柴华;章桐;陈觉晓;高海宇;

• 1:同济大学

摘要(Abstract)：

为实现燃料电池汽车(FCV)动力系统及其关键部件的开发和产品化综合测试,设计了FCV动力系统的分布式多任务动态测试平台,实现车辆运行环境、道路振动适应性和动态道路阻力的模拟,基于功能特性和冗余需求设计了测试系统的体系结构和功能,采用XiL技术设计验证过程和测试用例。通过对测试结果的分析,论证了测试平台的有效性和先进性,并验证了FCV动力总成领域大型多层测试平台的设计方法。

关键词(KeyWords)： 燃料电池汽车;动力系统;多任务;测试平台;主控系统

Abstract:

Keywords:

基金项目(Foundation):

作者(Authors): 柴华;章桐;陈觉晓;高海宇;

DOI: 10.19620/j.cnki.1000-3703.20180853

参考文献(References)：

• [1] Helmolt R V, Eberle U. Fuel Cell Vehicles:Status 2007[J].Journal of Power Sources, 2007, 165(2):833-843.
• [2] Steele B C H, Heinzel A. Materials for Fuel-Cell Technologies[J]. Nature, 2001, 414(6861):345-352.
• [3] Wang L, Liu B. Key Technology Analysis and Countermeasure Discussion of Hydrogen-Powered Vehicles[J]. Journal of Engineering Studies, 2017(5):439-445.
• [4]侯中军,江洪春,王仁芳,等.轿车用燃料电池发动机示范应用稳定性[J].吉林大学学报(工学版), 2011(增刊2):131-136.
• [5]张哲,蔡强真,孙明,等.基于实际道路条件下的燃料电池发动机使用可靠性研究[J].佳木斯大学学报(自然科学版), 2013, 31(2):165-168.
• [6] Schupbach R M, Balda J C. A Versatile Laboratory Test Bench for Developing Powertrains of Electric Vehicles[C]//Proceedings of Vehicular Technology Conference, 2002.IEEE, 2002:1666-1670.
• [7] Njoya S M, Tremblay O, Dessaint L A. A Generic Fuel Cell Model for the Simulation of Fuel Cell Vehicles[C]//Proceedings of the VehiclePower and Propulsion Conference, Dearborn, MI, USA, September 7-10, 2009:1-8.
• [8]章桐,左曙光,许思传.用于燃料电池汽车动力系统的动态性能测试系统:CN 103207084 B[P]. 2013-07-17.
• [9] Albers A, Behrendt M, Ott S. Validation-Central Activity to Ensure Individual Mobility[C]//Proceedings of the FISITA2010 World Automotive Congress, Budapest, Hungary, May30-June 4, 2010.
• [10] Albers A, Düser T. Implementation of a Vehicle-in-theLoop Development and Validation Platform[C]//Proceedings of the FISITA 2010 World Automotive Congress, Budapest, Hungary, May 30-June 4, 2010.
• [11] Bock T, Maurer M,Farber G. Validation of the Vehicle in the Loop(ViL); A Milestone for the Simulation of Driver Assistance[C]//Intelligent Vehicles Symposium, IEEE,2007.
• [12]牛文旭,宋珂,章桐. X在环在汽车整车开发中的应用[J].机电一体化, 2015, 21(1):49-52+80.
• [13]廖基定,吴锦标,刘再明,等.基于马尔可夫到达过程的并联可修系统的可靠性分析[J].系统工程理论与实践,2010, 30(6):1040-1046.
• [14]刘英,李荣祖,张根保.非同型单元k/n(G)马尔可夫系统可靠性分析[J].华中科技大学学报(自然科学版), 2015,43(3):17-21.
• [15] Atwood P, Gurski S, Nelson D J. Degree of Hybridization Modeling of a Fuel Cell Hybrid Electric Sport Utility Vehicle[C]//Society of Automotive Engineers Conference,2001.
• [16] Atwood P, Gurski S, Nelson D J, et al. Degree of Hybridization Modeling of a Hydrogen Fuel Cell PNGVClass Vehicle[J]. Neuroimage, 2002, 24(2):436-443.
• [17]赵治国,张赛.燃料电池轿车能量源混合度仿真优化[J].汽车工程, 2014, 36(2):168-173.
• [18] Gao H, Zhang T, Chen H, et al. Application of the X-inthe-Loop Testing Method in the FCV Hybrid Degree Test[J]. Energies, 2018, 11(2):433.