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Original Articles

Reduced Gravity Combustion of Propanol Droplets in Oxygen-Inert Environments

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Pages 1480-1494 | Received 17 Mar 2009, Accepted 01 Jul 2009, Published online: 07 Dec 2009

REFERENCES

  • Aharon , I. , and Shaw , B.D. 1997 . On the roles of thermal diffusion and distinct binary diffusion coefficients in modeling droplet flame locations in microgravity . Micrograv. Sci. Technol. , 10 , 75 .
  • Axelbaum , R.L. , and Law , C.K. 1990 . Soot formation and inert addition in diffusion flames . Proc. Combust. Inst. , 23 , 1517 .
  • Bae , J.H. , and Avedisian , C.T. 2007 . Experimental study of the effect of helium/nitrogen concentration and initial droplet diameter on nonane droplet combustion with minimal convection . Proc. Combust. Inst. , 31 , 2157 .
  • Dakka , S.M. , and Shaw , B.D. 2006 . Influences of pressure on reduced-gravity combustion of 1-propanol droplets . Micrograv. Sci. Technol. , 18 , 5 .
  • Dee , V. , and Shaw , B.D. 2004 . Combustion of propanol-glycerol mixture droplets in reduced gravity . Int. J. Heat Mass Transfer , 47 , 4857 .
  • Du , D.X. , Axelbaum , R.L. , and Law , C.K. 1988 . Experiments on the sooting limits of aerodynamically strained diffusion flames . Proc. Combust. Inst. , 22 , 387 .
  • Friedman , R. , and Ross , H.D. 2001. Combustion technology and fire safety for human-crew space missions. In Ross , H.D. (Ed.) Microgravity Combustion—Fire in Free Fall , Academic Press , New York, p. 525.
  • Glassman , I. 1988 . Sooting laminar diffusion flames: Effect of dilution, additives, pressure, and microgravity . Proc. Combust. Inst. , 27 , 1589 .
  • Gulder , O.L. , and Snelling , D.R. 1993 . Influence of nitrogen dilution and flame temperature on soot formation in diffusion flames . Combust. Flame , 92 , 115 .
  • Guo , H. , Liu , F. , Smallwood , G.J. , and Gulder , O.L. 2002 . A numerical study of the influence of transport properties of inert diluents on soot formation in a coflow laminar ethylene/air diffusion flame . Proc. Combust. Inst. , 29 , 2359 .
  • Guo , H.S. , Liu , F. S. , Smallwood , G.J. , and Gulder , O.L. 2004 . A numerical investigation of thermal diffusion influence on soot formation in ethylene/air diffusion flames . Int. J. Comp. Fluid Dyn. , 18 , 131 .
  • Law , C.K. , Chung , S.H. , and Srinivasan , N. 1980 . Gas-phase quasisteadiness and fuel vapor accumulation effects in droplet burning . Combust. Flame , 38 , 219 .
  • Lekan , J. , Gotti , D.J. , Jenkins , A.J. , Owens , J.C. , and Johnston , M.R. 1996 . User's guide for the 2.2 second drop tower of the NASA Lewis Research Center , NASA Technical Memorandum 107090 .
  • Park , S.H. , Choi , S.C. , Choi , M.Y. , and Yozgatligil , A. 2008 . New observations of isolated ethanol droplet flames in microgravity conditions . Combust. Sci. Technol. , 180 , 631 .
  • Schug , K.P. , Manheimer-Timnat , Y. , Yaccarino , P. , and Glassman , I. 1980 . Sooting behavior of gaseous hydrocarbon diffusion flames and the influence of additives . Combust. Sci. Technol. , 132 , 235 .
  • Shaw , B.D. , and Dee , V. 2005 . Influence of gas-phase transport on reduced-gravity combustion of decane/hexadecane droplets . Micrograv. Sci. Technol. , 17 , 26 .
  • Shaw , B.D. , and Wei , J.B. 2007 . Propanol droplet flammability and combustion in air-diluent environments under normal and reduced gravity . Combust. Sci. Technol. , 179 , 1205 .
  • Vieille , B. , Chauveau , C. , Chesneau , X. , Odeide , A. , and Gokalp , I. 1996 . High-pressure droplet burning experiments in microgravity . Proc. Combust. Inst. , 26 , 1259 .
  • Williams , F.A. 1984 . Combustion Theory, , 2nd ed ., Benjamin/Cummings , Menlo Park , California .
  • Williams , F.A. 1985 . Ignition and burning of single liquid droplets . Acta Astronautica , 12 , 547 .

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