论文信息 - Including a Battery State of Health model in the HEV component sizing and optimal control problem

Including a Battery State of Health model in the HEV component sizing and optimal control problem

This paper studies convex optimization and modelling for component sizing and optimal energy management control of hybrid electric vehicles. The novelty in the paper is the modeling steps required to include a battery wear model into the convex optimization problem. The convex modeling steps are described for the example of battery sizing and simultaneous optimal control of a series hybrid electric bus driving along a perfectly known bus line. Using the proposed convex optimization method and battery wear model, the city bus example is used to study a relevant question: is it better to choose one large battery that is sized to survive the entire lifespan of the bus, or is it beneficial with several smaller replaceable batteries which could be operated at higher c-rates?

[1] Nikolce Murgovski,et al. Convex modeling of energy buffers in power control applications , 2012 .

[2] Lino Guzzella,et al. Battery State-of-Health Perceptive Energy Management for Hybrid Electric Vehicles , 2012, IEEE Transactions on Vehicular Technology.

[3] Jonas Sjöberg,et al. Component sizing of a plug-in hybrid electric powertrain via convex optimization , 2012 .

[4] Herbert L Case,et al. An accelerated calendar and cycle life study of Li-ion cells. , 2001 .

[5] Stephen P. Boyd,et al. Convex Optimization , 2004, Algorithms and Theory of Computation Handbook.

[6] Olle Sundström,et al. Torque-Assist Hybrid Electric Powertrain Sizing: From Optimal Control Towards a Sizing Law , 2010, IEEE Transactions on Control Systems Technology.

[7] M. Verbrugge,et al. Cycle-life model for graphite-LiFePO 4 cells , 2011 .

[8] U Zoelch,et al. Dynamic optimization method for design and rating of the components of a hybrid vehicle , 2014 .