Atmospheric nanoparticles (PM ＜ 0.1 μm) are a major cause of environmental problems and also affect health risk.To control and reduce these problems,sources identification of atmospheric particulates is necessary.Combustion of bituminous coal and biomass includ-ing rubber wood,palm kernel,palm fiber,rice stubble,rice straw,maize residue,sugarcane leaves and sugarcane bagasse,which are considered as sources of air quality problems in many countries,was performed.Emissions of particle-bound chemical components includ-ing organic carbon (OC),elemental carbon (EC),water-soluble ions (NH4+,Cl-,NO3-,SO42-),elements (Ca,K,Mg,Na) and heavy metals (Cd,Cr,Ni,Pb) were investigated.The results re-vealed that PM ＜ 0.1 μm from all samples was dominated by the OC component (＞50％) with minor contribution from EC (3％-12％).The higher fraction of carbonaceous components was found in the particulates with smaller sizes,and lignin content may relate to concentration of pyrolyzed organic carbon (PyOC) resulting in the differences of OC/EC values.PM emit-ted from burning palm fiber and rice stubble showed high values of OC/EC and also high PyOC.Non-carbonaceous components such as Cl-,Cr,Ca,Cd,Ni,Na and Mg may be useful as source indicators,but they did not show any correlation with the size of PM.

Hisam Samae;Surajit Tekasakul;Perapong Tekasakul;Worradorn Phairuang;Masami Furuuchi;Surapa Hongtieab

Department of Chemistry,Division of Physical Sciences,Faculty of Science,Prince of Songkla University,Hat Yai,Songkhla 90112,Thailand;Department of Mechanical Engineering,Faculty of Engineering,Prince of Songkla University,Hat Yai,Songkhla 90112,Thailand;Air Pollution and Health Effect Research Center,Prince of Songkla University,Hat Yai,Songkhla,90112,Thailand;Department of Geography,Faculty of Social Sciences,Chiang Mai University,Muang,Chiang Mai,50200,Thailand;Faculty of Environmental Management,Prince of Songkla University,Hat Yai,Songkhla,90112,Thailand;Faculty of Geoscience and Civil Engineering,Institute of Science and Engineering,Kanazawa University,Kakuma-machi,Kanazawa,Ishikawa,920-11192,Japan

环境科学学报（英文版）

[1]Hisam Samae;Surajit Tekasakul;Perapong Tekasakul;Worradorn Phairuang;Masami Furuuchi;Surapa Hongtieab-.Particle-bound organic and elemental carbons for source identification of PM ＜ 0.1 μm from biomass combustion)[J].环境科学学报（英文版）,2022(03):385-393

PyOC

Particle,bound,organic,elemental,carbons,identification,PM,from,biomass,combustion,Atmospheric,nanoparticles,are,major,cause,environmental,problems,also,affect,health,risk,To,control,reduce,these,sources,atmospheric,particulates,necessary,Combustion,bituminous,coal,includ,rubber,wood,palm,kernel,fiber,rice,stubble,straw,maize,residue,sugarcane,leaves,bagasse,which,considered,air,quality,many,countries,was,performed,Emissions,chemical,components,EC,water,soluble,NH4+,Cl,NO3,SO42,elements,Mg,Na,heavy,metals,Cd,Pb,were,investigated,results,vealed,that,samples,dominated,by,minor,contribution,higher,fraction,carbonaceous,found,smaller,sizes,lignin,content,may,relate,concentration,pyrolyzed,resulting,differences,values,emit,burning,showed,Non,such,useful,indicators,they,did,not,correlation

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