A Simulation Analysis of the Effect of Governor Technical Characteristics and Type on the Transient Performance of a Naturally Aspirated IDI Diesel Engine

970633

02/24/1997

Event
International Congress & Exposition
Authors Abstract
Content
A transient analysis simulation program is developed for studying the response of an indirect injection, naturally aspirated, diesel engine after a rapid increase in load when this is equipped with various types of indirect acting governors. Analytical expressions are presented for the better simulation of engine mechanical friction, inertia moments and heat loss to the walls under transient conditions, governor dynamics for both the sensing element and the servopiston, soot emissions and the fuel pump operation. Various types of governor sensing elements (i.e. mechanical, electrical, two-pulse) and feedbacks (i.e. unity and vanishing) for the servomechanism are studied. Explicit diagrams are given to show how each combination of governor type and technical parameters (i.e. mass and number of flyweights, geometrical dimensions, amplification factors) affects the speed response as well as the speed droop and the recovery period of the particular engine.
Meta TagsDetails
DOI
https://doi.org/10.4271/970633
Pages
20
Citation
Rakopoulos, C., Giakoumis, E., and Hountalas, D., "A Simulation Analysis of the Effect of Governor Technical Characteristics and Type on the Transient Performance of a Naturally Aspirated IDI Diesel Engine," SAE Technical Paper 970633, 1997, https://doi.org/10.4271/970633.
Additional Details
Publisher
Published
Feb 24, 1997
Product Code
970633
Content Type
Technical Paper
Language
English