Smoke regularity of wood and wood-based panels be burned

doi:10.3969/j.issn.1000-2006.2015.04.021

JOURNAL OF NANJING FORESTRY UNIVERSITY ›› 2015, Vol. 39 ›› Issue (04): 121-126.doi: 10.3969/j.issn.1000-2006.2015.04.021

Previous Articles Next Articles

Smoke regularity of wood and wood-based panels be burned

WANG Zhen, WU Yuzhang^*, MA Xingxia

Research Institute of Wood Industry, Chinese Academy of Forestry, Beijing 100091, China

Online:2015-07-31 Published:2015-07-31

Abstract

Abstract: Wood and wood-based panels would produce a large amount of smoke during the combustion. It has great guiding significance to study its smoke regularity and characteristic for the application and exploitation of correlated smoke inhibition technology. The characteristics of smoke production and the regularity of the change in smoke temperature of Pinus massoniana, Larix gmelinii, Cunninghamia lanceolata(Lamb.)Hook, Paulownia, Populus, plywood and medium density fiberboard(MDF)were studied with a cone calorimeter(CONE). Effect of the irradiance intensity on smoke production and temperature was also discussed. The results showed that the smoke emission process and temperature of wood and wood-based panels changed similarly, i.e., “strong-weak-strong-weak”. The variation of smoke production and temperature was corresponding to the mass lose rate, namely, the smoke production and temperature increased with the mass lose rate increasing. The total smoke production of MDF was the highest followed by softwood, hardwood and plywood. The smoke production and temperature increased and the second peaks appeared earlier with the irradiance intensity increasing.

CLC Number:

S782.39

WANG Zhen, WU Yuzhang, MA Xingxia. Smoke regularity of wood and wood-based panels be burned[J]. JOURNAL OF NANJING FORESTRY UNIVERSITY, 2015, 39(04): 121-126.

References

[1] 李山岭,蒋勇,邱榕,等.火灾烟气危害定量评价模型THVCH及其应用[J].安全与环境学报,2012,12(2):250-256.Li S L, Jiang Y, Qiu R, et al. Fire smoke toxicity quantitative evaluation model THVCH and application[J]. Journal of Safety and Environment, 2012,12(2): 250-256.
[2] 刘艳军.建筑火灾烟气危害及其控制措施[J].中国安全生产科学技术,2008,4(4):65-67.Liu Y J. Smoke hazard and its controlling measures in building fire[J].Journal of Safety Science and Technology,2008,4(4):65-67.
[3] 张慧,祁海鹰,吕子安,等.火灾烟气中CO₂和CO的释放特性研究[J].工程热物理学报,2004,25(3):534-536.Zhang H, Qi H Y, Lyu Z A, et al. Investigation on releasing mechanism of CO₂ and CO in bench-scale fire smoke[J]. Journal of Engineering Thermophysics, 2004,25(3):534-536.
[4] 黎强,刘清辉,张惠,等.火灾烟气中有毒气体的体积分数分布与危害[J].自然灾害学报,2003,12(3):69-74.Li Q, Liu Q H, Zhang H, et al. Concentration distribution and hazard of toxic gases in fire smoke[J].Journal of Natural Disasters,2003,12(3):69-74.
[5] 占丽萍,祁海鹰,吕子安,等.火灾烟气毒害物HCl和HCN的分析及危害性评价方法[J].工程热物理学报,2004,25(S):209-212.Zhan L P, Qi H Y, Lyu Z A, et al.Analysis and hazard evaluation method for the fire toxic effluents:hydrogen chloride and hydrogen cyanide[J]. Journal of Engineering Thermophysics,2004,25(S):209-212.
[6] 何瑾,刘军军,李风,等.两种含氮高分子材料的热解烟气毒性评价[J].环境科学学报,2007,27(6):1049-1055.He J, Liu J J, Li F, et al. Toxicity assessments of the thermal decomposition products of two nitrous polymers[J]. Acta Scientiae Circumstantiae,2007,27(6):1049-1055.
[7] 王清文,李坚,李淑君,等.用CONE法研究木材阻燃剂FRW的抑烟性能. 林业科学,2002,38(6):103-109.Wang Q W, Li J, Li S J, et al. Study on the smoke inhibition of wood fire retardant FRW by cone calorimeter[J].Scientia Silvae Sinicae,2002,38(6):103-109.
[8] Hamiyet S K, Günay O, Lütfü K, et al. Effects of some impregnation chemicals on combustion characteristics of laminated veneer lumber(LVL)produced with oak and poplar veneers[J].BioResources,2010, 5(1):70-80.
[9] 李杜锋,方梦祥,舒立福,等. 几种常用木材热解(燃烧)后的烟气析出规律试验研究[J].能源工程,2006(2):6-11.Li D F, Fang M X, Shu L F, et al. Experimental study on releasing characterization of smoke from burning of several typical woods[J]. Energy Engineering, 2006(2):6-11.
[10] 吴玉章,原田寿郎.人工林木材燃烧性能的研究[J].林业科学,2004,40(2):131-136.Wu Y Z, Harada T.Study on the burning behaviour of plantation wood[J].Scientia Silvae Sinicae,2004,40(2):131-136.
[11] Harada T. Combustibility of wood evaluated by the cone calorimeter[J]. Wood Industry,2004,59(10):454-457.
[12] 李野,马依东,李晋.锥形量热仪试验及墙角火试验关系初探,消防科学与技术,2003,22(2):89-90.Li Y, Ma Y D, Li J. Discussion on the relationships of core calorimeter test and corner fire test[J].Fire Science and Technology,2003,22(2):89-90.
[13] 舒中俊,徐晓楠,李响.聚合物材料火灾燃烧性能评价——锥形量热仪实验方法[M].北京:化学工业出版社,2007.
[14] Hirata T, Fukui Y, Uesugi S, et al. Combustion properties of wood treated with chemicals I. Surface flammability and smoke evolution[J]. Mokuzai Gakkaishi, 1981,27(4):318-330.
[15] Ishihara S. Smoke and toxic gases produced during fire[J]. Wood Research and Technical Notes,1981,16(5):49-62.
[16] Harada T, Miyatake A, Uesugi S, et al. Fire resistance of glued-laminated timber beams jointed with gusset plates made of fiber-reinforced-plastics and epoxy resin[J]. Mokuzai Gakkaishi, 1994,40(4):372-379.
[17] Harada T. A Study on the combustibility and the fire resistance of wood bulletin of the forest products[R]. Research Institute, 2000,378:34-40.
[18] 鲍甫成,江泽慧,姜笑梅,等.中国主要人工林树种幼龄材与成熟材及人工林与天然林木材性质比较研究[J].林业科学,1998,34(2):63-77.Bao F C,Jiang Z H, Jiang X M,et al. Comparative studies on wood properties of juvenile vs.mature wood and plantation vs.natural forest of main plantation tree species in China[J].Scientia Silvae Sinicae,1998,34(2):63-77.

Metrics

Comments

www.nldxb.njfu.edu.cn

Edited ＆ Published by Editorial Department of Nanjing Forestry University(Natural Sciences Edition)
Address： No.159 Longpan Road,Nanjing 210037 Jiangsu,P.R.China
E-mail ：xuebao@njfu.edu.cn , xuebao@njfu.com.cn
Telephone +86-25-85428247,85427076
Distributed by China International Book Trading Corporation P.O. Box 399, Beijing ,P.R. China

Smoke regularity of wood and wood-based panels be burned

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 1

Recommended Articles

Metrics

Comments

Author

Reader

Reviewer