@techreport{oai:jaxa.repo.nii.ac.jp:00002197,
 author = {立花, 繁 and Zimmer, Laurent and 黒澤, 要治 and 鈴木, 和雄 and Tachibana, Shigeru and Zimmer, Laurent and Kurosawa, Yoji and Suzuki, Kazuo},
 month = {Mar},
 note = {An active control of combustion driven oscillations occurring in a lean-premixed model combustor is demonstrated by means of a secondary fuel injection. An unstable condition, which leads to self-excited pressure oscillations beyond 170 dB, is chosen as control target. Keeping the inlet air temperature, the air mass flow rate and the overall equivalence ratio, respectively, at 700 K, 78 g/s and 0.50, different secondary fuel injection strategies are examined. First, a series of experiments of steady secondary fuel injection is performed using five types of injectors, with Secondary Fuel Percentage (SFP) varying from 2 to 10 percent. Effects of the angle, location and amount of injection on pressure levels are investigated. A favorable injector is selected from a point of view of control effectiveness, which is evaluated by the reduction in the peak pressure. The degree of phase-coupling between pressure and heat-release rate is visualized by a phase-locked chemiluminescence imaging technique. This information is used to detect local sources of instability. To further improve control effectiveness, a feedback control which was designed by the mixed H(sup 2)/H(sup infinity) control algorithm, is applied with the selected injector. The feedback control with 2.5 percent SFP performs peak pressure reduction of 27.7 dB, which is almost 10 dB larger than that of the steady injection method. On the other hand, little difference exists between the NO(x) emissions of the steady injection and the feedback control. An obvious effectiveness of the feedback control is confirmed without losing the low NO(x) capability., 資料番号: AA0063469000, レポート番号: JAXA-RR-06-034},
 title = {希薄予混合ガスタービン燃焼器で発生する振動燃焼の能動制御による抑制},
 year = {2007}
}