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Combustion Science and Technology Volume 190, 2018 - Issue 1
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Short Communication

Comment on “Experimental Studies of Magnetic Effect on Methane Laminar Combustion Characteristics”

Ömer L. GülderInstitute for Aerospace Studies, University of Toronto, Toronto, ON, CanadaCorrespondence[email protected]
Pages 186-188 | Accepted 11 Sep 2017, Published online: 28 Sep 2017

References

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  • Charest, M.R.J., Groth, C.P.T., and Gülder, Ö.L. 2011. Effects of gravity and pressure on laminar co-flow methane-air diffusion flames at pressures from 1 to 60 atmospheres. Combust. Flame, 158, 860–875.
  • Charest, M.R.J., Gülder, Ö.L., and Groth, C.P.T. 2014. Numerical and experimental study of soot formation in laminar diffusion flames burning simulated biogas fuels at elevated pressures. Combust. Flame, 161, 2678–2691.
  • McEnally, C.S., and and Pfefferle, L.D. 1998. Soot formation in methane/air nonpremixed flames doped with small quantities of C3 hydrocarbons. Combust. Flame, 112, 545–558.
  • Roper, F.G. 1977. The prediction of laminar jet diffusion flame sizes: Part I. Theoretical model. Combust. Flame, 29, 219–226.
  • Roper, F.G., Smith, C., and Cunningham, A.C. 1977. The prediction of laminar jet diffusion flame sizes: Part II. Experimental verification. Combust. Flame, 29, 227–234.
  • Smooke. M.D., Long, M.B., Connelly, B.C., Colket, M.B., and Hall, R.J. 2005. Soot formation in laminar diffusion flames. Combust. Flame, 143, 613–628.
  • Sun, Z., Dally, B., Nathan, G., and Alwahabi, Z. 2017. Effects of hydrogen and nitrogen on soot volume fraction, primary particle diameter and temperature in laminar ethylene/air diffusion flames. Combust. Flame, 175, 270–282.
  • Wu, W.-F., Qua, J., Zhanga, K., Chena, W.-P., and Lia, B.-W. 2016. Experimental studies of magnetic effect on methane laminar combustion characteristics. Combust. Sci. Technol., 188, 472–480.

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