Flame Structure And Soot Formation In Inverse Diffusion Flames
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Author | : Mark Alexander Mikofski |
Publisher | : |
Total Pages | : 394 |
Release | : 2005 |
Genre | : |
ISBN | : |
Download Flame Structure and Soot Formation in Inverse Diffusion Flames Book in PDF, Epub and Kindle
Author | : eO L. Geulder |
Publisher | : |
Total Pages | : |
Release | : 1989 |
Genre | : |
ISBN | : |
Download Soot Formation in Laminar Diffusion Flames Book in PDF, Epub and Kindle
Author | : |
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Total Pages | : |
Release | : 2017 |
Genre | : |
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Download A Computational Study of Soot Formation and Flame Structure of Coflow Laminar Methane/air Diffusion Flames Under Microgravity and Normal Gravity Book in PDF, Epub and Kindle
Author | : Guozheng Lin |
Publisher | : |
Total Pages | : 568 |
Release | : 1996 |
Genre | : Flame |
ISBN | : |
Download Hydrodynamic Effects on Soot Formation in Laminar Hydrocarbon-fueled Diffusion Flames Book in PDF, Epub and Kindle
Author | : Richard L. Axelbaum |
Publisher | : |
Total Pages | : 510 |
Release | : 1988 |
Genre | : |
ISBN | : |
Download A Fundamental Study of Soot Formation in Diffusion Flames Book in PDF, Epub and Kindle
Author | : Hyun Il Joo |
Publisher | : |
Total Pages | : |
Release | : 2010 |
Genre | : |
ISBN | : |
Download Soot Formation in Non-premixed Laminar Flames at Subcritical and Supercritical Pressures Book in PDF, Epub and Kindle
An experimental study was conducted using axisymmetric co-flow laminar diffusion flames of methane-air, methane-oxygen and ethylene-air to examine the effect of pressure on soot formation and the structure of the temperature field. A liquid fuel burner was designed and built to observe the sooting behavior of methanol-air and n-heptane-air laminar diffusion flames at elevated pressures up to 50 atm. A non-intrusive, line-of-sight spectral soot emission (SSE) diagnostic technique was used to determine the temperature and the soot volume fraction of methane-air flames up to 60 atm, methane-oxygen flames up to 90 atm and ethylene-air flames up to 35 atm. The physical flame structure of the methane-air and methane-oxygen diffusion flames were characterized over the pressure range of 10 to 100 atm and up to 35 atm for ethylene-air flames. The flame height, marked by the visible soot radiation emission, remained relatively constant for methane-air and ethylene-air flames over their respected pressure ranges, while the visible flame height for the methane-oxygen flames was reduced by over 50 % between 10 and 100 atm. During methane-air experiments, observations of anomalous occurrence of liquid material formation at 60 atm and above were recorded. The maximum conversion of the carbon in the fuel to soot exhibited a strong power-law dependence on pressure. At pressures 10 to 30 atm, the pressure exponent is approximately 0.73 for methane-air flames. At higher pressures, between 30 and 60 atm, the pressure exponent is approximately 0.33. The maximum fuel carbon conversion to soot is 12.6 % at 60 atm. For methane-oxygen flames, the pressure exponent is approximately 1.2 for pressures between 10 and 40 atm. At pressures between 50 and 70 atm, the pressure exponent is about -3.8 and approximately -12 for 70 to 90 atm. The maximum fuel carbon conversion to soot is 2 % at 40 atm. For ethylene-air flames, the pressure exponent is approximately 1.4 between 10 and 30 atm. The maximum carbon conversion to soot is approximately 6.5 % at 30 atm and remained constant at higher pressures.
Author | : Henning Bockhorn |
Publisher | : Springer Science & Business Media |
Total Pages | : 595 |
Release | : 2013-03-08 |
Genre | : Science |
ISBN | : 3642851673 |
Download Soot Formation in Combustion Book in PDF, Epub and Kindle
Soot Formation in Combustion represents an up-to-date overview. The contributions trace back to the 1991 Heidelberg symposium entitled "Mechanism and Models of Soot Formation" and have all been reedited by Prof. Bockhorn in close contact with the original authors. The book gives an easy introduction to the field for newcomers, and provides detailed treatments for the specialists. The following list of contents illustrates the topics under review:
Author | : Srinivasan Nittala |
Publisher | : |
Total Pages | : 150 |
Release | : 1991 |
Genre | : |
ISBN | : |
Download Structure of Sooting Turbulent Diffusion Flames Book in PDF, Epub and Kindle
Author | : |
Publisher | : |
Total Pages | : |
Release | : 2006 |
Genre | : |
ISBN | : |
Download Soot Formation in Non-premixed Laminar Flames at Subcritical and Supercritical Pressures Book in PDF, Epub and Kindle
An experimental study was conducted using axisymmetric co-flow laminar diffusion flames of methane-air, methane-oxygen and ethylene-air to examine the effect of pressure on soot formation and the structure of the temperature field. A liquid fuel burner was designed and built to observe the sooting behavior of methanol-air and n-heptane-air laminar diffusion flames at elevated pressures up to 50 atm. A non-intrusive, line-of-sight spectral soot emission (SSE) diagnostic technique was used to determine the temperature and the soot volume fraction of methane-air flames up to 60 atm, methane-oxygen flames up to 90 atm and ethylene-air flames up to 35 atm. The physical flame structure of the methane-air and methane-oxygen diffusion flames were characterized over the pressure range of 10 to 100 atm and up to 35 atm for ethylene-air flames. The flame height, marked by the visible soot radiation emission, remained relatively constant for methane-air and ethylene-air flames over their respected pressure ranges, while the visible flame height for the methane-oxygen flames was reduced by over 50 % between 10 and 100 atm. During methane-air experiments, observations of anomalous occurrence of liquid material formation at 60 atm and above were recorded. The maximum conversion of the carbon in the fuel to soot exhibited a strong power-law dependence on pressure. At pressures 10 to 30 atm, the pressure exponent is approximately 0.73 for methane-air flames. At higher pressures, between 30 and 60 atm, the pressure exponent is approximately 0.33. The maximum fuel carbon conversion to soot is 12.6 % at 60 atm. For methane-oxygen flames, the pressure exponent is approximately 1.2 for pressures between 10 and 40 atm. At pressures between 50 and 70 atm, the pressure exponent is about -3.8 and approximately -12 for 70 to 90 atm. The maximum fuel carbon conversion to soot is 2 % at 40 atm. For ethylene-air flames, the pressure exponent is approximately 1.4 between 10 and 30 atm. The maximu.
Author | : Jianyi Du |
Publisher | : |
Total Pages | : 208 |
Release | : 1995 |
Genre | : |
ISBN | : |
Download Effects of Flame Structure on Soot-particle Inception in Diffusion Flames Book in PDF, Epub and Kindle