Modeling and fuzzy control of the engine coolant conditioning system in an IC engine test bed
Seyed Saeid Mohtasebi*, Farzad A. Shirazi, Ahmad Javaheri, Ghodrat Hamze Nava
The Journal of Mechanical Science and Technology, vol. 24, no. 11, pp.2323-2331, 2010
Abstract : Mechanical and thermodynamical performance of internal combustion engines is significantly affected by the engine working temperature.
In an engine test bed, the internal combustion engines are tested in different operating conditions using a dynamometer. It is
required that the engine temperature be controlled precisely, particularly in transient states. This precise control can be achieved by an
engine coolant conditioning system mainly consisting of a heat exchanger, a control valve, and a controller. In this study, constitutive
equations of the system are derived first. These differential equations show the second- order nonlinear time-varying dynamics of the
system. The model is validated with the experimental data providing satisfactory results. After presenting the dynamic equations of the
system, a fuzzy controller is designed based on our prior knowledge of the system. The fuzzy rules and the membership functions are
derived by a trial and error and heuristic method. Because of the nonlinear nature of the system the fuzzy rules are set to satisfy the requirements
of the temperature control for different operating conditions of the engine. The performance of the fuzzy controller is compared
with a PI one for different transient conditions. The results of the simulation show the better performance of the fuzzy controller.
The main advantages of the fuzzy controller are the shorter settling time, smaller overshoot, and improved performance especially in the
transient states of the system.
Keyword : Fuzzy control; IC engine; Coolant temperature; Simulation |