Concentration Fluctuation Measurements in Reacting Flows
Mahalingam, S.; Chevray, R.
Annals of the New York Academy of Sciences 404(1): 351-353
1983
ISSN/ISBN: 0077-8923 DOI: 10.1111/j.1749-6632.1983.tb19496.x
Accession: 082604659
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References
McGann, B.; Carter, C.D.; Ombrello, T.; Do, H. 2015: Direct spectrum matching of laser-induced breakdown for concentration and gas density measurements in turbulent reacting flows Combustion and Flame 162(12): 4479-4485Marsi, A.R.; Dibble, R.W.; Barlow, R.S. 1993: Raman-Rayleigh scattering measurements in reacting and non-reacting dilute two-phase flows Journal of Raman Spectroscopy 24(2): 83-89
Roy, S.; Meyer, T.R.; Brown, M.S.; Velur, V.N.; Lucht, R.P.; Gord, J.R. 2003: Triple-pump coherent anti-Stokes Raman scattering (CARS): temperature and multiple-species concentration measurements in reacting flows Optics Communications 224(1-3): 131-137
Brum, R.D.; Samuelsen, G.S. 1987: Two-component laser anemometry measurements on non-reacting and reacting complex flows in a swirl-stabilized model combustor Experiments in Fluids 5(2): 95-102
Zhao, F.Q.; Kadota, T.; Takemoto, T. 1994: Mixture strength measurements in the combustion chamber of Si engine via Rayleigh scattering (Ensemble-averaged concentration fluctuation and cyclic variation of temporal concentration fluctuation near the spark plug) Jsme International Journal. Series B, Fluids and Thermal Engineering 37(1): 139-148
Johnston, S.C.; Dibble, R.W.; Schefer, R.W.; Ashurst, W.T.; Kollmann, W. 1986: Laser measurements and stochastic simulations of turbulent reacting flows AIAA Journal 24(6): 918-937
Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 1993: Closure models for turbulent reacting flows with a nonhomogeneous concentration field Chemical Engineering Science 48(23): 3907-3920
Ribarov, L.A.; Wehrmeyer, J.A.; Hu, S.; Pitz, R.W. 2004: Multiline hydroxyl tagging velocimetry measurements in reacting and nonreacting experimental flows Experiments in Fluids 37(1): 65-74
Nagashima, Y.; Itoh, K.; Itoh, S.; Fujisawa, A.; Yagi, M.; Hoshino, K.; Shinohara, K.; Ejiri, A.; Takase, Y.; Ido, T.; Uehara, K.; Miura, Y. 2007: In search of zonal flows by using direct density fluctuation measurements Plasma Physics and Controlled Fusion 49(10): 1611-1625
Do, H.; Carter, C. 2013: Hydrocarbon fuel concentration measurement in reacting flows using short-gated emission spectra of laser induced plasma Combustion and Flame 160(3): 601-609
Bounif, A.; Senouci, M.; Gokalp, I. 2008: Thermal/Turbulence Time Scale Ratios in Low Exothermic Reacting and Non-reacting Flows Combustion Science and Technology 181(1): 36-67
Bounif, A.; Senouci, M.; Gokalp, I. 2009: Thermal/Turbulence time Scale Ratios in low Exothermic Reacting and Non-Reacting Flows Combustion Science and Technology 181(1-3): 36-67
Arakawa, T.; Nojima, K.; Kobayashi, K.; Tomioka, S. 2021: Fuel/Air Mixing in Reacting and Non-reacting Flows within a Dual-mode Combustor TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES 64(2): 71-81
Anderson, E.C.; Lewis, C.H. 1973: Non-reacting and equilibrium chemically reacting turbulent boundary-layer flows International Journal for Numerical Methods in Engineering 7(1): 1-15
Ohtsuka, M. 1995: Numerical analysis of swirling non-reacting and reacting flows by the Reynolds stress differential method International Journal of Heat and Mass Transfer 38(2): 331-337
Hraiech, I; Sautet, J-Charles; Mergheni, M Ali; Ben Ticha, H; Touati, H; Mhimid, A 2014: Effects of hydrogen addition and Carbone dioxide dilution on the velocity field in non reacting and reacting flows International Journal of Hydrogen Energy 39(34): 19818-19831
Qazi Zade, A.; Renksizbulut, M.; Friedman, J. 2008: Slip/jump boundary conditions for rarefied reacting/non-reacting multi-component gaseous flows International Journal of Heat and Mass Transfer 51(21-22): 5063-5071
Lappas, T.; Leonard, A.; Dimotakis, P.E. 1993: An adaptive Lagrangian method for computing 1D reacting and non-reacting flows Journal of Computational Physics 104(2): 361-376
Roy, S.; Kinnius, P.J.; Lucht, R.P.; Gord, J.R. 2008: Temperature measurements in reacting flows by time-resolved femtosecond coherent anti-Stokes Raman scattering (fs-CARS) spectroscopy Optics Communications 281(2): 319-325
Roy, S.; Jiang, N.; Hsu, P.S.; Yi, T.; Slipchenko, M.N.; Felver, J.J.; Estevadeordal, J.; Gord, J.R. 2018: Development of a three-legged, high-speed, burst-mode laser system for simultaneous measurements of velocity and scalars in reacting flows Optics Letters 43(11): 2704-2707