Results of a study on combustion of solids in an enclosed volume

The paper presents the results of laboratory experiments to study the parameters of the gas environment during the combustion of wood, rubber and plastic under conditions that exclude oxygen access to the reaction area. A laboratory bench has been developed to create the conditions. Graphs of temperature changes and reduction of light transmission of combustion products accumulated in the upper part of the combustion chamber layer have been obtained. Changes of the controlled parameters are analysed and correlation dependences between them are obtained. The results obtained can be used as estimates for building prediction models of fire development in enclosed storage rooms, as well as for assessing the fire hazard of substances when burning in an enclosed volume.

1. NFPA 921: Guide for Fire and Explosion Investigations. NFPA, 2004. 262 p. (In Engl.).

2. Nikitin E. V. K voprosu o priblizhennoy otsenke ploshchadi goreniya v germetichnom otseke korablya [On the issue of approximate assessment of the combustion area in a sealed compartment of a ship] // Nadezhnost’ i Zhivuchest’ Tekhnicheskikh Sredstv Korablya. Reliability and Survivability of the Ship's Technical Equipment. Sevastopol, 1988. P. 101–106. (In Russ.).

3. Nikitin Y. V. Indirect method of estimating a fire pool area in a closed compartment // Journal of Fire Sciences. 1999. Vol. 17, no. 1. P. 57–70. DOI: 10.1177/073490419901700104. (In Engl.).

4. Nikitin Y. V., Kirichenko A. V., Soshkin P. A. Issledovaniye dinamiki vyravnivaniya vozdushnogo davleniya v zamknutoy sisteme otsekov dlya otsenki parametrov razvitiya pozhara [Investigation of the dynamics of air pressure equalization in a closed compartment system for assesing parameters of a fire development] // Tekhnologii tekhnosfernoy bezopasnosti. Technologies of Technosphere Safety. 2022. No. 3 (97). P. 37–50. DOI: 10.25257/TTS.2022.3.97.37-50. (In Russ.).

5. Nikitin Y. V. Variations of mass combustion rate with oxygen concentration and gas pressure of a milieu // Journal of Fire Sciences. 1998. Vol. 16, no. 6. P. 458–467. DOI: 10.1177/073490419801600605. (In Engl.).

6. Tatem P. A., Williams F. W., Ndubizu C. C. [et al.]. Influence of Complete Enclosure on Liquid Pool Fires // Combustion Science and Technology. 1986. Vol. 45, no. 3–4. P. 185–198. DOI: 10.1080/00102208608923849. (In Engl.).

7. Chow W. Studies on Closed Chamber Fires // Journal of Fire Sciences. 1995. Vol. 13, no. 2. P. 89–103. DOI: 10.1177/073490419501300201. (In Engl.).

8. Zhang J., Lu S., Li Q. [et al.]. Impacts of Elevation on Pool Fire Be-havior in a Closed Compartment: A Study Based upon a Distinct Stratification Phenomenon // Journal of Fire Sciences. 2013. Vol. 31, no. 2. P. 173–188. DOI: 10.1177/0734904112460203. (In Engl.).

9. Bailey J., Williams F. W., Tatem P. A. Methanol Pan Fires in an Enclosed Space: Effect of Pressure and Oxygen Concentration. Naval Research Laboratory, 1993. 55 р. (In Engl.).

10. Zhang J., Lu S. X., Li Q. [et al.]. Smoke filling in closed compartments with elevated fire sources // Fire Safety Journal. 2012. Vol. 54. P. 14–23. DOI: 10.1016/j.firesaf.2012.08.003. (In Engl.).

11. Wu C. L. Experimental study of backdraught using solid fuels. 2019. 244 р. (In Engl.).

12. Hurtina E. Y., Muhametshina Y. M., Nechaeva O. A. Vliyaniye vrednykh veshchestv na atmosferu v rezul’tate goreniya nefteproduktov na sklade GSM [The influence of harmful substances on the atmosphere as a result of the combustion of petroleum products in a fuel and lubricants warehouse] // Nauka, Obrazovaniye i Innovatsii. Science, Education and Innovation. 2016. No. 4. P. 18–21. EDN: VYAYMD. (In Russ.).

13. GOST 7338-90. Plastiny rezinovyye i rezinotkanevyye. Tekhnicheskiye usloviya [Rubber and rubber-fabric sheets. Specifications]. Moscow, 2004. 18 p.

14. Setevoye izdaniye «NGS24.RU» Krasnoyarsk onlayn [Network publication «NGS24.RU» Krasnoyarsk online]. URL: https://ngs24.ru/text/incidents/2021/02/04/69749223 (accessed: 12.06.2023). (In Russ.).

15. Loo A. S. X., Coppalle A., Aîné P. Flame extinction in a ventilation-controlled compartment // Procedia Engineering. 2013. Vol. 62. P. 301–308. DOI: 10.1016/j.proeng.2013.08.068. (In Engl.).

16. Bengtsson L. G. Enclosure fires. Sweden: Swedish Rescue Services Agency, 2001. 192 p. (In Engl.).

17. Fleischmann C. M., Pagni P. J., Williamson R. B. Exploratory backdraft experiments // Fire Technology. 1993. Vol. 29, no. 4. P. 298–316. DOI: 10.1007/BF01052526. (In Engl.).