1. bookVolume 21 (2004): Edition 3 (October 2004)
Détails du magazine
License
Format
Magazine
eISSN
2719-9509
Première parution
01 Jan 1992
Périodicité
4 fois par an
Langues
Anglais
Accès libre

An Experimental and Numerical Analysis of Puff Hydrodynamics

Publié en ligne: 30 Dec 2014
Volume & Edition: Volume 21 (2004) - Edition 3 (October 2004)
Pages: 157 - 166
Reçu: 02 Jul 2003
Accepté: 10 May 2004
Détails du magazine
License
Format
Magazine
eISSN
2719-9509
Première parution
01 Jan 1992
Périodicité
4 fois par an
Langues
Anglais

1. Ohlemiller, T.J.: Modeling of smoldering combustion propagation; Prog. Energy Combustion Sci. 11 (1985) 277–310.10.1016/0360-1285(85)90004-8Search in Google Scholar

2. Summerfield, M, T.J. Ohlemiller, and H.W. Sandusky: A thermophysical mathematical model of steady-draw smoking and predictions of overall cigarette behavior; Combust. Flame 33 (1973) 263–279.Search in Google Scholar

3. Norbury, J. and A.M. Stuart: A model for porous-medium combustion; Q. J. Mech. Appl. Math. 42 (1989) 159–178.10.1093/qjmam/42.1.159Search in Google Scholar

4. Kansa, E.J., H.E. Perlee, and R.F. Chaiken: Mathemat-ical model of wood pyrolysis including internal forced convection; Combust. Flame 29 (1977) 311–324.Search in Google Scholar

5. Leach, S.V., G. Rein, J.L. Ellzey, O.A. Ezekoye, and J.L. Torero: Kinetic and fuel property effects on forward smoldering; Combust. Flame 120 (2000) 346–358.Search in Google Scholar

6. Muramatsu, M., S. Umemura, and T. Okada: A mathe-matical model of evaporation-pyrolysis processes inside a naturally smoldering cigarette; Combust. Flame 36 (1979) 245–262.Search in Google Scholar

7. Sandusky, H.W.: A computer-simulated cigarette model for use in the development of less hazardous cigarette; Ph.D. Thesis, Princeton University, Princeton, NJ, 1976.Search in Google Scholar

8. Di Blasi, C.: Modeling and simulation of combustion processes of charring and non- charring solid fuels; Prog. Energy Combust. Sci. 19 (1993) 71–104Search in Google Scholar

9. Yi, S., E. Song, and M.R. Hajaligol: Mathematical model of smoldering combustion in a carbonaceous porous medium, Part 1– development of pyrolysis and combustion models for a cylindrical geometry; Fire Sci. 19 (2001) 429–448.Search in Google Scholar

10. Rostami, A., J. Murthy and M.R. Hajaligol: Modeling of a smoldering cigarette; J. Anal. Appl. Pyrolysis 66 (2003) 281–301.10.1016/S0165-2370(02)00117-1Search in Google Scholar

11. Rostami, A., J. Murthy, and M.R. Hajaligol: Modeling of the smoldering process in a porous biomass fuel rod; Fuel 83 (2004) 1527–1536.Search in Google Scholar

12. Rostami, A., J. Murthy, and M.R. Hajaligol: Modeling of a smoldering carbonaceous rod; Am. Chem. Soc. meeting; Fuel Division, Orlando, FL, April 2002.Search in Google Scholar

13. Baker, R.R.: The effect of ventilation on cigarette combustion mechanisms; Rec. Adv. Tob. Res. 10 (1984) 88–150.Search in Google Scholar

14. Baker, R.R. and R.A. Crellin: Diffusion of carbon monoxide out of cigarettes; Beitr. Tabakforsch. Int. 9 (1977) 131–140.Search in Google Scholar

15. DeLucia, M.L., C.F. Mattina, and W.A. Selke: Physi-cal parameters that affect composition of smoke; Rec. Adv. Tob. Sci. 6 (1980) 225–238.Search in Google Scholar

16. Masuo, Y., Y. Suga, M. Shibata, A. Terahara, M. Hatakeyama, K. Takeda, N. Yasumatsu, M. Yamazaki, T. Akaki, R. Watanabe, and H. Tanaka: Effect of the degree of perforation of cigarette paper and tipping paper on the performance of filter cigarettes; Part 10, Effect of the components and vented cigarettes on the delivery of smoke constituents and smoking quality; Sci. Papers Cent. Res. Inst. Japan Tobacco & Salt Monop. Corp. 123 (1981) 79–89.Search in Google Scholar

17. Owen, W.F. Jr.: Effect of cigarette paper on smoke yield and composition; Rec. Adv. Tob. Sci. 4 (1978) 3–24.Search in Google Scholar

18. Terahara, A., M. Hatakeyama, K. Maeda, K. Takeda, T. Sawaguri, F. Kondo, Y. Ikuta, and K. Noguchi.: Effect of the degree of perforation of cigarette paper and tipping paper on the performance of filter ciga-rettes, Part 7, On the pressure drop, ventilation rate, delivery of smoke constituents and the reduction of vapor phase components; Sci. Papers Cent. Res. Inst. Japan Tobacco & Salt Monop. Corp. 122 (1980) 103–113.Search in Google Scholar

19. Norman, V.: The effect of perforated tipping paper on the yield of various smoke components; Beitr. Tabak-forsch 7 (1974) 282–287.Search in Google Scholar

20. Masuo, Y., N. Yasumatsu, M. Shibata, and H. Tomita: Effect of the degree of perforation of cigarette paper and tipping paper on the performance of filter ciga-rettes, Part 11. On the relationship between burning characteristics and delivery of smoke constituents; Sci. Papers Cent. Res. Inst. Japan Tobacco & Salt Monop. Corp. 123 (1981) 91–100.Search in Google Scholar

21. Baker, R.R.: Gas velocities inside a burning cigarette; Nature 264 (1976) 167–169.Search in Google Scholar

22. Schneider, W., A. Wenger, D. Hoffmann, and T.C. Tso; The effects of the properties of materials in a cigarette on filter ventilation; Beitr. Tabakfosch. Int. 12 (1984) 123–136.Search in Google Scholar

23. Dullien, F.A.L.: Porous media fluid transport and pore structure; Elsevier Science (USA), 2nd Ed., 1992, pp. 237–240.10.1016/B978-0-12-223651-8.50009-2Search in Google Scholar

24. Warsi, Z.U.A.: Fluid dynamics, theoretical and computational approaches; CRC press, USA, 2nd Ed., 1999, 58–59.Search in Google Scholar

25. Doormal, V. and G.D. Raithby: Enhancements of the SIMPLEC method for predicting incompressible fluid flow; Numer. Heat Transfer 7 (1984) 147–163.Search in Google Scholar

26. Ferziger, J.H. and M. Peric; Computational methods for fluid dynamics, 2nd Ed., Springer-Verlag, Berlin, 1999, pp. 74–75.10.1007/978-3-642-98037-4Search in Google Scholar

27. FLUENT 6.0 UDF Manual, Fluent Inc., Lebanon, NH, Nov. 29, 2001.Search in Google Scholar

28. Baker, R.R.: The kinetics of tobacco pyrolysis; Thermochim. Acta 17 (1976) 29–63.10.1016/0040-6031(76)80043-3Search in Google Scholar

29. Guan, K.: Natural smoldering in cigarettes; Combust. Flame 10 (1966) 161–164.10.1016/0010-2180(66)90063-0Search in Google Scholar

30. Muramatsu, M., S. Umemura, and Okada, T.: Con-sumption of oxygen and heat evolved during natural smolder of a cigarette; J. Chem. Soc. Japan, Chem. Ind. Chem. 10 (1978) 1441–1448.Search in Google Scholar

31. Muramatsu, M.: Studies on the transport phenomena in naturally smoldering cigarettes; Sci. Papers Cent. Res. Inst. Japan Tobacco & Salt Monop. Corp. 123 (1981) 9–77.Search in Google Scholar

32. Parrish, M.E., C.N. Harward, and G. Vilcins: Simulta-neous monitoring of filter ventilation and a gaseous component in whole cigarette smoke using tunable diode laser infrared spectroscopy; Beitr. Tabakforsch. Int. 13 (1986) 169–181.Search in Google Scholar

33. Baker, R.R.: Temperature variation within a cigarette combustion coal during the smoking cycle; High Temp. Sci. 7 (1975) 236–247.Search in Google Scholar

34. Ishizu, Y., K. Ohta, and T. Okada: Changes in the particle size and concentration of cigarette smoke through the column of a cigarette; J. Aerosol Sci. 9 (1978) 25–29.Search in Google Scholar

35. Keith, C.H.: Physical mechanisms of smoke filtration; Rec. Adv. Tob. Sci. 4 (1978) 25–45.Search in Google Scholar

36. Morrie, G.P. Selective filtration of tobacco smoke components: Proceedings 173rd Am. Chem. Soc. Symp., Recent advances in the chemical composition of tobacco and tobacco smoke, 1977, pp. 553–583.Search in Google Scholar

Articles recommandés par Trend MD

Planifiez votre conférence à distance avec Sciendo