Advanced search
Publication Cover
Combustion Science and Technology Volume 180, 2008 - Issue 3
Submit an article Journal homepage
178
Views
5
CrossRef citations to date
0
Altmetric
Original Articles

Effect of Non-Luminous Flame Radiation During Methanol Droplet Combustion

Vasudevan Raghavan Department of Mechanical Engineering, University of Nebraska, Lincoln, Lincoln, Nebraska
,
Daniel N. Pope Department of Mechanical and Industrial Engineering, University of Minnesota, Duluth, Minnesota
&
George Gogos Department of Mechanical Engineering, University of Nebraska, Lincoln, Lincoln, NebraskaCorrespondence[email protected]
Pages 546-564 | Published online: 23 Jan 2008

REFERENCES

  • Aharon , I. and Shaw , B.D. ( 1996 ) Marangoni instability of bi-component droplet gasification . Phys. Fluids , 8 , 1820 .
  • Barlow , R.S. , Karpetis , A.N. , Frank J.H. , and Chen , J.Y. ( 2001 ) Scalar profiles and no formation in laminar opposed-flow partially premixed methane/air flames . Combust. Flame , 127 , 2102 .
  • Choi , M.Y. , Cho , S.Y. , Dryer , F.L. , and Haggard , J.B. (1998) Some Observations on the Burning of Methanol Droplets in Microgravity Using Various Inert Gases. Paper No. 73, Eastern States Section Meeting, The Combustion Institute, Albany, NY .
  • Cho , S.Y. , Choi , M.Y. , and Dryer , F.L. ( 1990 ) Extinction of a free methanol droplet in microgravity . Proc. Combust. Instit. , 23 , 1611 .
  • Choi , M.Y. , Dryer , F.L. , Haggard , J.B. , and Brace , M. ( 1988 ) The Burning Behavior of Methanol Droplets in Humid Air . Paper No. 98, Eastern States Section Meeting, The Combustion Institute, Albany, NY .
  • Dietrich , D.L. , Haggard , J.B. Jr. , Dryer , F.L. , Nayagam V. , Shaw , B.D. , and Williams , F.A. ( 1996 ) Droplet combustion experiments in space lab . Proc. Combust. Instit. , 26 , 1201 .
  • Dwyer , H.A. , Aharon , I. , Shaw , B.D. , and Niazmand , H. ( 1996 ) Surface tension influences on methanol droplet vaporization in the presence of water . Proc. Combust. Instit. , 26 , 1613 .
  • Dwyer , H.A. and Sanders , B.R. ( 1988 ) Calculations of unsteady reacting droplet flows . Proc. Combust. Instit. , 22 , 1923 .
  • Dwyer , H.A. and Shaw , B.D. ( 2001 ) Marangoni and stability studies on fiber-supported methanol droplets evaporating in reduced gravity . Combustion Sci. Technol. , 162 , 331 .
  • Dwyer , H.A. , Shaw , B.D. , and Niazmand , H. ( 1998 ) Droplet/flame interactions including surface tension influences . Proc. Combust. Instit. , 27 , 1951 .
  • Gore , J.P. , Lim , J. , Takeno , T. , and Zhu , X.L. ( 1999 ) A Study of the Effects of Thermal Radiation on the Structure of Methane/Air Counter-flow Diffusion Flames using Detailed Chemical Kinetics . 5th ASME/JSME Joint Thermal Engineering Conference , San Diego California, No. ATJE99-6311 .
  • Hara , H. and Kumagai , S. ( 1994 ) The effect of initial diameter on free droplet combustion with spherical flame . Proc. Combust. Instit. , 25 , 423 .
  • Kim , O.J. , Gore , J.P. , Viskanta , R. , and Zhu , X.L. ( 2003 ) Prediction of self-absorption in opposed flow diffusion and partially premixed flames using a weighted sum of gray gases model (WSGGM)-based spectral model . Numer. Heat Trans. Part A , 44 , 335 .
  • Kurihara , K. , Nakamichi , M. , and Kojima , K. ( 1993 ) Isobaric vapor-liquid equilibria for the methanol + ethanol + water and the three constituent binary systems . Amer. Chem. Eng. Soc. , 38 , 449 .
  • Lee , A. and Law , C.K. ( 1992 ) An experimental investigation on the vaporization and combustion of methanol and ethanol droplets . Combust. Sci. Technol. , 86 , 253 .
  • Liu , F. , Guo , H. , Smallwood , G.J. , and Gulder , O.L. ( 2002 ) Effects of gas and soot radiation on soot formation in a coflow laminar ethylene diffusion flame . J. Quant. Spectrosc. Radia. Trans. , 73 , 409 .
  • Marchese , A.J. and Dryer , F.L. ( 1996 ) The effect of liquid mass transport on the combustion and extinction of bi-component droplets of methanol and water . Combust. Flame , 105 , 104 .
  • Marchese , A.J. and Dryer , F.L. ( 1997 ) The effect of non-luminous thermal radiation in microgravity droplet combustion . Combust. Sci. Technol. , 124 , 371 .
  • Marchese , A.J. , Dryer , F.L. , Colantonio , R.O. , and Nayagam , V. ( 1996 ) Microgravity combustion of methanol and methanol/water droplets: Drop tower experiments and model predictions . Proc. Combust. Instit. , 26 , 1209 .
  • Marchese , A.J. , Dryer , F.L. , and Colantonio , R.O. ( 1998 ) Radiative effects in space-based methanol/water droplet combustion experiments . Proc. Combust. Instit. , 27 , 2627 .
  • McBride , B.J. , Sanford , G. , and Reno , M.A. ( 1993 ) Coefficients for calculating thermodynamic and transport properties of individual species . NASA Tech. Memorandum 4513 .
  • Okai , K. , Moriue , O. , Araki , M. , Tsue , M. , Kono , M. , Sato , J. , Dietrich , D.L. , and Williams , F.A. ( 2000 ) Pressure effects on combustion of methanol and methanol/dodecanol single droplets and droplet pairs in microgravity . Combust. Flame , 121 , 501 .
  • Patankar , S.V. (1980) Numerical Heat Transfer and Fluid Flow, Hemisphere Publishing Corporation , New York.
  • Pope . D.N. and Gogos , G. ( 2005a ) A new multi-component diffusion formulation for the finite volume method: Application to convective droplet combustion . Numer. Heat Trans. Pt. B , 48 ( 3 ), 213 .
  • Pope . D.N. and Gogos , G. ( 2005b ) Numerical simulation of fuel droplet extinction due to forced convection . Combustion and Flame , 142 , 89 .
  • Pope , D.N. , Howard , D. , Lu , K. , and Gogos , G. ( 2005 ) Combustion of moving droplets and suspended droplets: Transient numerical results . AIAA J. Thermophys. Heat Trans. , 19 ( 3 ), 273 .
  • Raghavan , V. , Pope , D.N. , Howard , D. , and Gogos , G. ( 2006 ) Surface tension effects during low reynolds number methanol droplet combustion . Combust. Flame , 145 , 791 .
  • Reid , R.C. , Prausnitz , J.M. , and Poling , B.E. ( 1987 ) The Properties of Gases and Liquids , McGraw-Hill Inc. , New York .
  • Saitoh , T. , Yamazaki , K. , and Viskanta , R. ( 1993 ) Effect of thermal radiation on transient combustion of a fuel droplet . AIAA J. Thermophys. Heat Trans. , 7 ( 1 ), 94 .
  • Santos , B.M.S. , Ferriera , A.G.M. , and Fonseca , I.M.A. ( 2003 ) Surface tension and interfacial tensions of the systems water + n-butyl acetate, methanol + water, n-pentyl acetate + methanol at 303.15 K . Fluid Phase Equil. , 208 , 1 .
  • Shaw , B.D. ( 1990 ) Studies of influences of liquid-phase species diffusion on spherically symmetric combustion of miscible binary droplets . Combust. Flame , 81 , 277 .
  • Shih , A.T. and Megaridis , C.M. ( 1996 ) Thermo-capillary flow effects on convective droplet evaporation . Inter. J. Heat Mass Trans. , 39 ( 2 ), 247 .
  • Teja , A.S. and Rice , P. ( 1981 ) Generalized corresponding states method for the viscosities of liquid mixtures . Ind. Eng. Chem. Fund. , 20 , 77 .
  • Teja , A.S. ( 1983 ) Simple method for the calculation of heat capacities of liquid mixtures . Amer. Chem. Eng. Soc. , 28 , 83 – 85 .
  • Van Doormal , J.P. and Raithby , G.D. ( 1984 ) Enhancements of the SIMPLE method for predicting incompressible fluid flows . Numer. Heat Trans. , 7 , 147 .
  • Vargaftik , N.B. , Vinogradov , Y.K. , and Yargin , V.S. ( 1996 ) Handbook of Physical Properties of Liquids and Gases: Pure Substances and Mixture , Begell House, Inc. , New York .
  • Vinokur , M. ( 1983 ) On one-dimensional stretching functions for finite-difference calculations . J. Comput. Phys. , 50 , 215 .
  • Viskanta , R. and Menguc , M.P. ( 1987 ) Radiation heat transfer in combustion systems . Prog. Energy Combust. Sci. , 13 , 97 .
  • Westbrook , C.H. and Dryer , F.L. ( 1981 ) Simplified reaction mechanisms for the oxidation of hydrocarbon fuels in flames . Combust. Sci. Technol. , 27 , 31 .
  • Yang , J.C. , Jackson , G.S. , and Avedisian , C.T. ( 1990 ) Combustion of unsupported methanol/dodecanol mixture droplets at low gravity . Proc. Combust. Instit. , 23 , 1619 .
  • Zhang , B.L. , Card , J.M. , and Williams , F.A. ( 1996 ) Application of rate-ratio asymptotics to the prediction of extinction for methanol droplet combustion . Combust. Flame , 105 , 267 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.