Evaporation and combustion of sprays
暂无分享,去创建一个
[1] A. Gosman,et al. Aspects of Computer Simulation of Liquid-Fueled Combustors , 1983 .
[2] Jim Swithenbank,et al. Three-Dimensional Model of Spray Combustion in Gas Turbine Combustors , 1982 .
[3] Gerard M. Faeth,et al. Combustion properties of carbon slurry drops , 1982 .
[4] O. L. Anderson,et al. Analytical modeling of operating characteristics of premixing-prevaporizing fuel-air mixing passages. Volume 2: User's manual , 1982 .
[5] P. B. Whalley,et al. Thermohydraulics of two-phase systems for industrial design and nuclear engineering , 1981 .
[6] C. Law,et al. A unified criterion for the convective extinction of fuel particles , 1981 .
[7] O. Anderson. Calculation of internal viscous flows in axisymmetric ducts at moderate to high reynolds numbers , 1980 .
[8] James H. Whitelaw,et al. Calculation of the Flow Properties of a Confined Kerosene-Spray Flame , 1980 .
[9] A. Chraplyvy,et al. Diagnostic Measurements of Fuel Spray Dispersion , 1980 .
[10] P. T. Harshat,et al. Modeling Techniques for the Analysis of Ramjet Combustion Processes , 1980 .
[11] M. Labowsky. Calculation of the Burning Rates of Interacting Fuel Droplets , 1980 .
[12] J. Dukowicz. A particle-fluid numerical model for liquid sprays , 1980 .
[13] C. Law,et al. An Ignition Criterion for Droplets in Sprays , 1980 .
[14] C. Mao,et al. Evaluation of a locally homogeneous flow model of spray combustion , 1980 .
[15] J. Driscoll,et al. Turbulent Eddy Diffusivity and Mean Eddy Lifetimes Measured in Spray Combuston , 1980 .
[16] A. D. Gosman,et al. COMPUTER ANALYSIS OF FUEL-AIR MIXING IN DIRECT-INJECTION ENGINES , 1980 .
[17] N. Zuber,et al. Drag coefficient and relative velocity in bubbly, droplet or particulate flows , 1979 .
[18] G. Faeth,et al. Evaluation of a Locally Homogeneous Flow Model of Spray Evaporation , 1979 .
[19] R. Peskin,et al. Numerical Simulation of Particulate Motion in Turbulent Gas-Solid Channel Flow , 1979 .
[20] P. Hutchinson,et al. The Interaction of Solid or Liquid Particles and Turbulent Fluid Flow Fields—A Numerical Simulation , 1979 .
[21] W. K. Melville,et al. A model of the two-phase turbulent jet , 1979 .
[22] William A. Sirignano,et al. Theory of convective droplet vaporization with unsteady heat transfer in the circulating liquid phase , 1979 .
[23] R. Edelman,et al. Application of modular modeling to ramjet performance prediction , 1978 .
[24] H. Mongia,et al. An empirical/analytical design methodology for gas turbine combustors , 1978 .
[25] T. J. Kotas,et al. Drag on a sphere in unsteady motion in a liquid at rest , 1978, Journal of Fluid Mechanics.
[26] S. Prakash,et al. Liquid fuel droplet heating with internal circulation , 1978 .
[27] G. Faeth,et al. Evaluation of a locally homogeneous model of spray evaporation , 1978 .
[28] M. Labowsky,et al. A Formalism for Calculating the Evaporation Rates of Rapidly Evaporating Interacting Particles , 1978 .
[29] Tomosada Jotaki,et al. Particle turbulent diffusion in a dust laden round jet , 1978 .
[30] Essam E. Khalil,et al. Measurement and Calculation of Furnace-Flow Properties , 1977 .
[31] J. Sangiovanni,et al. A Theoretical and Experimental Investigation of the Ignition of Fuel Droplets , 1977 .
[32] C. Crowe,et al. The Particle-Source-In Cell (PSI-CELL) Model for Gas-Droplet Flows , 1977 .
[33] S. Kar,et al. An Investigation on the Diffusion of Momentum and Mass of Fuel in a Diesel Fuel Spray , 1977 .
[34] G. Faeth,et al. Combustion of liquid sprays at high pressures , 1977 .
[35] G. Hetsroni,et al. Numerical calculations of two-phase turbulent round jet , 1977 .
[36] K. Bray,et al. A unified statistical model of the premixed turbulent flame , 1977 .
[37] H. M. Ruppel,et al. YAQUI user's manual for fireball calculations , 1976 .
[38] H. C. Simmons. The Correlation of Drop-Size Distributions in Fuel Nozzle Sprays—Part I: The Drop-Size/Volume-Fraction Distribution , 1976 .
[39] M. C. Yuen,et al. On Drag of Evaporating Liquid Droplets , 1976 .
[40] Essam E. Khalil,et al. The Calculation of Furnace-Flow Properties and Their Experimental Verification , 1976 .
[41] 敏一 角田,et al. 高温高圧の気体中における単一液滴の蒸発 : 第2報, 理論的研究 , 1976 .
[42] A. Gany,et al. Two-phase flow effects on hybrid combustion , 1976 .
[43] Forman A. Williams,et al. Asymptotic theory of diffusion-flame extinction in the stagnation-point boundary layer☆ , 1976 .
[44] A. A. Amsden,et al. Flow of interpenetrating material phases , 1975 .
[45] C. Law. Asymptotic theory for ignition and extinction in droplet burning , 1975 .
[46] F. C. Lockwood,et al. The prediction of the fluctuations in the properties of free, round-jet, turbulent, diffusion flames , 1975 .
[47] Amable Liñán,et al. The asymptotic structure of counterflow diffusion flames for large activation energies , 1974 .
[48] N. Chigier,et al. Combustion of droplets in sprays , 1974 .
[49] F. Lockwood,et al. The Prediction of Axisymmetric Turbulent Swirling Boundary Layers , 1974 .
[50] M. Cowperthwaite,et al. TIGER Computer Program Documentation , 1974 .
[51] H. Hiroyasu,et al. Fuel Droplet Size Distribution in Diesel Combustion Chamber , 1974 .
[52] Frediano V. Bracco,et al. Theoretical Analysis of Stratified, Two-Phase Wankel Engine Combustion , 1973 .
[53] Alan Williams,et al. Combustion of droplets of liquid fuels: A review , 1973 .
[54] G. P. Lilly,et al. Effect of Particle Size on Particle Eddy Diffusivity , 1973 .
[55] R. W. Bilger,et al. Measurements in Turbulent Jet Diffusion Flames , 1973 .
[56] C. W. Hirt,et al. YAQUI: an arbitrary Lagrangian--Eulerian computer program for fluid flow at all speeds , 1973 .
[57] Sanford Gordon,et al. Computer program for calculation of complex chemical equilibrium compositions , 1972 .
[58] C. W. Hirt,et al. PARTICULATE TRANSPORT IN HIGHLY DISTORTED THREE-DIMENSIONAL FLOW FIELDS. , 1972 .
[59] A. Kesten. Analysis of NO Formation in Single Droplet Combustion , 1972 .
[60] S. M. Shahed,et al. NITRIC OXIDE FORMATION AROUND DROPLETS BURNING AT ELEVATED PRESSURES , 1972 .
[61] G. Batchelor. Sedimentation in a dilute dispersion of spheres , 1972, Journal of Fluid Mechanics.
[62] G. M. Faeth,et al. Fuel droplet burning rates in a combustion gas environment , 1971 .
[63] J. Aldred,et al. The mechanism of combustion of droplets and spheres of liquid n-heptane , 1971 .
[64] G. N. Abramovich. Effect of solid-particle or droplet admixture on the structure of a turbulent gas jet , 1971 .
[65] J. A. Newman,et al. Behavior of a Liquid Jet near the Thermodynamic Critical Region , 1971 .
[66] R. Clift,et al. Motion of entrained particles in gas streams , 1971 .
[67] J. Lumley,et al. Some measurements of particle velocity autocorrelation functions in a turbulent flow , 1971, Journal of Fluid Mechanics.
[68] F. Frishman,et al. Assumptions used in calculating the two-phase jet , 1970 .
[69] B. Wood,et al. An experimental study of fuel droplet ignition , 1969 .
[70] Israel J Wygnanski,et al. Some measurements in the self-preserving jet , 1969, Journal of Fluid Mechanics.
[71] G. Wallis. One Dimensional Two-Phase Flow , 1969 .
[72] M. Ogasawara,et al. Study on the Burning of a Fuel Drop in Heated and Pressurized Air Stream : 1st Report, Experiment , 1969 .
[73] C. Polymeropoulos,et al. Ignition and extinction of liquid fuel drops—Numerical computations , 1969 .
[74] W. Gauvin,et al. Effects of turbulence on the drag coefficients of spheres in a supercritical flow Ŕegime , 1969 .
[75] D. Pei,et al. Simultaneous heat and mass transfer from a single sphere to a turbulent air stream , 1969 .
[76] E. R. G. Eckert,et al. The effect of turbulence parameters and support position on the heat transfer from spheres , 1968 .
[77] W. Gauvin,et al. Effects of turbulence on particulate heat and mass transfer , 1968 .
[78] W. Gauvin,et al. Drag coefficients of evaporating spheres in a turbulent air stream , 1968 .
[79] C. Polymeropoulos,et al. Results from a theoretical study of fuel drop ignition and extinction. , 1967 .
[80] H. C. Hottel,et al. The nozzle-fluid concentration field of the round, turbulent, free jet , 1967, Journal of Fluid Mechanics.
[81] T. R. Galloway,et al. Thermal and material transport from spheres: Prediction of macroscopic thermal and material transport , 1967 .
[82] D. Pei,et al. The effect of fluid turbulence on the rate of heat transfer from spheres , 1967 .
[83] H. Wise,et al. A theory for ignition and deflagration of fuel drops. , 1966 .
[84] Fuat Odar,et al. Verification of the proposed equation for calculation of the forces on a sphere accelerating in a viscous fluid , 1966, Journal of Fluid Mechanics.
[85] P. Saffman. The lift on a small sphere in a slow shear flow , 1965, Journal of Fluid Mechanics.
[86] F. Fendell. Ignition and extinction in combustion of initially unmixed reactants , 1965, Journal of Fluid Mechanics.
[87] T. R. Galloway,et al. Thermal and material transfer in turbulent gas streams—A method of prediction for spheres , 1964 .
[88] R. Eichhorn,et al. Experiments on the lift and drag of spheres suspended in a Poiseuille flow , 1964, Journal of Fluid Mechanics.
[89] Wallis S. Hamilton,et al. Forces on a sphere accelerating in a viscous fluid , 1964, Journal of Fluid Mechanics.
[90] W. Gauvin,et al. The drag coefficients of single spheres moving in steady and accelerated motion in a turbulent fluid , 1961 .
[91] S. I. Rubinow,et al. The transverse force on a spinning sphere moving in a viscous fluid , 1961, Journal of Fluid Mechanics.
[92] W. Gauvin,et al. Fundamental aspects of solids-gas flow: Part V: The effects of fluid turbulence on the particle drag coefficient , 1960 .
[93] W. Gauvin,et al. Fundamental aspects of solids-gas flow: Part IV: The effects of particle rotation, roughness and shape , 1960 .
[94] F. Williams. On the Assumptions Underlying Droplet Vaporization and Combustion Theories , 1960 .
[95] W. Gauvin,et al. Fundamental aspects of solids‐gas flow: Part III. Accelerated motion of a particle in a fluid , 1959 .
[96] W. Gauvin,et al. Fundamental aspects of solids‐gas flow: Part I: Introductory concepts and idealised sphere motion in viscous regime , 1959 .
[97] A. Putnam,et al. INJECTION AND COMBUSTION OF LIQUID FUELS , 1957 .
[98] A. Berlad,et al. Effect of radiant energy on vaporization and combustion of liquid fuels , 1952 .
[99] W. C. SWINBANK,et al. Collisions of Cloud Droplets , 1947, Nature.
[100] J. W. Maccoll. Aerodynamics of a Spinning Sphere , 1928, The Journal of the Royal Aeronautical Society.
[101] G. Faeth,et al. Effects of envelope flames on drop gasification rates in turbulent diffusion flames , 1983 .
[102] G. Faeth,et al. Evaluation of a stochastic model of particle dispersion in a turbulent round jet , 1983 .
[103] W. Siekhaus,et al. Interaction of moderately dense particle concentrations in turbulent flow , 1981 .
[104] Robert W. Bilger,et al. Molecular Transport Effects in Turbulent Diffusion Flames at Moderate Reynolds Number , 1981 .
[105] A. Gosman,et al. Aspects of computer simulation of liquid-fuelled combustors , 1981 .
[106] G. Faeth,et al. Combustion of carbon slurry drops in a turbulent diffusion flame , 1981 .
[107] Charles A. Amann,et al. Combustion Modeling in Reciprocating Engines , 1980 .
[108] Arthur Henry Lefebvre,et al. Gas turbine combustor design problems , 1980 .
[109] G. Faeth. Spray combustion models - A review , 1979 .
[110] R. Reitz. Atomization and other breakup regimes of a liquid jet , 1978 .
[111] C. Law. Theory of thermal ignition in fuel droplet burning , 1978 .
[112] Martin Summerfield,et al. Theoretical examination of assumptions commonly used for the gas phase surrounding a burning droplet , 1978 .
[113] F. C. Lockwood,et al. The modelling of turbulent premixed and diffusion combustion in the computation of engineering flows , 1977 .
[114] R. Reid,et al. The Properties of Gases and Liquids , 1977 .
[115] A. R. Jones. A review of drop size measurement — the application of techniques to dense fuel sprays , 1977 .
[116] Gerard M. Faeth,et al. CURRENT STATUS OF DROPLET AND LIQUID COMBUSTION , 1977 .
[117] D. B. Spalding,et al. Mathematical Models of Turbulent Flames; A Review , 1976 .
[118] Alan Williams,et al. Combustion of sprays of liquid fuels , 1976 .
[119] A. Williams. FUNDAMENTALS OF OIL COMBUSTION , 1976 .
[120] N. Chigier. The atomization and burning of liquid fuel sprays , 1976 .
[121] A. Melling,et al. Principles and practice of laser-Doppler anemometry , 1976 .
[122] Robert W. Bilger. Turbulent jet diffusion flames , 1976 .
[123] L. Caretto. Mathematical modeling of pollutant formation , 1976 .
[124] Toshikazu Kadota,et al. Ignition Delay of a Fuel Droplet in High Pressure Gaseous Environments , 1975 .
[125] A. A. Amsden,et al. Numerical calculation of multiphase fluid flow , 1975 .
[126] David T. Harrje,et al. Liquid Propellant Rocket Combustion Instability. NASA SP-194 , 1972 .
[127] J. Thome,et al. Convective Boiling and Condensation , 1972 .
[128] B. Launder,et al. Mathematical Models of turbulence , 1972 .
[129] D. B. Spalding,et al. Concentration fluctuations in a round turbulent free jet , 1971 .
[130] J. Nicholls,et al. Aerodynamic shattering of liquid drops. , 1968 .
[131] J. Prausnitz,et al. Computer calculations for high-pressure vapor-liquid equilibria , 1968 .
[132] S. L. Soo,et al. Fluid dynamics of multiphase systems , 1967 .
[133] L. F. Mockros,et al. Motion of discrete particles in a turbulent fluid , 1966 .
[134] J. Happel,et al. Low Reynolds number hydrodynamics , 1965 .