Optimization-Based Fuzzy Energy Management Strategy for PEM Fuel Cell/Battery/Supercapacitor Hybrid Construction Excavator

Fuel cell hybrid electric construction equipment (FCHECE) is known as a promising solution to achieve the goal of energy saving and environment protection. Energy management strategy is a key technology of FCHECE, which splits the energy flow between power sources. This paper presents a novel optima...

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Bibliographic Details
Published inInternational Journal of Precision Engineering and Manufacturing-Green Technology Vol. 8; no. 4; pp. 1267 - 1285
Main Authors Dao, Hoang Vu, To, Xuan Dinh, Truong, Hoai Vu Anh, Do, Tri Cuong, Ho, Cong Minh, Dang, Tri Dung, Ahn, Kyoung Kwan
Format Journal Article
LanguageEnglish
Published Seoul Korean Society for Precision Engineering 01.07.2021
Springer Nature B.V
한국정밀공학회
Subjects
Algorithms
Automobiles
Construction equipment
Dynamic programming
Electric vehicles
Energy conservation
Energy consumption
Energy Efficiency
Energy flow
Energy management
Energy sources
Energy storage
Engineering
Environmental protection
Excavators
Fuel cell vehicles
Fuel cells
Fuel consumption
Fuel economy
Fuel technology
Fuzzy control
Fuzzy logic
Hybrid systems
Hybridization
Industrial and Production Engineering
Life span
Methods
Optimization
Power management
Power sources
Powertrain
Proton exchange membrane fuel cells
Regular Paper
Search algorithms
Search methods
Supercapacitors
Sustainable Development
Systems stability
기계공학
Fuzzy logic
Backtracking search algorithm
Energy management strategy
Sequential quadratic programming
Construction excavator
PEM fuel cell
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Summary:Fuel cell hybrid electric construction equipment (FCHECE) is known as a promising solution to achieve the goal of energy saving and environment protection. Energy management strategy is a key technology of FCHECE, which splits the energy flow between power sources. This paper presents a novel optimal energy management strategy for a hybrid electric-powered hydraulic excavator system to enhance power performance, power sources lifespan, and fuel economy. As for the proposed powertrain configuration, fuel cell serves as a primary energy source, and supercapacitor and battery are considered as energy storages. The integration of supercapacitor and battery in fuel cell vehicle has advantages of improving power performance and storing the regenerative energy for future usage. An energy management strategy based on fuzzy logic control and a rule-based algorithm is proposed to effectively distribute the power between the three sources and reuse the regenerative energy. Furthermore, the parameters of the fuzzy logic system are optimized using the combination of a backtracking search algorithm which provides a good direction to the global optimal region and sequential dynamic programming as a local search method to fine-tune the optimal solution in order to reduce the hydrogen consumption and prolong the lifetime of the power sources. Simulation results show that the proposed energy management strategy enhances the vehicle performance, improves fuel economy of the FCHECE by 10.919%, increase battery and supercapacitor charge-sustaining capability as well as efficiency of the fuel cell system.
Bibliography:http://link.springer.com/article/10.1007/s40684-020-00262-y
ISSN:2288-6206
2198-0810
DOI:10.1007/s40684-020-00262-y