Structure optimization design of the electronically controlled fuel control rod system in a diesel engine

Hui Jin*, Haosen Wang

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Poor ride comfort and shorter clutch life span are the key factors restricting the commercialization of automated manual transmission (AMT). For nonelectrically controlled engines or AMT where cooperative control between the engine and the transmission is not realizable, applying electronically controlled fuel control rod systems (ECFCRS) is an effective way to solve these problems. By applying design software such as CATIA, Matlab and Simulink, and MSC Adams, a suite of optimization design methods for ECFCRS drive mechanisms are developed here. Based on these new methods, design requirements can be analyzed comprehensively and the design scheme can be modified easily, thus greatly shortening the design cycle. The bench tests and real vehicle tests indicate that the system developed achieves preferable engine speed following-up performance and engine speed regulating performance. The method developed has significance as a reference for developing other vehicle systems.

Original languageEnglish
Article number321085
JournalMathematical Problems in Engineering
Volume2015
DOIs
Publication statusPublished - 2015

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