作者:陈维荣,李奇,戴朝华 著
出版社:西南交通大学出版社
出版日期:2025
ISBN:9787577402796
电子书格式:pdf/epub/txt
网盘下载地址:下载新能源机车技术与应用(NEW ENERGY LOCOMOTIVE:TECHNOLOGY AND APPLICATION)
内容简介
轨道交通行业的快速发展为中国城市建设和经济发展提供了重要支撑,在国家经济建设中有着举足轻重的地位。作为交通运输行业的耗能大户,轨道交通由于里程长、运量大,其能源消耗不容忽视。为促进我国轨道交通的可持续发展,发展清洁环保、高效可靠的新能源轨道交通具有显著的社会意义和巨大的潜在经济效益。正是在这样的环境下,新能源机车应运而生,经过多年的发展,它已朝着研发多样化、产品集中化和大规模运营化的方向迈进,形成以燃料电池电动机车和储能式电动机车为主,其他多种新能源机车为辅,且城市轨道交通应用与工程作业机车共同发展的革新局面。本书从轨道交通行业及新能源基础知识和应用状况出发,全面详细地讲解了新能源机车发展现状,燃料电池、锂电池和超级电容基础知识与原理,以及燃料电池、储能式、混合动力和太阳能电动机车的相关技术。本书可为相关研究人员、技术人员提供参考,为促进我国轨道交通的可持续发展,发展环保、高效的新能源轨道交通提供助力。本书中文版已获得“十三五”国家重点出版物出版规划项目资助。
目录
1 Introduction
1.1 Research Significance of New Energy Locomotives
1.1.1 Energy and Environment
1.1.2 Rail Transit and Economy and Society
1.1.3 New Energy Technologies
1.1.4 New Energy Rail Transit
1.2 Classification and Advantages of New Energy Locomotives
1.2.1 Classification of New Energy Locomotives
1.2.2 Advantages of New Energy Locomotives
1.2.3 Fuel-Battery Trams
1.2.4 Energy Storage Electric Locomotives
1.2.5 Model Line of New Energy Locomotives
1.2.6 Rail Transit Industry Development Plan
1.2.7 Development Trend of New Energy Locomotives
2 Fuel Cell Technology
2.1 Overview of Fuel Cell Technology
2.2 Working Principle of Fuel Cells
2.3 Mechanism Model of Fuel Cell System
2.3.1 Output Voltage Model
2.3.2 Cathode Flow Model
2.3.3 Anode Flow Model
2.3.4 Membrane Hydration Model
2.3.5 Air Compressor Model
2.3.6 Cooler Model
2.3.7 Humidifier Model
2.4 Control System
2.4.1 Control Variables
2.4.2 Control Algorithm
2.5 Engineering Applications
2.5.1 Fuel-Battery Automobile
2.5.2 Fuel-Battery Forklift
2.5.3 Fuel-Battery Tram
2.5.4 Other Applications
3 Traction Battery and Supercapacitor Technology
3.1 Traction Battery
3.1.1 Classification of Traction Battery
3.1.2 Equivalent Model
3.2 Super Capacitor
3.2.1 Supercapacitor’s Working Principle
3.2.2 Equivalent Model of Duper Capacitor
3.3 Traction Battery Management Technology
3.3.1 Battery Charging Technology
3.3.2 Storage Battery Equilibrium Strategy
3.3.3 Battery SOC Estimation
3.4 Hybrid Power Source System Structure and Management Strategy
3.4.1 Topology of Hybrid Power Source System
3.4.2 The Dynamic Degree of Hybridization (DDOH)-Based Online Convex Optimization Energy Management Strategy
3.4.3 Hybrid Power Source Braking Force Distribution Strategy
3.5 Engineering Application
3.5.1 Electric Vehicles
3.5.2 Rail Transit
3.5.3 Special Industry
……
4 Fuel-Battery Electric Locomotives
5 Energy Storage Electric Locomotives
6 Fuel-Battery Hybrid Locomotives
7 Applications of Solar Energy Technology in Rail Transit
References
