The results show that electric car-sharing systems operate in 29 European countries
By covering the distance in three times longer, we reduce the value of energy consumption more than twice
Summary
One of the main trends aimed at improving the condition of the automotive in accordance with the assumptions of sustainable transport development is the use of vehicles with alternative drives. That trend is especially directed towards the use of electric vehicles. There are more and more electric vehicles that belong to individual owners or that are part of a car-sharing system fleet. The number of electric vehicles on the world’s roads is rising fast. In 2018, the global electric car fleet exceeded 5.1 million, up 2 million from the previous year and almost doubling the number of new electric car sales [1]. It is predicted that in 2030 global sales of electric vehicles will reach 23 million units [1]. Such results are satisfactory for ecology enthusiasts or vehicle manufacturers. On the other hand, they cause many fears related to the probability of Energies 2019, 12, 4614; doi:10.3390/en12244614 www.mdpi.com/journal/energies
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