For Propulsion Applications It Is Possible to Utilize Both the Torque Output of the Rotor and the Reactional Torque Acting on the Stator of the Driving Electric Motor by Linearizing the Stator

Salah Abunaieb
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Abstract

This paper presents a novel idea of utilizing the reactional torque of the conventional electric motor as a linear output for propulsion in addition to the conventional torque output of the rotor. The idea is demonstrated by a theoretical proposal of linearizing the stator of one of the most used motors in Electrical Vehicles and Hybrid Vehicles. The proposed Linear Stator Motor is a simple modification without involving any functional change of the conventional motor. Though theoretical, the indicated possible input energy saving of more than 75% as compared to the conventional motor is no surprise, as by linearizing the stator, an almost equal linear propulsion output is added to the conventional rotor output. In addition to this remarkable saving in input energy, the proposed Linear Stator Motor that suits all types of vehicles, can maintain propulsion without the need for a mechanical transmission system. Also, in the case of watercraft and aircraft vehicles, no external mechanical propulsion drive system is required. It is just an internal force that can push the vehicle forward, backward, or laterally, while the conventional rotor output can be utilized for energy recovery by driving a DC generator.
对于推进应用,可以利用转子的扭矩输出和作用在驱动电机定子上的反扭矩,通过线性化定子
本文提出了一种利用传统电动机的反扭矩作为推进的线性输出的新思路,除了转子的传统扭矩输出。通过对电动汽车和混合动力汽车中最常用的电机之一的定子进行线性化的理论建议,证明了这一思想。所提出的线性定子电机是一种简单的修改,不涉及传统电机的任何功能改变。虽然是理论上的,但与传统电机相比,表明可能节省75%以上的输入能量并不奇怪,因为通过线性化定子,在传统转子输出中添加了几乎相等的线性推进输出。除了显著节省输入能量之外,所提出的线性定子电机适用于所有类型的车辆,可以在不需要机械传动系统的情况下保持推进。此外,在船舶和飞行器的情况下,不需要外部机械推进驱动系统。它只是一种内力,可以推动车辆向前、向后或侧向,而传统的转子输出可以通过驱动直流发电机来回收能量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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