H∞ Proportional-Integral Control of a Turbofan Engine
Апстракт
This paper presents the design of a thrust controller for a single-shaft turbofan engine at the
operation point defined with following parameters: altitude = 0, Mach number = 0, angle of attack
= 0. In that case, the dynamics of the engine depends only of the shaft angular velocity.
Mathematical model for controller synthesis is obtained by solution of the set of nonlinear
equations. Due to complexity of the engine, parameter uncertainties and exposure to various
disturbances during exploitation, the H∞ methodology for controller synthesis is applied. Since H∞
based controller presents linear controller, it requires linear model of the plant for synthesis. Due
to that, the plant needs to be linearized. From nonlinear simulation, the 1st order transfer functions
can be obtained for selected intervals of shaft angular velocities. For controller synthesis, the fuel
supply system is also included as the 1st order transfer function. Since obtained controllers present
higher order ...controllers which may not be feasible for a real-time implementation because of
hardware limitations, they are reduced to proportional-integral (PI) controllers by using the
balanced reduction. Obtained controllers are then combined via gain-scheduling approach and
simulation is performed.
Кључне речи:
Turbofan engine / H∞ control / Proportional-integral control / Gain schedulingИзвор:
8th International Congress of Serbian Society of Mechanics, Kragujevac, Serbia, June 28-30 2021, 2021, 306-315Издавач:
- Beograd : Srpsko društvo za mehaniku
Колекције
Институција/група
Mašinski fakultetTY - CONF AU - Zorić, Nemanja AU - Jazarević, Vladimir AU - Obradović, Aleksandar PY - 2021 UR - https://machinery.mas.bg.ac.rs/handle/123456789/3994 AB - This paper presents the design of a thrust controller for a single-shaft turbofan engine at the operation point defined with following parameters: altitude = 0, Mach number = 0, angle of attack = 0. In that case, the dynamics of the engine depends only of the shaft angular velocity. Mathematical model for controller synthesis is obtained by solution of the set of nonlinear equations. Due to complexity of the engine, parameter uncertainties and exposure to various disturbances during exploitation, the H∞ methodology for controller synthesis is applied. Since H∞ based controller presents linear controller, it requires linear model of the plant for synthesis. Due to that, the plant needs to be linearized. From nonlinear simulation, the 1st order transfer functions can be obtained for selected intervals of shaft angular velocities. For controller synthesis, the fuel supply system is also included as the 1st order transfer function. Since obtained controllers present higher order controllers which may not be feasible for a real-time implementation because of hardware limitations, they are reduced to proportional-integral (PI) controllers by using the balanced reduction. Obtained controllers are then combined via gain-scheduling approach and simulation is performed. PB - Beograd : Srpsko društvo za mehaniku C3 - 8th International Congress of Serbian Society of Mechanics, Kragujevac, Serbia, June 28-30 2021 T1 - H∞ Proportional-Integral Control of a Turbofan Engine EP - 315 SP - 306 UR - https://hdl.handle.net/21.15107/rcub_machinery_3994 ER -
@conference{ author = "Zorić, Nemanja and Jazarević, Vladimir and Obradović, Aleksandar", year = "2021", abstract = "This paper presents the design of a thrust controller for a single-shaft turbofan engine at the operation point defined with following parameters: altitude = 0, Mach number = 0, angle of attack = 0. In that case, the dynamics of the engine depends only of the shaft angular velocity. Mathematical model for controller synthesis is obtained by solution of the set of nonlinear equations. Due to complexity of the engine, parameter uncertainties and exposure to various disturbances during exploitation, the H∞ methodology for controller synthesis is applied. Since H∞ based controller presents linear controller, it requires linear model of the plant for synthesis. Due to that, the plant needs to be linearized. From nonlinear simulation, the 1st order transfer functions can be obtained for selected intervals of shaft angular velocities. For controller synthesis, the fuel supply system is also included as the 1st order transfer function. Since obtained controllers present higher order controllers which may not be feasible for a real-time implementation because of hardware limitations, they are reduced to proportional-integral (PI) controllers by using the balanced reduction. Obtained controllers are then combined via gain-scheduling approach and simulation is performed.", publisher = "Beograd : Srpsko društvo za mehaniku", journal = "8th International Congress of Serbian Society of Mechanics, Kragujevac, Serbia, June 28-30 2021", title = "H∞ Proportional-Integral Control of a Turbofan Engine", pages = "315-306", url = "https://hdl.handle.net/21.15107/rcub_machinery_3994" }
Zorić, N., Jazarević, V.,& Obradović, A.. (2021). H∞ Proportional-Integral Control of a Turbofan Engine. in 8th International Congress of Serbian Society of Mechanics, Kragujevac, Serbia, June 28-30 2021 Beograd : Srpsko društvo za mehaniku., 306-315. https://hdl.handle.net/21.15107/rcub_machinery_3994
Zorić N, Jazarević V, Obradović A. H∞ Proportional-Integral Control of a Turbofan Engine. in 8th International Congress of Serbian Society of Mechanics, Kragujevac, Serbia, June 28-30 2021. 2021;:306-315. https://hdl.handle.net/21.15107/rcub_machinery_3994 .
Zorić, Nemanja, Jazarević, Vladimir, Obradović, Aleksandar, "H∞ Proportional-Integral Control of a Turbofan Engine" in 8th International Congress of Serbian Society of Mechanics, Kragujevac, Serbia, June 28-30 2021 (2021):306-315, https://hdl.handle.net/21.15107/rcub_machinery_3994 .