Open AccessOn Active Surge Control of Compression Systems via Characteristic Linearization and Model Nonlinearity Cancellation
Author(s) -
Yohannes S. M. Simamora,
Harijono A. Tjokronegoro,
Edi Leksono
Publication year - 2014
Publication title -
journal of engineering and technological sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.202
H-Index - 14
eISSN - 2338-5502
pISSN - 2337-5779
DOI - 10.5614/j.eng.technol.sci.2014.46.3.8
Subject(s) - control theory (sociology) , surge , linearization , integrator , nonlinear system , controller (irrigation) , gas compressor , realization (probability) , feedback linearization , linear system , mathematics , engineering , computer science , physics , control (management) , mathematical analysis , voltage , mechanical engineering , agronomy , statistics , electrical engineering , quantum mechanics , artificial intelligence , biology
A simple approach of active surge control of compression systems is presented. Specifically, nonlinear components of the pressure ratio and rotating speed states of the Moore-Greitzer model are transferred into the input vectors. Subsequently, the compressor characteristic is linearized into two modes, which describe the stable region and the unstable region respectively. As a result, the system’s state and input matrices both appear linear, to which linear realization and analysis are applicable. A linear quadratic regulator plus integrator is then chosen as closed-loop controller. By simulation it was shown that the modified model and characteristics can describe surge behavior, while the closed-loop controller can stabilize the system in the unstable operating region. The last-mentioned was achieved when massflow was 5.38 per cent less than the surge point
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