The Research of New Energy Hybrid Power Technology Based on 100% Low-Floor LRV

Ming Gao Li; Jun Jie Shi; Ming Li

doi:10.4028/www.scientific.net/AMR.860-863.1078

Paper Titles

A Study on the Spray Characteristics of SIDI CNG Engine Based on a Visualization System
p.1060

Space-Time Modeling of Plug-In Electric Vehicles
p.1065

Test and Simulation System of Multi-Axis Controller
p.1069

Coordinated Control for Novel Full Hybrid Vehicles
p.1073

The Research of New Energy Hybrid Power Technology Based on 100% Low-Floor LRV
p.1078

Smart Home Energy Management with Electric Vehicles Considering Battery Degradation
p.1085

Study on Factors Affecting the Range of Electric Vehicle with ADVISOR
p.1092

Reliability Evaluation of Fast-Charging EV Station Entry to Generation and Transmission Electrical System
p.1096

Testing of Remote Monitoring Calibration and Diagnostic System for Electric Vehicle
p.1101

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 860-863The Research of New Energy Hybrid Power Technology...

The Research of New Energy Hybrid Power Technology Based on 100% Low-Floor LRV

Abstract:

Research on energy storage technology and intelligent control strategies, is the main research trend of "green" strategic of electric traction technology under the new energy policy in the new century. It could help to achieve improvement on performance and quality of rail transport. Based on the dynamic performance design requirements of the target vehicle, this paper puts forward a set of hybrid power system which adapts to match schemes and energy control strategy in areas without electricity of power batteries and super capacitors in different working conditions. The test results of dynamic performance and energy control strategy show that the hybrid system satisfies the requirements of security and dynamic performance of the target vehicle, and also ensures higher energy use efficiency.

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Periodical:

Advanced Materials Research (Volumes 860-863)

Pages:

1078-1084

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.860-863.1078

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Online since:

December 2013

Authors:

Ming Gao Li*, Jun Jie Shi, Ming Li

Keywords:

Hybrid Power Technology, New Energy, Parameter Matching, Super-Capacitor (SC)

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* - Corresponding Author

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