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Combustion Science and Technology Volume 190, 2018 - Issue 6
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Original Articles

Influence of flame dynamics on the optimal control of combustion with uncertainties

Isil YazarSchool of Engineering and Material Science, Queen Mary, University of London, London, UKView further author information
,
Fikret CaliskanFaculty of Electrical and Electronics Engineering, Istanbul Technical University, Istanbul, TurkeyView further author information
&
Ranjan VepaSchool of Engineering and Material Science, Queen Mary, University of London, London, UKCorrespondence[email protected]
View further author information
Pages 983-1006 | Received 14 Jan 2017, Accepted 29 Dec 2017, Published online: 26 Feb 2018

References

  • Annaswamy, A.M., El Rifai, O.M., Fleifil Hathout, J.P., and Ghoniem, A.F. 1998. A model-based self-tuning controller for thermoacoustic instability. Combustion Sci. Technol., 135(1–6), 213–240.
  • Annaswamy, A.M., Fleifil, M., Rumsey, J.W., Prasanth, R., Hathout, J.P., and Ghoniem, A.F. 2002. Thermoacoustic instability: model-based optimal control designs and experimental validation. IEEE Trans. Control Syst. Technol., 8(6), 905–918.
  • Annaswamy, A.M., and Ghoniem, A.F. 2002. Active control of combustion instability: theory and practice. IEEE Control Syst. Mag., 22(6), 37–54.
  • Annaswamy, M.A. 2006. Nonlinear modeling and control of combustion dynamics, In: Koumoutsakos P., Mezic I. (eds), Control of Fluid Flow, Volume 330 of the series Lecture Notes in Control and Information Sciences. Springer, 95–121.
  • Bouziani, F., Landau, I.D., and Bitmead, R. (2007). Quenching oscillations in combustion instabilities using model-based closed-loop multiplicative control, European Control Conference, ECC’07, 2-5 July 2007, Kos, Greece.
  • Campos-Delgado, D.U., Schuermans, B.B.H., Zhou, K.M., Paschereit, C.O., Gallestey, E.A., and Poncet, A. 2003a. Thermoacoustic instabilities: modeling and control. IEEE Trans. Control Syst. Technol., 11(4), 429–447.
  • Campos-Delgado, D.U., Zhou, K., Allgood, D.C., and Acharya, S. 2003b. Active control of combustion instabilities using model-based controllers. Combustion Sci. Technol., 175(1), 27–53.
  • Colaneri, P., Geromel, J.C., and Locatelli, A. 1997. Control Theory and Design: An RH2-RH1 Viewpoint, Academic Press, San Diego, CA., USA.
  • Culick, F.E.C. 1976. Nonlinear behavior of acoustic waves in combustion chambers-I. Acta Astronaut, 3, 715–734.
  • Culick, F.E.C. (1988). Combustion instabilities in liquid-fueled propulsion systems—an overview, AGARD Conf. Proc., 40.
  • Culick, F.E.C. 1994. Some recent results for nonlinear acoustics in combustion chambers. Aiaa J., 32(1), 146–169.
  • De Oliveira, M.C., Geromel, J.C., and Bernussou, J. 2002. Extended H2 and H∞ norm characterizations and controller parametrizations for discrete-time systems. Int. J. Control, 75(9), 666–679.
  • DeLaat, J.C., Kopasakis, G., Saus, J.R., Chang, C.T., and Wey, C. (2012). Active combustion control for aircraft gas-turbine engines—experimental results for an advanced, Low-Emissions Combustor Prototype, NASA/TM—2012-217617, AIAA–2012–783, July.
  • Dowling, A.P., and Morgans, A.S. 2005. Feedback control of combustion oscillations. Annu Rev Fluid Mech, 37, 151–182.
  • Doyle, J.C., Glover, K., Khargonekar, P.P., and Francis, B. 1989. State-space solutions to the standard H2 and H∞ control problems. IEEE Trans. Automat. Contr., 34, 831–847.
  • Fung, Y.-T., and Yang, V. 1992. Active control of nonlinear pressure oscillations in combustion chambers. J. Prop. Power, 8, 1282–1289.
  • Fung, Y.-T., Yang, V., and Sinha, A. 1991. Active control of combustion instabilities with distributed actuators. Combustion Sci. Technol., 78, 217–245.
  • Guyot, D., Rößler, M., Bothien, M.R., and Paschereit, C.O. (2007). Active control of combustion instability using pilot and premix fuel modulation, 14th International Congress on Sound and Vibration, ICSV14, Cairns, Australia, July.
  • Hathout, J.P., Annaswamy, A.M., Fleifil, M., and Ghoniem, A.F. 1998. A model-based active control design for thermoacoustic instability. Combustion Sci. Technol., 132(1–6), 99–138.
  • Hong, B.-S., Ray, A., and Yang, V. 2002. Wide-range robust control of combustion instability. Combustion and Flame, 128, 242–258.
  • Hong, B.-S., Yang, V., and Ray, A. 2000. Robust feedback control of combustion instability with modeling uncertainty. Combustion and Flame, 120, 91–106.
  • Jain, H., Ananthkrishnan, N., and Culick, F.E.C. (2005). Feedback-linearization-based adaptive control and estimation of a nonlinear combustion instability model, AIAA Guidance, Navigation, and Control Conference and Exhibit San Francisco, California.
  • Julier, S.J. 2002. The scaled unscented transformation. Proc. Am. Control Conf., 6, 4555–4559.
  • Julier, S.J., and Uhlmann, J. 2000. Unscented filtering and nonlinear estimation. Proc. IEEE, 92(3), 401–422.
  • Julier, S.J., Uhlmann, J., and Durrant-Whyte, H.F. 2000. A new method for the nonlinear transformation of means and covariances in filters and estimators. IEEE Trans. On Automat. Contr., 45(3), 477–482.
  • Khargonekar, P.P., and Rotea, M.A. 1991. Mixed H2/H∞ control: a convex optimization approach. IEEE Trans. On Automat. Contr., 36(7), 824–837.
  • Lovett, J.A., Teerlinck, K.A., and Cohen, J.M. (2008). Demonstration of active combustion control, NASA Report CR-2008-215491, December
  • Murugappan, S., Acharya, S., Allgood, D.C., Park, S., Annaswamy, A.M., and Ghoniem, A.F. 2003. Optimal control of a swirl-stabilized spray combustor using system identification approach. Combustion Sci. Technol., 175(1), 55–81.
  • Paparizos, L.G., and Culick, F.E.C. 1989. The two-mode approximation to nonlinear acoustics in combustion chambers 1: exact solution for second-order acoustics. Comb. Sci. Tech., 65, 39–65.
  • Riley, A., Park, S., Dowling, A.P., Evesque, S., and Annaswamy, A.M. (2003). Adaptive closed-loop control on atmospheric gaseous lean-premixed combustor, ASME/IGTI Turbo Expo, Atlanta, Ga., USA.
  • van den Boom, J.D.B.J., Lopez, I., Schreel, K.R.A.M., De Goey, L.P.H., and Nijmeijer, H. 2005. Linear control strategies for the suppression of flame instabilities, In Vandooren, J. Eds. Proceedings of the Fourth European Combustion Meeting 2005, paper 192 Louvain-la-Neuve, Belgium.
  • Vepa, R. 2012. Unscented H∞ estimator based nonlinear suspension and tracking of mobile vehicles. IEEE Trans. On Vehicular. Tech., 61(4), 1543–1552.
  • Yang, V., Kim, S.-I., and Culick, F.E.C. (1987). Third-order nonlinear acoustic waves and triggering of pressure oscillations in combustion chambers, part I: longitudinal modes, AIAA-87-1873, AIAA/SAE/ASME/ASEE 23rd Joint Propulsion Conf., San Diego, Ca., USA, pp. 1–9.
  • Zhou, K., Doyle, J.C., and Glover, K. 1995. Robust and Optimal Control, Prentice Hall, Upper Saddle River, New Jersey, USA.

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