High-performance Induction Motors for Multi-motor AWD EV Application and Advanced Motor Testing Technologies

用于多电机全轮驱动电动汽车应用的高性能感应电机和先进电机测试技术

• 批准号: 548663-2019
• 负责人: Kar, Narayan
• 金额: $ 29.53万
• 依托单位: University of Windsor
• 依托单位国家: 加拿大
• 项目类别: Alliance Grants
• 财政年份: 2021
• 资助国家: 加拿大
• 起止时间: 2021-01-01 至 2022-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=722466
• 关键词: performance; Induction; Motors; Multi; motor

The goal of this project is to develop new, lightweight, highly efficient, compact, and high performing aluminum-intensive induction motors (IMs) for a multi-motor, all-wheel drive electric vehicle (EV) application in an effort to reduce the cost and to extend the driving range of EVs. The proposed multi-disciplinary research project is executed by several University of Windsor researchers and is at the intersection of several disciplines including materials, electrical, mechanical, thermal, and software engineering. This project aims to address the following objectives: 1) manufacturing new enhanced high strength and conductive aluminum alloy based materials and processes for motor parts such as rotor bars, stator winding, and casing; 2) accurate motor structural design models and optimization methods; 3) thermal and structural analysis; and 4) advanced comprehensive testing methods. These objectives are moving forward research toward development of light weight multi-material and highly efficient traction motors with improved thermal and structural integrity. The project will train many graduate and undergraduate students and post-doctoral fellows. They will all acquire research expertise and capabilities by interacting with supporting organizations to advance IM technology and to help propel a paradigm shift in overall EV design. This project is supported by research institutions and technology end-users such as Nemak Engineering Centre, Ford Motor Company of Canada, and D&V Electronics. This project will lead to decision points, proof of concept and product implementable solutions for Nemak, Ford, and D&V Electronics by enabling them to successfully compete in the global automotive sector. The transformative nature of this project, due to strong industry/university partnerships, will strive to make both Canada and supporting organizations global leaders in the field of transportation electrification. Mass consumption of these energy-efficient EVs will also benefit Canadians' health through a lowered carbon footprint and a cleaner environment through reduced emissions.

该项目的目标是为多电机、全轮驱动电动汽车（EV）开发新型、轻质、高效、紧凑和高性能的铝密集型感应电机（IMs），以降低成本并延长电动汽车的行驶里程。拟议的多学科研究项目由温莎大学的几名研究人员执行，涉及材料、电气、机械、热学和软件工程等多个学科的交叉。该项目旨在实现以下目标：1)为电机部件（如转子棒、定子绕组和机壳）制造新的增强高强度和导电铝合金材料和工艺；2)精确的电机结构设计模型和优化方法；3)热结构分析；4)先进的综合检测手段。这些目标推动了研究的发展，朝着轻质多材料和高效牵引电机的发展，提高了热和结构的完整性。该项目将培养大量研究生、本科生和博士后。他们都将通过与支持组织的互动来获得研究专业知识和能力，以推进IM技术，并帮助推动整体电动汽车设计的范式转变。该项目得到了Nemak工程中心、加拿大福特汽车公司、D&V电子等研究机构和技术终端用户的支持。该项目将为Nemak， Ford和D&V Electronics提供决策点，概念验证和产品可实施解决方案，使他们能够在全球汽车行业中成功竞争。由于强有力的行业/大学合作伙伴关系，该项目的变革性将努力使加拿大及其支持组织成为交通电气化领域的全球领导者。这些节能电动汽车的大规模消费还将通过降低碳足迹和减少排放来清洁环境，从而有利于加拿大人的健康。