References
- Uechi H, Kimijima S, Kasagi N. Cycle analysis of gas turbine-fuel cell cycle hybrid micro generation system. J Eng Gas Turbines Power. 2004;126:755–762.
- Correa SM. A review of NOx formation under gas turbine combustion conditions. Combust Sci Tech. 1992;87:329–362.
- Lefebvre AH. The role of fuel preparation in low-emission combustion. J Eng Gas Turbines Power – Trans ASME. 1995;117:617–654.
- Sato H, Mori M, Nakamura T. Development of a dry ultra-low NOx double swirler staged gas turbine combustor. J Eng Gas Turbine Power – Trans ASME. 1998;120:41–47.
- Champagne FH, Wygnanski IJ. An experimental investigation of coaxial turbulent jets. Int J Heat Mass Trans. 1971;14:1445–1464.
- Ko NWM, Kwan ASH. The initial region of subsonic coaxial jets. J Fluid Mech. 1976;73:305–332.
- Ko NWM, Au H. Coaxial jets of different mean velocity ratios. J Sound Vib. 1985;100:211–232.
- Au H, Ko NWM. Coaxial jets of different mean velocity ratios – part 2. J Sound Vib. 1987;116:427–443.
- Favre-Marinet M, Camano Schettini EB. The density field of coaxial jets with large velocity ratio and large density differences. Int Heat Mass Transfer. 2001;44:1913–1924.
- Favre-Marinet M, Camano Schettini EB, Sarboch J. Near-field of coaxial jets with large density differences. Exp Fluids. 1999;26:97–106.
- Dahm WJA, Frieler CE, Tryggvason G. Vortex structure and dynamics in the near field of a coaxial jet. J Fluid Mech. 1992;241:371–402.
- Rehab H, Villermaux E, Hopfinger EJ. Flow regimes of large-velocity-ratio coaxial jets. J Fluid Mech. 1997;345:357–381.
- Hussain AKMF, Zaman KBMQ. The preferred mode of the axisymmetric jet. J Fluid Mech. 1981;110:39–71.
- Crow SC, Champagne FH. Orderly structure in jet turbulence. J Fluid Mech. 1971;48:547–591.
- Zaman KBMQ, Hussain AKMF. Vortex pairing in a circular jet under controlled excitation. J Fluid Mech. 1980;101:449–491.
- Ho CM, Huerre P. Perturbed free shear layers. Ann Rev Fluid Mech. 1984;16:365–424.
- Tang SK, Ko NWM. Experimental investigation of the structure interaction in an excited coaxial jet. Exp Therm Fluid Sci. 1994;8:214–229.
- Chandra PR, Lau CL, Acharya S. Effect of multi-modal forcing on thermal transport in a coaxial combustor geometry. Exp Thermal Fluid Sci. 2003;27:215–225.
- Wicker RB, Eaton JK. Near field of a coaxial jet with and without axial excitation. AIAA J. 1994;32:542–546.
- Davis SA, Glezer A. The manipulation of large- and small-scales in coaxial jets using synthetic jet actuators ( AIAA paper 2000-0403). Reston (VA): American Institute of Aeronautics and Astronautics; 2000.
- Ritchie BD, Mujumdar DR, Seitzman JM. Mixing in coaxial jets using synthetic jet actuators ( AIAA paper 2000-0404). Reston (VA): American Institute of Aeronautics and Astronautics; 2000.
- McManus KR, Poinsot T, Candel SM. A review of active control of combustion instabilities. Prog Energy Combust Sci. 1993;19:1–29.
- Candel S. Combustion dynamics and control: progress and challenges. Proc Combust Inst. 2002;29:1–28.
- McManus KR, Vandsburger U, Bowman CT. Combustor performance enhancement through direct shear layer excitation. Combust Flame. 1990;82:75–92.
- Cantwell BJ. Organized motion of turbulent-flow. Ann Rev Fluid Mech. 1981;13:457–515.
- Ho CM, Tai YC. Review: MEMS and its applications for flow control. ASME Int Fluids Eng. 1996;118:437–447.
- Suzuki H, Kasagi N, Suzuki Y. Active control of an axisymmetric jet with distributed electromagnetic flap actuators. Exp Fluids. 2004;36:498–509.
- Kurimoto N, Suzuki Y, Kasagi N. Active control of lifted diffusion flames with arrayed micro actuators. Exp Fluids. 2005;39:995–1008.
- Lozano A, Yip B, Hanson RK. Acetone: a tracer for concentration measurements in gaseous flows by planar laser-induced fluorescence. Exp Fluids. 1992;13:369–376.
- Melling, A. Tracer particles and seeding for particle image velocimetry. Meas Sci Technol. 1997;8:1406–1416.
- Kean RD, Adrian RJ. Optimization of particle image velocimeters. Part I: double pulsed systems. Meas Sci Technol. 1990;1:1202–1215.
- Kean RD, Adrian RJ. Theory of cross-correlation analysis of PIV images. J App Sci Res. 1992;49:191–215.
- ANSI/ASME PTC 19.1. Measurement uncertainty. Supplement on instruments and apparatus. part 1. ASME; 1985.
- Prasad AK. Stereoscopic particle image velocimetry. Exp Fluids. 2000;29:103–116.
- Adrian RJ, Christensen KT, Liu ZC. Analysis and interpretation of instantaneous turbulent velocity fields. Exp Fluids. 2000;29:275–290.
- Chao YC, Jeng MS. Behavior of the lifted jet flame under acoustic excitation. Proc Combust Inst. 1992;24:333–340.
- Chao YC, Yuan T, Tseng CS. Effect of flame lifting and acoustic excitation on the reduction of NOx emissions. Combust Sci Tech. 1996;113:49–65.
- Chao YC, Wu CY, Yuan AT. Stabilization process of a lifted flame tuned by acoustic excitation. Combust Sci Tech. 2002;174:87–110.
- Chao YC, Jong YC, Sheu HW. Helical-mode excitation of lifted flames using piezoelectric actuators. Exp Fluids. 2000;28:11–20.
- Liepmann D, Gharib M. The role of streamwise vorticity in the near-field entrainment of round jets. J Fluid Mech. 1992:245:643–668.
- Lasheras J, Cho J, Maxworthy T. On the origin and evolution of streamwise vortical structures in a plane free shear layer. J Fluid Mech. 1986;172:231–258.