This paper introduces a methodology for the design of gust load control systems directly from large aeroelastic models with relaxation of spatial discretisation. A convenient state-space representation of the vortex-panel unsteady aerodynamics suitable for control synthesis is presented. This allows a full understanding of the dynamics of the linearized vortex aeroelastic model and is suitable for control system design. Through the use of robust controllers, large reductions in loading could be achieved. Comparisons are also made between robust and classical control methods. It further demonstrates that controllers synthesized from models of coarse spatial discretizations and of an order of magnitude smaller in size were capable of rejecting disturbances on fully converged models, with performances comparable to expensive higher order controllers developed from full models

Graham, JMR

Kerrigan, EC

Ng, BF

Palacios, R

English

04/03/14 meb. Ok to add, authors retain copyright.This paper introduces a methodology for the design of gust load control systems directly from large aeroelastic models with relaxation of spatial discretisation. A convenient state-space representation of the vortex-panel unsteady aerodynamics suitable for control synthesis is presented. This allows a full understanding of the dynamics of the linearized vortex aeroelastic model and is suitable for control system design. Through the use of robust controllers, large reductions in loading could be achieved. Comparisons are also made between robust and classical control methods. It further demonstrates that controllers synthesized from models of coarse spatial discretizations and of an order of magnitude smaller in size were capable of rejecting disturbances on fully converged models, with performances comparable to expensive higher order controllers developed from full models

Spiral - Imperial College Digital Repository

A beddoes-leishman type dynamic stall model in state-space and indicial formulations.

A comparison of smart rotor control approaches using trailing edge aps and individual pitch control.

A dynamic stall model for airfoils with deformable trailing edges.

Active aerodynamic blade distributed ﬂap control design proceedure for load reduction on the UPWIND 5MW wind turbine.

Active aerodynamics blade control design for load reduction on large wind turbines.

Aeroelastic analysis of a non-linear airfoil based on unsteady vortex lattice model.

Aeroelastic modelling and comparison of advanced active ﬂap control concepts for load reduction on the UPWIND 5MW wind turbine.

Camber effects in the dynamic aeroelasticity of compliant airfoils.

Computational investigations of small deploying tabs and ﬂaps for aerodynamic load control.

Computational Study of the Risø-B1-18 Airfoil Equipped with Actively Controlled Trailing Edge Flaps.

Concept study of smart rotor blades for large offshore wind turbines.

Eigenanalysis of unsteady ﬂows about airfoils, cascades, and wings.

Essentials of robust control.

Feedback systems : An introduction for scientists and engineers.

General theory of aerodynamic instability and the mechanism of ﬂutter.

Guaranteed margins for lqg regulators.

Gust alleviation using rapidly deployed trailing-edge ﬂaps.

Individual blade pitch control for load reduction.

Linear robust control.

Load alleviation on wind turbine blades using variable airfoil geometry.

Load Reduction Using Rapidly Deployed Trailing-Edge Flaps. PhD thesis,

Low speed aerodynamics. Cambridge aerospace series.

Mechanical vibrations: theory and application to structural dynamics.

Modelling of nonlinear ﬂexible aircraft dynamics including free-wake effects.

Modern control engineering. Prentice Hall, Upper Saddle River, NJ, 4th edition,

Monte carlo turbulence simulation using rational approximations to von K´ arm´ an spectra.

Multivariable feedback control : analysis and design.

Multivariable feedback design.

Potential load reduction using airfoils with variable trailing edge geometry.

Principles of helicopter aerodynamics. Cambridge aerospace series.

Results of Theodorsen and Garrick Revisited.

Review of state of the art in smart rotor control research for wind turbines.

Robust manoeuvring and gust alleviation of very ﬂexible aircraft using novel control.

Stability investigation of an airfoil section with active ﬂap control.

State of the art in wind turbine aerodynamics and aeroelasticity.

The potentials of the controllable rubber trailing edge ﬂap.

Unsteady 2D potential-ﬂow forces on a thin variable geometry airfoil undergoing arbitary motion.

When is the discretization of a spatially distributed system good enough for control?

Zusammenfassender Bericht ¨ uber den instation¨ aren Auftried von Fl¨ ugeln.

Robust Control Synthesis for Gust Load Alleviation from Large Aeroelastic Models with Relaxation of Spatial Discretisation

Robust Control Synthesis for Gust Load Alleviation from Large Aeroelastic Models with Relaxation of Spatial Discretisation

Abstract

Similar works

Full text

Available Versions

Spiral - Imperial College Digital Repository