Application of electric traction drive for the modernization of locomotives with hydraulic power transmission

S.V. Roi, A.V. Kachan, A.S. Tykhonov, D.I. Iakunin, Ye.S. Riabov
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Abstract

The issue of updating the locomotive fleet of industrial enterprises by modernizing outdated diesel locomotives with hydraulic power transmission was considered. The analysis of existing modernizations shows the possibility of using traction electric drive while preserving the original group drive of wheel pairs. This approach is used by manufacturers when updating outdated and creating new diesel locomotives and traction modules for rolling stock. A possible option is the use of single-motor carts. Previous studies on the choice of the type of wheel pairs drive were analyzed and it was established that the use of a group drive of wheel pairs provides the possibility of realizing high traction forces without additional devices, and the drive itself has a lower cost. This determines the expediency of using a group drive of wheel pairs when modernizing diesel locomotives with hydraulic power transmission. To realize these advantages, it is necessary to use a traction electric drive based on electromechanical alternating current converters. This approach was implemented by Mykolaiv Locomotive Repair Plant LLC during the modernization of TGM6 diesel locomotives. The diesel locomotive is intended for shunting and hauling operations, as a result of which it was assumed during the design that the traction force when moving is equal to 320 kN, the continuous traction force is 300 kN, and the maximum speed is 50 km/h. The power plant consists of a modern Cummins diesel engine and a synchronous generator. A frequency-controlled asynchronous traction electric motor is used to drive the wheel pairs. Power and control of the electric motor is carried out using a voltage inverter. Diesel locomotives use a controlled electric drive of cooling motor-fans, and semiconductor converters are used to power auxiliary systems. The locomotive and its systems are controlled by a microprocessor control system. The application of the traction electric drive based on the asynchronous electric motor provided the estimated efficiency of the diesel locomotive and the efficiency of the diesel power at the nominal power and the estimated speed of the long-term mode, equal to 6 km/h, are 0.312 relative units and 0.69 relative units, respectively. The analysis of ways to improve the traction electric drive to reduce the consumption of fuel and energy resources was carried out. It was determined that the use of a power plant with energy storage and the use of two traction electric motors for the group drive of wheel pairs may be expedient
电牵引传动在液压传动机车现代化中的应用
对工业企业陈旧的液压传动内燃机车进行现代化改造,更新机车机队的问题进行了研究。对现有现代化的分析表明,在保留原有轮对群驱动的同时,使用牵引电力驱动是可能的。制造商在更新过时的和创造新的柴油机车和机车车辆牵引模块时使用这种方法。一个可能的选择是使用单马达手推车。分析了前人关于轮对驱动类型选择的研究,认为采用轮对组合驱动可以在不增加附加装置的情况下实现高牵引力,且驱动本身成本较低。这就决定了在采用液压传动的内燃机车现代化改造时,采用轮对群传动的便利性。为了实现这些优点,有必要使用基于机电交流变换器的牵引电力驱动。在TGM6柴油机车的现代化改造过程中,Mykolaiv机车修理厂有限责任公司采用了这种方法。内燃机车用于分轨和牵引作业,因此在设计时假定运行时牵引力为320 kN,连续牵引力为300 kN,最大速度为50 km/h。该发电厂由一台现代康明斯柴油发动机和一台同步发电机组成。采用变频异步牵引电动机驱动两轮对。电动机的电源和控制是使用电压逆变器进行的。柴油机车使用冷却电机风扇的受控电力驱动,半导体转换器用于为辅助系统供电。机车及其系统由微处理器控制系统控制。基于异步电动机的牵引电传动的应用,提供了内燃机车在标称功率和等于6 km/h的长期模式下的估计效率和柴油动力的效率分别为0.312相对单位和0.69相对单位。分析了对牵引电传动进行改进以降低燃料和能源消耗的途径。确定使用具有储能的发电厂和使用两个牵引电动机进行轮对的组驱动可能是权宜之计
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