REFERENCES
- CANTERA . ( 2005 ) Object-Oriented Software for Reacting Flows , http://www.cantera.org
- Chen , Y.-C. , Peters , N. , Schneemann , G.A. , Wruck , N. , Renz , U. , and Mansour , M.S. ( 1996 ) The detailed flame structure of highly turbulent premixed methane-air flames . Combust. Flames , 107 , 233 – 244 .
- Christo , F.C. and Dally , B. ( 2005 ) Modeling turbulent reacting jets issuing into a hot and diluted coflow . Combust. Flame , 142 ( 1–2 ), 117 – 129 .
- Coelho , P.J. and Peters , N. ( 2001 ) Numerical simulation of a mild combustion burner . Combust. Flame , 124 , 503 – 518 .
- Dally , B. , Riesmeier , E. , and Peters , N. ( 2004 ) Effect of fuel mixture on moderate and intense low oxygen dilution combustion . Combust. Flame , 137 , 418 – 431 .
- DaSilva , C. and Métais , O. (2002) Vortex control of bifurcating jets: A numerical study. Phys. Fluids , 14, 3798–3819.
- Ducros , F. , Comte , P. , and Lesieur , M. ( 1996 ) Large-eddy simulation of transition to turbulence in a boundary layer spatially developing over a flat plate . J. Fluid Mech. , 326 , 1 – 36 .
- Duwig , C. and Fuchs , L. ( 2006 ) Modeling of flameless combustion using large eddy simulation . In Proc. TurboExpo 2006 , ASME Paper GT-2006-90063 .
- Duwig , C. , Fuchs , L. , Griebel , P. , Siewert , P. , and Boschek , E. ( 2007 ) Study of a confined turbulent jet: Influence of combustion and pressure on the flow . AIAA J. , 45 ( 3 ), 624 – 639 .
- Flamme , M. ( 2004 ) New combustion systems for gas turbines (NGT) . App. Thermal Eng. , 24 , 1551 – 1559 .
- Gullbrand , J. , Bai , X.S. , and Fuchs , L. ( 2001 ) High-order Cartesian Grid Method for Calculation of Incompressible Turbulent Flows . Int. J. Num. Meth. Fluids , 36 , 687 – 709 .
- Huang , H. , Dabiri , D. , and Gharib , M. ( 1997 ) On errors of digital particle image velocimetry . Meas. Sci. Technol. , 8 , 1427 – 1440 .
- Jeong , J. and Hussain , F. 1995 . On the identification of a vortex . J. Fluid Mech. , 285 , 69 – 94 .
- Jiang , G.S. and Shu , C.W. ( 1996 ) Efficient implementation of weighted ENO schemes . J. Comp. Phys. , 126 , 202 .
- Katsuki , M. and Hasegawa , T. ( 1998 ) The science and technology of combustion in highly preheated air . Proc. Combust. Instit. , 27 , 3135 – 3146 .
- Kim , S.H. , Huh , K.Y. , and Dally , B. ( 2005 ) Conditional moment closure modeling of turbulent nonpremixed combustion in diluted hot coflow . Proc. Combust. Instit. , 30 , 751 – 757 .
- Levy , Y. , Sherbaum , V. , and Arfi , P. ( 2004 ) Basic thermodynamics of FLOXCOM, the low-NO x gas turbines adiabatic combustor . App. Thermal Eng. , 24 , 1593 – 1605 .
- Li , G. , Gutmark , E.J. , Stankovic , D. , Overman , N. , Cornwell , M. , Fuchs , L. , and Milosavljevic , V. ( 2006a ) Experimental study of flameless combustion in gas turbine combustors . AIAA paper 2006-546 .
- Li , G. , Gutmark , E.J. , Overman , N. , Cornwell , M. , Stankovic , D. , Fuchs , L. , and Milosavljevic , V. ( 2006b ) Experimental study of a gas turbine combustor . In Proc. TurboExpo 2006 , ASME paper GT-2006-91051 .
- Lückerath , R. , Schütz , H. , Noll , B. , and Aigner , M. ( 2005 ) Experimental Investigations of FLOX Combustion at High Pressure . Proceedings of the Flameless Workshop, Lund 2005 (available upon request : [email protected]) .
- Maas , U. and Pope , S.B. ( 1992 ) Simplifying chemical kinetics: Intrinsic low-dimensional manifolds in composition space . Combust. Flame , 88 , 239 – 264 .
- Olsson , M. and Fuchs , L. ( 1996 ) Large eddy simulation of the proximal region of a spatially developing circular jet . Phys. Fluids , 8 , 2125 – 2137 .
- Pierce , C. and Moin , P. 1998 . A dynamic model for subgrid scale variance and dissipation rate of a conserved scalar . AIAA J. , 36 ( 7 ), 1325 – 1327 .
- Poinsot , T. and Veynante , D. ( 2001 ) Theoretical and Numerical Combustion . RT Edwards , Philadelphia.
- San Diego ( 2005 ) Chemical oxidation mechanism release 2005/06/15, http://maemail.ucsd.edu/combustion/cermech/sandiego20050615.mec .
- Wünning , J.A. and Wünning , J.G. ( 1997 ) Flameless oxidation to reduce thermal no-formation . Prog. Energy Combust. Sci. , 23 , 81 – 94 .