原子与分子物理学报
原子與分子物理學報
원자여분자물이학보
CHINESE JOURNAL OF ATOMIC AND MOLECULAR PHYSICS
2010年
1期
153-160
,共8页
黄明强%郭晓勇%郝立庆%顾学军%王振亚%方黎%张为俊
黃明彊%郭曉勇%郝立慶%顧學軍%王振亞%方黎%張為俊
황명강%곽효용%학립경%고학군%왕진아%방려%장위준
二次有机气溶胶%质谱%模糊聚类算法%气溶胶飞行时间质谱仪
二次有機氣溶膠%質譜%模糊聚類算法%氣溶膠飛行時間質譜儀
이차유궤기용효%질보%모호취류산법%기용효비행시간질보의
secondary organic aerosol (SOA)%mass spectrum%fuzzy clustering algorithm(FCM)%aerosol time-of-flight mass spectrometry (ATOFMS)
OH自由基启动苯系物光氧化形成的二次有机气溶胶能够影响气候变化,降低大气能见度,危害人类健康.我们实验室自行研制的气溶胶飞行时间质谱仪能够用于二次有机气溶胶的实时检测研究.该仪器在检测过程中产生大量的实验数据,对这些数据快速、自动处理并提取有价值的信息是整机系统的关键之一.本文介绍模糊聚类算法在苯系物二次有机气溶胶单粒子聚类分析中的成功运用.利用该算法对OH自由基启动1,3,5-三甲苯光氧化形成的二次有机气溶胶单粒子质谱数据进行了聚类分析,在得到的五个聚类中包含了芳香醛、酚类化合物、硝基酚和羧酸等重要的光氧化产物,为研究苯系物光氧化机理提供了新的信息.
OH自由基啟動苯繫物光氧化形成的二次有機氣溶膠能夠影響氣候變化,降低大氣能見度,危害人類健康.我們實驗室自行研製的氣溶膠飛行時間質譜儀能夠用于二次有機氣溶膠的實時檢測研究.該儀器在檢測過程中產生大量的實驗數據,對這些數據快速、自動處理併提取有價值的信息是整機繫統的關鍵之一.本文介紹模糊聚類算法在苯繫物二次有機氣溶膠單粒子聚類分析中的成功運用.利用該算法對OH自由基啟動1,3,5-三甲苯光氧化形成的二次有機氣溶膠單粒子質譜數據進行瞭聚類分析,在得到的五箇聚類中包含瞭芳香醛、酚類化閤物、硝基酚和羧痠等重要的光氧化產物,為研究苯繫物光氧化機理提供瞭新的信息.
OH자유기계동분계물광양화형성적이차유궤기용효능구영향기후변화,강저대기능견도,위해인류건강.아문실험실자행연제적기용효비행시간질보의능구용우이차유궤기용효적실시검측연구.해의기재검측과정중산생대량적실험수거,대저사수거쾌속、자동처리병제취유개치적신식시정궤계통적관건지일.본문개소모호취류산법재분계물이차유궤기용효단입자취류분석중적성공운용.이용해산법대OH자유기계동1,3,5-삼갑분광양화형성적이차유궤기용효단입자질보수거진행료취류분석,재득도적오개취류중포함료방향철、분류화합물、초기분화최산등중요적광양화산물,위연구분계물광양화궤리제공료신적신식.
Secondary organic aerosol (SOA) formed from OH-initiated photooxidation of aromatic hydrocarbons may impact on the radiative balance associated with climate change, visibility degradation, and heath effects. An aerosol time-of-flight mass spectrometry (ATOFMS) designed and manufactured by our laboratory can be used to analyze SOA in real-time and generate thousands of mass spectra from typical measurement campaign. How to process these data and extract valuable information is one of the key problems for the ATOFMS. In this paper, the Fuzzy C-Means (FCM) algorithm is used to classify large numbers of mass spectrum of SOA particles formed from photooxidation of 1,3,5-trimethylbenzene analyzed by ATOFMS. Experimental results showed that SOA particles created by 1,3,5-trimethylbenzene photooxidation can be classify with five distinct chemical particle classes, the predominant components of these five particles are aromatic aldehyde, nitrophenol, phenolic and carboxylic acid compound. These also provide additional insight into the photooxidation mechanism for aromatic hydrocarbons.
