Optimal Control for Hybrid Energy Storage Electric Vehicle to Achieve Energy Saving Using Dynamic Programming Approach

In this paper, the efficiency characteristics of battery, super capacitor (SC), direct current (DC)-DC converter and electric motor in a hybrid power system of an electric vehicle (EV) are analyzed. In addition, the optimal efficiency model of the hybrid power system is proposed based on the hybrid...

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Bibliographic Details
Published in:Energies (Basel) 2019-02, Vol.12 (4), p.588
Main Authors: Pan, Chaofeng, Liang, Yanyan, Long, Chen, Liao, Chen
Format: Article
Language:English
Subjects:
Adaptive systems
Computer simulation
Computing time
Converters
Cost function
D C motors
Dynamic programming
dynamic programming approach
Efficiency
Electric motors
Electric power systems
electric vehicle
Electric vehicles
Energy conservation
Energy consumption
Energy conversion efficiency
Energy loss
Energy management
Energy storage
Fuel cells
Genetic algorithms
hybrid power system
Hybrids
Methods
Objective function
Optimal control
Optimization
Power efficiency
Power supply
rule-based optimal strategy
Simulation
Strategy
Traffic control
Transfer functions
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Summary:In this paper, the efficiency characteristics of battery, super capacitor (SC), direct current (DC)-DC converter and electric motor in a hybrid power system of an electric vehicle (EV) are analyzed. In addition, the optimal efficiency model of the hybrid power system is proposed based on the hybrid power system component’s models. A rule-based strategy is then proposed based on the projection partition of composite power system efficiency, so it has strong adaptive adjustment ability. Additionally. the simulation results under the New European Driving Cycle (NEDC) condition show that the efficiency of rule-based strategy is higher than that of single power system. Furthermore, in order to explore the maximum energy-saving potential of hybrid power electric vehicles, a dynamic programming (DP) optimization method is proposed on the basis of the establishment of the whole hybrid power system, which takes into account various energy consumption factors of the whole system. Compared to the battery-only EV based on simulation results, the hybrid power system controlled by rule-based strategy can decrease energy consumption by 13.4% in line with the NEDC condition, while the power-split strategy derived from the DP approach can reduce energy consumption by 17.6%. The results show that compared with rule-based strategy, the optimized DP strategy has higher system efficiency and lower energy consumption.
ISSN:1996-1073
1996-1073
DOI:10.3390/en12040588