混合调车机车的高效智能电机控制

B. Asaei, Maisam Amiri
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引用次数: 8

摘要

世界上有这么多的调车机车。为了节省燃料和减少污染,它们可以转换为混合动力电力机车(HELs)。介绍了插电式混合动力机车能量转换用感应电机的选择和使用。一辆旧的G12机车被改造成混合动力机车。为了驱动机车,在机车的四个轴中的两个轴上安装了两个感应电动机。由于项目的资金限制,一个带有两个小马达的原型被制造出来。G12型机车有四个轴。因此,如果机车大规模生产,可能会使用多达四个具有更高额定功率的电动机,这将提供高达五倍的扭矩和功率。用80千瓦的柴油发动机和50千伏安的发电机代替750千伏安的柴油发电机。两个1200伏,300安培的逆变器带IGBT模块,用于驱动机车的每个电机。逆变器由480伏牵引铅酸电池供电。有三个ecu用于电机和机车控制。一个是主控制器,用于驱动LCD面板,另外两个用于逆变器控制器。在白天,调车机车有大约60%的空闲时间。在这种情况下,机车消耗燃料,发动机空载工作,效率为零,污染非常高。混合动力技术中的柴油发动机要么关闭,要么以额定扭矩和功率运行。因此,它的效率高,同时也大大减少了污染和燃料消耗。发动机将关闭,除非电池的充电状态(SOC)减少到一定水平。此外,使用50千伏安的柴油发电机代替750千伏安的柴油发动机。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High Efficient Intelligent Motor Control for a Hybrid Shunting Locomotive
So many shunting locomotives are used all around the world. In order to save fuel and reduce pollution, they can be converted to Hybrid Electric Locomotives (HELs). In this paper, the selection and use of the induction electric machines for energy conversion in a plug in Hybrid Electric Locomotive is introduced. An old G12 locomotive is renovated and converted to a hybrid electric locomotive. To drive the locomotive, two induction motors are placed in two of the four axles of the locomotive. Due to the funding limits of the project, a prototype with two small motors was built. The G12 locomotive has four axles. Therefore, if the locomotive is mass produced, up to four motors with higher power ratings may be used that will give up to five times more torque and power. Instead of a 750 kVA diesel generator, a 80 kW diesel engine and a 50 kVA generator is used. Two 1200 volt, 300 ampere inverters with IGBT modules are used to drive each motor of the locomotive. The inverters are supplied by 480 volt, traction lead acid batteries. There are three ECUs for the motor and locomotive control. One is a master controller and to drive the LCD panels and the two others are for the inverter controllers. During the day, a shunting locomotive has around 60% idle time. In this condition, the locomotive consumes fuel and as its engine works at no load, the efficiency is zero and pollution is very high. A diesel engine in a hybrid technology either will be off or run at its rated torque and power. Therefore, its efficiency is high and at the same time the pollution and the fuel consumption are reduced a lot. The engine will be off unless the battery state of charge (SOC) reduced to a certain level. Moreover, instead of a 750 kVA diesel engine a 50 kVA diesel generator is used.
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