Synthèse
Volume 25, Numéro 2, Pages 78-95
2019-10-20
Auteurs : Debbah Abdesselam . Kherfane1 Hamid . Berkani3 Mahieddine .
This paper presents a novel robust approach to control the aerodynamics instabilities, surge and rotating stall of a Variable Speed Axial Compressor (VSAC) in gas turbine process. The used model to design the controller is Egeland-Gravdahl who has been commonly recognized as standard when reporting some bifurcation behavior of VSAC which cannot be captured by constant-speed models. The proposed non-linear robust control is reformulated as an optimization problem, the first reformulation is linear matrix inequality (LMI) solved by interior point optimization algorithm, the second reformulation is non-linear constrained optimization solved by genetic algorithm (GA).The two optimization approaches are tested and compared using Matlab software. Promising simulation results were obtained for both optimization approaches, but the robust controller based on genetic algorithm optimization presents better performances to tackle a restricted specification and operating conditions.
Gas turbine, Surge-Rotating stall, Robust control, Constrained Genetic algorithm (GA).
Hafaifa Ahmed
.
Guemana Mouloud
.
Boulanouar Saadat
.
pages 13-18.
Abdelhakim Necir
.
Brahimi Brahim
.
pages 03-15.
Mehedi F.
.
Nezli L.
.
Mahmoudi M.o.
.
Taleb R.
.
pages 649-657.
Mahgoun Mohemmed Seddik
.
Badoud Abd Essalam
.
pages 38-45.
Hamiani Hichem
.
Tadjeddine Ali Abderrazak
.
Sekkal Mansouria
.
Arbaoui Iliace
.
Bendjilali Ridha Ilyas
.
Bendelhoum Mohammed Soufiane
.
pages 1-10.