AbstractThe ability to regenerate energy when braking is a valuable advantage of hybrid and fully electric vehicles. The regeneration potential mainly depends on how a car is driven and on the capacity of the drivetrain. Detailed studies of the regeneration potential based on brake energy in real-world driving are needed to better understand the potential gains of car-electrification, since test cycles do not take individual driving characteristics or route elevation into account. This study uses a model of a normalized vehicle and a highly detailed and representative data set of individual car movements including elevation to analyze the potential for energy regeneration in cars when driven under current real-world Swedish conditions.The u...
The paper investigates the problem of ways to improve the efficiency of using the energy stored on b...
The major contribution of the work presented in this thesis is a thorough investigation of the const...
All electric machines have two mechanical operations, motoring and braking. The nature of braking ca...
AbstractThe ability to regenerate energy when braking is a valuable advantage of hybrid and fully el...
The ability to regenerate energy when braking is a valuable advantage of hybrid and fully electric v...
The ability to regenerate energy when braking is a valuable advantage of hybrid and fully electric v...
There are several possible configurations and technologies for the powertrains of electric and hybr...
Short range of electric vehicles is one of the stumbling blocks in the way of electric cars to gaini...
The use of kinetic energy recovery systems (KERS) is the best solution presently available to dramat...
Roughly 30% of Sweden’s total greenhouse gas emissions originate from transport and a majority of th...
In this paper a novel regenerative dual braking strategy is proposed for utility/goods delivery unma...
The article addresses the evaluation of the impact of regenerative braking on fuel consumption and, ...
The presented thesis is a part of a funded project between Saab automotive and Chalmers University o...
When a conventional vehicle applies its brakes, kinetic energy is converted to heat as friction betw...
This paper presents a regenerative braking analysis of efficiency in real driving conditions and dif...
The paper investigates the problem of ways to improve the efficiency of using the energy stored on b...
The major contribution of the work presented in this thesis is a thorough investigation of the const...
All electric machines have two mechanical operations, motoring and braking. The nature of braking ca...
AbstractThe ability to regenerate energy when braking is a valuable advantage of hybrid and fully el...
The ability to regenerate energy when braking is a valuable advantage of hybrid and fully electric v...
The ability to regenerate energy when braking is a valuable advantage of hybrid and fully electric v...
There are several possible configurations and technologies for the powertrains of electric and hybr...
Short range of electric vehicles is one of the stumbling blocks in the way of electric cars to gaini...
The use of kinetic energy recovery systems (KERS) is the best solution presently available to dramat...
Roughly 30% of Sweden’s total greenhouse gas emissions originate from transport and a majority of th...
In this paper a novel regenerative dual braking strategy is proposed for utility/goods delivery unma...
The article addresses the evaluation of the impact of regenerative braking on fuel consumption and, ...
The presented thesis is a part of a funded project between Saab automotive and Chalmers University o...
When a conventional vehicle applies its brakes, kinetic energy is converted to heat as friction betw...
This paper presents a regenerative braking analysis of efficiency in real driving conditions and dif...
The paper investigates the problem of ways to improve the efficiency of using the energy stored on b...
The major contribution of the work presented in this thesis is a thorough investigation of the const...
All electric machines have two mechanical operations, motoring and braking. The nature of braking ca...