VIBRATION TRANSMISSION REDUCTION FROM A CENTRIFUGAL TURBO BLOWER IN A FUEL CELL ELECTRIC VEHICLE

Y. S. KIM; E. Y. KIM; Y. W. SHIN; S. K. LEE

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VIBRATION TRANSMISSION REDUCTION FROM A CENTRIFUGAL TURBO BLOWER IN A FUEL CELL ELECTRIC VEHICLE

机译：燃料电池电动汽车中离心式风机的振动传递减少

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This paper presents a multi-body flexible dynamic analysis of a centrifugal turbo blower for a fuel cell electric vehicle (FCEV) based on the application of computer-aided engineering (CAE) to predict the acceleration at the mount position of the blower. This predicted acceleration is validated by using the measured acceleration data. The numerical simulation for the multi-body flexible dynamics of the blower is used not only to identify the most effective mount among four mounts in an FCEV by controlling the complex stiffness of the isolator, but also to suggest the range of complex stiffness of the isolator at the most effective mount. This numerical simulation technology can be useful for the estimation of the variation of vibration transmission for the structural modification of the turbo blower.

机译：本文基于计算机辅助工程（CAE）的应用，对用于燃料电池电动汽车（FCEV）的离心式涡轮鼓风机进行多体柔性动力学分析，以预测鼓风机安装位置的加速度。通过使用测得的加速度数据可以验证此预测加速度。鼓风机多体柔性动力学的数值模拟不仅用于通过控制隔离器的复数刚度来确定FCEV的四个安装架中最有效的安装数，还可以提出隔离器的复数刚度的范围最有效的安装。这种数值模拟技术可用于估算涡轮风机结构修改的振动传递变化。

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来源
《International Journal of Automotive Technology》 |2010年第5期|共7页
作者
Y. S. KIM; E. Y. KIM; Y. W. SHIN; S. K. LEE;
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原文格式 PDF
正文语种 eng
中图分类汽车工程;
关键词
FCEV; Turbo blower; CAE; Dynamic analysis; Vibration;

机译：FCEV;涡轮风机;CAE;动态分析;振动;
入库时间 2022-08-18 10:35:03

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专利

1. VIBRATION TRANSMISSION REDUCTION FROM A CENTRIFUGAL TURBO BLOWER IN A FUEL CELL ELECTRIC VEHICLE [J] . Y. S. KIM, E. Y. KIM, Y. W. SHIN, International Journal of Automotive Technology . 2010,第5期

机译：燃料电池电动汽车中离心式风机的振动传递减少
2. Strategy for vibration reduction of a centrifugal turbo blower in a fuel cell electric vehicle based on vibrational power flow analysis [J] . Y S Kim, E Y Kim, S-K Lee Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering . 2010,第8期

机译：基于振动功率流分析的燃料电池电动汽车离心式涡轮鼓风机减振策略
3. Strategy for vibration reduction of a centrifugal turbo blower in a fuel cell electric vehicle based on vibrational power flow analysis [J] . Y. S. Kim, E. Y. Kim, S.-K. Lee Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2010,第8期

机译：基于振动潮流分析的燃料电池电动汽车离心式涡轮鼓风机减振策略
4. Centrifugal Air Compressor for Fuel Cell Electric Vehicle [C] . Kyungseok Cho, Hyunsup Yang, Chiyong Park, International Electric Vehicle Symposium and Exhibition . 2015

机译：用于燃料电池电动汽车的离心式空气压缩机
5. Plug-in Fuel Cell Electric Vehicles: A Vehicle and Infrastructure Analysis and Comparison with Alternative Vehicle Types [D] . Lane, Blake Alexander. 2017

机译：插电式燃料电池电动汽车：车辆和基础设施分析以及与其他类型车辆的比较
6. A Novel Range-Extended Strategy for Fuel Cell/Battery Electric Vehicles [O] . Jenn-Jiang Hwang, Jia-Sheng Hu, Chih-Hong Lin 2015

机译：燃料电池/电池电动汽车的新型增程策略
7. A Study on Mount Vibration Reduction of a Centrifugal Turbo Blower for FCEV [O] . 2008

机译：用于FCEV的离心涡轮鼓风机的振动减振研究

VIBRATION TRANSMISSION REDUCTION FROM A CENTRIFUGAL TURBO BLOWER IN A FUEL CELL ELECTRIC VEHICLE

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