生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2015年
3期
533-538
,共6页
张霖琳%薛荔栋%滕恩江%吕怡兵%王业耀
張霖琳%薛荔棟%滕恩江%呂怡兵%王業耀
장림림%설려동%등은강%려이병%왕업요
颗粒物%重金属%监测
顆粒物%重金屬%鑑測
과립물%중금속%감측
air particulate matters%heavy metals%monitoring
大气颗粒物中的重金属极易富集在细颗粒物中,并对人体带来危害。文章对中国大气颗粒物中重金属的监测技术方法进行梳理和汇总,从点位布设、样品采集、样品前处理、分析测试以及全过程的质量保证和质量控制等方面。探讨和分析颗粒物监测的各个环节应遵循的技术规范和相关方法。大气颗粒物的采样主要包括环境空气样品和无组织排放样品两大类,前处理方法包括全消解和酸浸提,而全消解中又包括酸消解法和碱熔法,消解方式包括电热板、马弗炉、高压密闭消解罐、微波消解等。测试方法主要包括分光光度法、X射线荧光光谱法(XRF)、原子吸收分光光度法(AAS)、原子荧光光谱法(AFS)、电感耦合等离子体发射光谱法(ICP-AES)、电感耦合等离子体质谱法(ICP-MS)等,根据不同的监测需求和仪器设备水平,选择不同的标准测试方法作为依据。在颗粒物重金属监测的全过程中,从布点、试剂空白、滤膜/滤筒空白的控制,到采样、前处理、实验室分析等各个环节,均需要考虑可能影响分析准确度的因素,建立起与监测方法同步的全程序质量保证和控制措施。完善大气颗粒物中重金属监测技术与方法体系,可为大气环境监测和管理部门的决策提供科学依据和技术支持,为源解析等颗粒物组分分析相关工作提供方法依据。
大氣顆粒物中的重金屬極易富集在細顆粒物中,併對人體帶來危害。文章對中國大氣顆粒物中重金屬的鑑測技術方法進行梳理和彙總,從點位佈設、樣品採集、樣品前處理、分析測試以及全過程的質量保證和質量控製等方麵。探討和分析顆粒物鑑測的各箇環節應遵循的技術規範和相關方法。大氣顆粒物的採樣主要包括環境空氣樣品和無組織排放樣品兩大類,前處理方法包括全消解和痠浸提,而全消解中又包括痠消解法和堿鎔法,消解方式包括電熱闆、馬弗爐、高壓密閉消解罐、微波消解等。測試方法主要包括分光光度法、X射線熒光光譜法(XRF)、原子吸收分光光度法(AAS)、原子熒光光譜法(AFS)、電感耦閤等離子體髮射光譜法(ICP-AES)、電感耦閤等離子體質譜法(ICP-MS)等,根據不同的鑑測需求和儀器設備水平,選擇不同的標準測試方法作為依據。在顆粒物重金屬鑑測的全過程中,從佈點、試劑空白、濾膜/濾筒空白的控製,到採樣、前處理、實驗室分析等各箇環節,均需要攷慮可能影響分析準確度的因素,建立起與鑑測方法同步的全程序質量保證和控製措施。完善大氣顆粒物中重金屬鑑測技術與方法體繫,可為大氣環境鑑測和管理部門的決策提供科學依據和技術支持,為源解析等顆粒物組分分析相關工作提供方法依據。
대기과립물중적중금속겁역부집재세과립물중,병대인체대래위해。문장대중국대기과립물중중금속적감측기술방법진행소리화회총,종점위포설、양품채집、양품전처리、분석측시이급전과정적질량보증화질량공제등방면。탐토화분석과립물감측적각개배절응준순적기술규범화상관방법。대기과립물적채양주요포괄배경공기양품화무조직배방양품량대류,전처리방법포괄전소해화산침제,이전소해중우포괄산소해법화감용법,소해방식포괄전열판、마불로、고압밀폐소해관、미파소해등。측시방법주요포괄분광광도법、X사선형광광보법(XRF)、원자흡수분광광도법(AAS)、원자형광광보법(AFS)、전감우합등리자체발사광보법(ICP-AES)、전감우합등리자체질보법(ICP-MS)등,근거불동적감측수구화의기설비수평,선택불동적표준측시방법작위의거。재과립물중금속감측적전과정중,종포점、시제공백、려막/려통공백적공제,도채양、전처리、실험실분석등각개배절,균수요고필가능영향분석준학도적인소,건립기여감측방법동보적전정서질량보증화공제조시。완선대기과립물중중금속감측기술여방법체계,가위대기배경감측화관리부문적결책제공과학의거화기술지지,위원해석등과립물조분분석상관공작제공방법의거。
Heavy metals in atmospheric particle matters were easily enriched in PM2.5, and brought harm to human. In this paper, the Chinese monitoring technology and methods of heavy metals in ambient air particulate matters was collected sort and aggregated. All of the monitoring aspects were introduced such as sampling points laid, sample collection, sample pretreatment, sample analysis and quality assurance and quality control throughout the whole process. The technical specifications and related methods were discussed and analyzed. Atmospheric particulate matter sampling mainly includes air sample and unorganized emissions sample. The pretreatment includes full digestion and acid leaching. And acid or alkali treatment could be used to decompose by hot plate, muffle furnace, high pressure airtight jar or microwave digestion. Many analysis methods could be selected such as spectrophotometer, X fluorescence spectrometer (XRF), atomic absorption spectrometry (AAS), atomic fluorescence spectrometry (AFS), inductively coupled plasma atomic emission spectrometry (ICP-AES) and inductively coupled plasma mass spectrometry (ICP-MS). According to the different monitoring requirements and equipment level, different standard test methods should be used. Through the whole process of heavy metal particulate monitoring, the stationing, reagent blank, membrane filter/cartridge blank control, the sampling pretreatment and laboratory analysis and so on, every factor that might affect the accuracy of analysis should be considered. Monitoring method should be established with the whole procedures of quality assurance and control measures. Complete monitoring technology system of the heavy metals in atmospheric particles could provide a scientific basis and technical support for the decision of atmospheric environmental monitoring and management. And it would also provide the analysis methods for the source apportionment of atmospheric particulate matter technique and relevant works.