| 1 - 1 |
Oxyflame Workshop
Kneer R |
| 2 - 14 |
On the accuracy of Lagrangian point-mass models for heavy non-spherical particles in isotropic turbulence
Schneiders L, Meinke M, Schroder W |
| 15 - 28 |
Resolved simulations of single char particle combustion in a laminar flow field
Farazi S, Sadr M, Kang S, Schiemann M, Vorobiev N, Scherer V, Pitsch H |
| 29 - 38 |
A flamelet/progress variable approach for modeling coal particle ignition
Vascellari M, Tufano GL, Stein OT, Kronenburg A, Kempf AM, Scholtissek A, Hasse C |
| 39 - 52 |
Evaluation of coal particle volatiles reaction by using detailed kinetics and FGM tabulated chemistry
Knappstein R, Kuenne G, Meier T, Sadiki A, Janicka J |
| 53 - 64 |
An evaluation of the efficacy of various coal combustion models for predicting char burnout
McConnell J, Goshayeshi B, Sutherland JC |
| 65 - 80 |
Relevance of structure, fragmentation and reactivity of coal to combustion and oxy-combustion
Senneca O, Scala F, Chirone R, Salatino P |
| 81 - 92 |
Measurement of reaction rates for pulverized fuel combustion in air and oxyfuel atmosphere using a novel fluidized bed reactor setup
Govert B, Pielsticker S, Kreitzberg T, Habermehl M, Hatzfeld O, Kneer R |
| 93 - 98 |
Experimental and theoretical analyses on ignition and surface temperature of dispersed coal particles in O-2/N-2 and O-2/CO2 ambients
Yuan Y, Li SQ, Xu Y, Yao Q |
| 99 - 104 |
The influence of iron oxide on the oxidation kinetics of synthetic char derived from thermogravimetric analysis and fixed-bed experiments under isothermal and temperature-programmed conditions
Dudder H, Lotz K, Wutscher A, Muhler M |
| 105 - 110 |
Release of sulfur and chlorine gas species during coal combustion and pyrolysis in an entrained flow reactor
Frigge L, Strohle J, Epple B |
| 111 - 117 |
Soot reduction in an entrained flow gasifier of biomass by active dispersion of fuel particles
Goktepe B, Umeki K, Hazim A, Lundstrom TS, Gebart R |
| 118 - 123 |
Separation and characterization of carbonaceous particulate (soot and char) produced from fast pyrolysis of coal in inert and CO2 atmospheres
Apicella B, Senneca O, Russo C, Heuer S, Cortese L, Cerciello F, Scherer V, Schiemann M, Ciajolo A |
| 124 - 135 |
Experimental investigation of flame stabilization inside the quarl of an oxyfuel swirl burner
Becker LG, Kosaka H, Bohm B, Doost S, Knappstein R, Habermehl M, Kneer R, Janicka J, Dreizler A |
| 136 - 147 |
Experimental investigation of pulverized coal flames in CO2/O-2- and N-2/O-2-atmospheres: Comparison of solid particle radiative characteristics
Zabrodiec D, Hees J, Massmeyer A, vom Lehn F, Habermehl M, Hatzfeld O, Kneer R |
| 148 - 155 |
Super-adiabatic flame temperatures in premixed methane flames: A comparison between oxy-fuel and conventional air combustion
Stelzner B, Weis C, Habisreuther P, Zarzalis N, Trimis D |
| 156 - 164 |
A comparison between the stabilization of premixed swirling CO2-diluted methane oxy-flames and methane/air flames
Jourdaine P, Mirat C, Caudal J, Lo A, Schuller T |
| 165 - 175 |
Large Eddy Simulation of CO2 diluted oxy-fuel spray flames
Ma LK, Huang X, Roekaerts D |
