MINISTERUL ADMINISTRAŢIEI ŞI INTERNELOR - IGSU
MINISTERUL ADMINISTRAŢIEI ŞI INTERNELOR - IGSU
MINISTERUL ADMINISTRAŢIEI ŞI INTERNELOR - IGSU
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BIBLIOGRAFIE<br />
1. Moghtaderi, B., V. Novozhilov, D. F. Fletcher şi J. H. Kent (1997), An integral model<br />
for the transient pyrolysis of solid materials, Fire and Materials, 21(1): 7-16.<br />
2. Spearpoint, M. J. şi J. G. Quintiere (2000), Predicting the burning of wood using an<br />
integral model, Combustion and Flame, 123: 308-324.<br />
3. Spearpoint, M. J. şi J. G. Quintiere (2001), Predicting the Piloted Ignition of Wood in<br />
the Cone Calorimeter Using an Integral Model - Effect of Species, Grain Orientation<br />
and Heat Flux, Fire Safety Journal, 36: pp 391 - 415.<br />
4. Kung, H. C. (1972), A mathematical model of wood pyrolysis, Combustion and Flames,<br />
18: 185-195.<br />
5. Blasi, C. D., S. Crescitelli, G. Russo şi A. C. Fernandez-Pello (1993), 2nd Int. Symp. On<br />
Fire Safety Science, Hemisphere Pub. Co.<br />
6. Parker, W. J. (1992), Prediction of the heat release rate from basic measurements, Heat<br />
Release in Fires. V. Babrauskas and S. J. Grayson. London and New York, Elsevier<br />
Applied Science. 2: 333-356.<br />
7. Atreya, A. (1984), Pyrolysis, Ignition and Fire Spread on Horizontal Surface of Wood,<br />
NBS-GCR-83-449, National Bureau of Standard.<br />
8. Quintiere, J. G. şi B. Rhodes (1994), "Fire growth models for materials", NIST-GCR-<br />
94-647, National Institute of Standards and Technology.<br />
9. Spearpoint, M. J. şi J. G. Quintiere (2001), Predicting the Piloted Ignition of Wood in<br />
the Cone Calorimeter Using an Integral Model - Effect of Species, Grain Orientation<br />
and Heat Flux, Fire Safety Journal, 36: pp 391 - 415.<br />
10. Janssens, M. (1994), Thermo-physical properties for wood pyrolysis models, Pacific<br />
Timber Engineering Conference, Gold Coast, Australia.<br />
11. Janssens, M. L. (2004), Modeling of the thermal degradation of structural wood<br />
members exposed to fires, Fire and Materials, 28: 199-207.<br />
12. White, R. şi E. Nordheim (1992), Charring rate of wood for ASTM E119 exposure, Fire<br />
Technology, 28: 5-30.<br />
13. Yuen, R., R. Casey, G. d. V. Davis, E. Leonardi, G. H. Yeoh, V. Chandrasekaran şi S. J.<br />
Grubits (1997), Three-dimensional mathematical model for the pyrolysis of wet wood,<br />
Fire Safety Science - Proc. 5th Interl. Symp., International Association of Fire Safety<br />
Science.<br />
14. Bonnefoy, F., P. Gilot şi G. Prado (1993), A three-dimensional model for the<br />
determination of kinetic data from the pyrolysis of beech wood, Journal of Analytical<br />
and Applied Pyrolysis, 25: 387-394.
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