bce ›› 2014, Vol. 48 ›› Issue (4): 51-56.doi: 10.3969/j.issn.1673-5854.2014.04.010
FAN Peng-hui, ZHANG Hui, SHENG Chang-dong
Received:
2014-03-28
Online:
2014-07-30
Published:
2014-07-29
CLC Number:
FAN Peng-hui, ZHANG Hui, SHENG Chang-dong. Review on Self-heating and Spontaneous Combustion of Biomass Fuels and Their Prevention[J]. bce, 2014, 48(4): 51-56.
[1] 马文超,陈冠益,颜蓓蓓,等.生物质燃烧技术综述[J].生物质化学工程,2007,41(1):43-48. [2] 张艳丽,王飞,赵立欣,等.我国秸秆收储运系统的运营模式、存在问题及发展对策[J].可再生能源,2009,27(1):1-5. [3] 胡海涛,李允超,王贤华,等.生物质预处理技术及其对热解产物的影响综述[J].生物质化学工程,2014,48(1):44-50. [4] HE X,LAU A K,SOKHANSANJ S,et al.Dry matter losses in combination with gaseous emissions during the storage of forest residues[J].Fuel,2012(95):662-664. [5] EMERY IR,MOSIER NS.The impact of dry matter loss during herbaceous biomass storage on net greenhouse gas emissions from biofuels production[J].Biomass and Bioenergy,2012(39):237-246. [6] GAUTHIER S,GRASS H,LORY M,et al.Lethal carbon monoxide poisoning in wood pellet store rooms-two cases and a review of the literature[J].Annals of Occupational Hygiene,2012(56):755-763. [7] KUANG X,SHANKAR T J,BI X T,et al.Rate and peak concentrations of off-gas emissions in stored wood pellets-sensitivities to temperature,relative humidity and headspace volume[J].Annals of Occupational Hygiene,2009,53(8):789-796. [8] DARR MJ,SHAH A.Biomass storage:An update on industrial solutions for baled biomass feedstocks[J].Biofuels,2012,3(3):321-332. [9] KOPPEJAN J,LONNERMARK A,PERSSON H,et al.Health and Safety Aspects of Solid Biomass Storage,Transportation and Feeding.Report of International Energy Agency Bioenergy,2013. [10] BLOMQVIST P,PERSSON B.Spontaneous Ignition of Biofuels——A Literature Survey of Theoretical and Experimental Methods.Sveriges Provnings-och Forskningsinstitut Arbetsrapport,2003:18. [11] ARMSTRONG J.Spontaneous Combustion of Forest Fuels:A Review.Information Report FF-X-42,Forest Fire Research Institute,Canadian Forestry Service,1973. [12] 陈汉平,李斌,李海平,等.生物质燃烧技术现状与展望[J].工业锅炉,2009(5):1-7. [13] 戴志宏.秸秆电厂的火灾风险分析与防范[J].消防科学与技术,2013,32(11):1295-1297. [14] FERRERO F,MALOW M,SCHMIDT M,et al.Computational modeling of the self-ignition process to achieve safe storage of biomass[J].Fire Engineering,2008(12):1-10. [15] HOGLAND W,MARQUES M.Physical,biological and chemical processes during storage and spontaneous combustion of waste fuel[J].Resources,Conservation and Recycling,2003(40):53-69. [16] LI X-R,KOSEKI H,Momota M.Evaluation of danger from fermentation-induced spontaneous ignition of wood chips[J].Journal of Hazardous Materials,2006(135):15-20. [17] BUGGELN R,RYNK R.Self-heating in yard trimmings:Conditions leading to spontaneous combustion[J].Compost Science & Utilization,2002,10(2):162-82. [18] GRAY BF,SEXTON MJ,HALLIBURTON B,et al.Wetting-induced ignition in cellulosic materials[J].Fire Safety Journal,2002(37):465-479. [19] WALKER,HARRISON W,et al.The effect of dry heat on the ignition temperature of cellulose[J].New England Journal of Science,1969(12):98-110. [20] JIRJIS R.Effects of particle size and pile height on storage and fuel quality of comminuted salix viminalis[J].Biomass and Bioenergy,2005,28(2):193-201. [21] DIXON T F.Spontaneous combustion in bagasse stockpiles[J].Cellulose,1988:53-61. [22] REZAEI F,VANDERGHEYNST J S.Critical moisture content for microbial growth in dried food-processing residues[J].Journal of the Science of Food and Agriculture,2010,90(12):2000-2005. [23] RYCKEBOER J,MERGAERT J,VAES K,et al.A survey of bacteria and fungi occurring during composting and self-heating processes[J].Annals of Microbiology,2003,53(4):349-410. [24] REDDY A P,JENKINS B M,VANDERGHEYNST JS.The critical moisture range for rapid microbial decomposition of rice straw during storage[J].Transactions of the Asabe,2009,52(2):673-677. [25] BABRAUSKAS V.Ignition of wood:A review of the state of the art[J].Journal of Fire Protection Engineering,2002,12:163-189. [26] THOMAS G,JENSEN AD.An experimental study of biomass ignition[J].Fuel,2003(82):825-833. [27] WADSO L.Measuring chemical heat production rates of biofuels by isothermal calorimetry for hazardous evaluation modeling[J].Fire and Materials,2007(31):241-255. [28] CASAL M D,GIL M V,PEVIDA C,et al.Influence of storage time on the quality and combustion behavior of pine woodchips[J].Energy,2010,35(7):3066-3071. [29] PETTERSSON M,NORDFJELL T.Fuel quality changes during seasonal storage of compacted logging residues and young trees[J].Biomass and Bioenergy,2007,31(11):782-792. [30] 武深秋.植物堆垛自燃火灾预防[J].浙江消防,2003(2):27-29. |
[1] | Xiaopeng JIAN,Wei XU,Xinglong HOU,Shicai LIU. Research Progress on Activated Carbon Modification Technology [J]. Biomass Chemical Engineering, 2020, 54(5): 66-72. |
[2] | Xue LIU,Shujun LI,Shouxin LIU,Jian LI,Zhijun CHEN. Research Progress in Preparation and Functional Application of Lignin-based Nanoparticles [J]. Biomass Chemical Engineering, 2020, 54(5): 53-65. |
[3] | Weixing ZENG,Xian CHENG,Zuohui ZHANG,Liangwu BI,Zhendong ZHAO. Application Research Progress of Biological Pretreatment Technology in Extraction of Natural Products [J]. Biomass Chemical Engineering, 2020, 54(5): 45-52. |
[4] | Xiaomeng QU,Ge YANG,Zehao ZHANG,Lan ZHANG. Preparation of High Purity Yacon Fructo-oligosaccharides by Nanofiltration and Its Characterization [J]. Biomass Chemical Engineering, 2020, 54(5): 37-44. |
[5] | Guoqiang SONG,Huan LI,Yinmei CAO,Long TANG. Industrial Refining Process of MES Surfactant [J]. Biomass Chemical Engineering, 2020, 54(5): 33-36. |
[6] | Mengmeng WANG,Lequn LIU,Zhentao LIU,Ying ZHAO. Flame Retardant Modification of Bamboo Liquefied Wall Foam Materials [J]. Biomass Chemical Engineering, 2020, 54(5): 25-32. |
[7] | Peng LYU,Guanghui WANG,Bing WANG,Deyu HU. Effect of Pyrolysis Temperature and Biomass Type on Adsorption of U(Ⅵ) by Biochar [J]. Biomass Chemical Engineering, 2020, 54(5): 15-24. |
[8] | Chunpo YUE,Zhiling YU,Qianhui YU,Tao WANG,Pengbo WANG,Mingwei DI. Effect of Jet Plasma Discharge in Different Atmosphere on Surface Properties of Wood-plastic Composites [J]. Biomass Chemical Engineering, 2020, 54(5): 8-14. |
[9] | Zhaolan ZHAI,Pu LYU,Ping ZHAO,Zhanqian SONG,Shibin SHANG,Xiaoping RAO. Antibacterial Activity of Dehydroabietyl Nitrogen Derivatives [J]. Biomass Chemical Engineering, 2020, 54(5): 1-7. |
[10] | Qiqi DAI,Xiaocui WEI,Hongbiao TANG,Jin LI,Jinjing WANG. Optimization of Microwave Assisted Pyrolysis of Coconut Clothes by Response Surface Method and Analysis of Liquid Product Composition [J]. Biomass Chemical Engineering, 2020, 54(4): 42-48. |
[11] | Lin SUN,Huayu LIU,Kun LIU,Xiaoyi ZHANG,Hongxiang XIE,Rui ZHANG,Haiming LI,Chuanling SI. Research Progress in Nanocellulose Hydrophobic Modification and Applications [J]. Biomass Chemical Engineering, 2020, 54(4): 57-66. |
[12] | Weijiao SHANG,Lu WANG. Status and Analysis of Nanocellulose Technology Based on Patents [J]. Biomass Chemical Engineering, 2020, 54(4): 49-56. |
[13] | Ruting XU,Wei XU,Xincheng LU,Kang SUN. Novel Demineralization Technology of Phosphate-activated Carbon [J]. Biomass Chemical Engineering, 2020, 54(4): 37-41. |
[14] | Yongxu LIU,Dawei ZHANG. Preparation and Properties of Bacteriostatic Chitosan/PVA/Chitosan Oligosaccharide Nanofibrous Membranes [J]. Biomass Chemical Engineering, 2020, 54(4): 30-36. |
[15] | Feifei LIU,Lan WANG,Zuohu LI,Hongzhang CHEN. Dissolving Effect of Steam Exploded Corn Stalk on Phosphate Rock Powder and Influence of Its Residual on Wheat Growth [J]. Biomass Chemical Engineering, 2020, 54(4): 23-29. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||