Numéro |
J. Phys. III France
Volume 2, Numéro 7, July 1992
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Page(s) | 1331 - 1357 | |
DOI | https://doi.org/10.1051/jp3:1992103 |
J. Phys. III France 2 (1992) 1331-1357
Active control : an investigation method for combustion instabilities
T. Poinsot, B. Yip, D. Veynante, A. Trouvé, J. M. Samaniego and S. CandelE.M2.C. Laboratory, C.N.R.S. and E.C.P., Ecole Centrale Paris, 92295 Châtenay-Malabry, France
(Received 17 October 1991, revised 30 January 1992, accepted 28 March 1992)
Abstract
Closed-loop active control methods and their application to combustion instabilities are discussed. In these methods the instability
development is impeded with a feedback control loop : the signal provided by a sensor monitoring the flame or pressure oscillations
is processed and sent back to actuators mounted on the combustor or on the feeding system. Different active control systems
tested on a non-premixed multiple-flame turbulent combustor are described. These systems can suppress all unstable plane modes
of oscillation (i.e. low frequency modes). The active instability control (AIC) also constitutes an original and powerful
technique for studies of mechanisms leading to instability or resulting from the instability. Two basic applications of this
kind are described. In the first case the flame is initially controlled with AIC, the feedback loop is then switched off and
the growth of the instability is analysed through high speed Schlieren cinematography and simultaneous sound pressure and
reaction rate measurements. Three phases are identified during th growth of the oscillations : (1) a linear phase where acoustic
waves induce a flapping motion of the flame sheets without interaction between sheets, (2) a modulation phase, where flame
sheets interact randomly and (3) a nonlinear phase where the flame sheets are broken and a limit cycle is reached. In the
second case we investigate different types of flame extinctions associated with combustion instability. It is shown that pressure
oscillations may lead to partial or total extinctions. Extinctions occur in various forms but usually follow a rapid growth
of pressure oscillations. The flame is extinguished during the modulation phase observed in the initiation experiments. In
these studies devoted to transient instability phenomena, the control system constitutes a unique investigation tool because
it is difficult to obtain the same information by other means. Implications for modelling and prediction of combustion instabilities
are discussed.
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