Advanced Power-Source Integration in Hybrid Electric Vehicles: Multicriteria Optimization Approach
Artikel i vetenskaplig tidskrift, 2015

System integration and power-flow control of on-board power sources are critical to the performance and cost competitiveness of hybrid electric vehicles (HEVs). The existing methods mostly focus on fuel minimization in hybrid powertrains, while disregarding many other concerns. This article presents an innovative multicriteria optimization approach and showcases its validity and usefulness in a case study of a fuel-cell hybrid bus. Three key technical contributions are made. First, a convex multicriteria optimization framework is devised for quickly and efficiently evaluating the optimal tradeoffs between the fuel-cell durability and hydrogen economy in the bus, as well as the corresponding fuel-cell dimension. Second, the impact of driving pattern on both the optimal fuel-cell size and Pareto optimality is investigated by considering discrepant driving schedules. Finally, a preliminary but useful economic assessment in both current and future scenarios is performed to explore the most cost-effective tradeoff.

convex optimization

BATTERY

MODEL

CONVEX-OPTIMIZATION

fuel cell

DESIGN

SYSTEM

multicriteria

PARTICLE SWARM OPTIMIZATION

FUEL-CELL HYBRID

hybrid vehicle

LIFETIME

MACHINES

ENERGY MANAGEMENT

Component sizing

energy management

Författare

Xiaosong Hu

University of California

Beijing Jiaotong University

J. C. Jiang

Beijing Jiaotong University

Bo Egardt

Chalmers, Signaler och system, System- och reglerteknik

D. P. Cao

Cranfield University

IEEE Transactions on Industrial Electronics

0278-0046 (ISSN) 15579948 (eISSN)

Vol. 62 12 7847-7858 7175054

Ämneskategorier

Farkostteknik

DOI

10.1109/TIE.2015.2463770

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2022-04-05