Application of fuzzy logic to control of gas composition in a combustion process

Author

Ekbald, M.K. ; Artim, Tamara L.

Author_Institution

Integrated Syst. Inc., Santa Clara, CA, USA

fYear

1993

fDate

13-16 Sep 1993

Firstpage

599

Abstract

A fuzzy logic-based multi-input/single-output controller has been designed for controlling the gas composition in a combustion process. The combustion process pyrolyzes alumina fiber for utilization in a metal matrix composite. The exothermic reaction, which affects the quality of the alumina fiber, can be indirectly controlled through control of the oxygen concentration. Mass flow controllers which inject and exhaust various gas species to the furnace are used to control the gas composition. The process is controlled thermally through the use of heating elements. Because of the complexity of the combustion process, the use of a fuzzy controller was investigated for control of the gas composition. Steady-state fluid flow models were utilized to define the appropriate membership functions and control rules. The performance of the controller is demonstrated using online process data of the combustion process

Keywords

alumina; chemical technology; combustion; flow control; furnaces; fuzzy control; multivariable control systems; pyrolysis; Al₂O₃; MISO controller; O₂; alumina fiber; combustion process; control rules; exothermic reaction; fuzzy logic; gas composition control; mass flow controllers; membership functions; metal matrix composite; oxygen concentration control; pyrolysis; steady-state fluid flow models; Combustion; Fluid flow control; Furnaces; Fuzzy control; Fuzzy logic; Heating; Process control; Steady-state; Temperature control; Weight control;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Applications, 1993., Second IEEE Conference on

Conference_Location

Vancouver, BC

Print_ISBN

0-7803-1872-2

Type

conf

DOI

10.1109/CCA.1993.348338

Filename

348338