生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
6期
1022-1026
,共5页
马闯%赵占楠%赵继红%张宏忠%魏明宝%叶长明
馬闖%趙佔楠%趙繼紅%張宏忠%魏明寶%葉長明
마틈%조점남%조계홍%장굉충%위명보%협장명
污泥%堆肥%VOCs%污染风险
汙泥%堆肥%VOCs%汙染風險
오니%퇴비%VOCs%오염풍험
sewage sludge%composting%VOCs%contamination risk
污泥好氧堆肥发酵过程所产生的可挥发性有机物已经成为重要的二次污染物,采用气质联用(GC/MS)的方法分析了郑州某污泥处置厂发酵车间不同位置的挥发性有机物(VOCs)组分。结果表明:污泥堆肥过程可检测出的VOCs共有19种,主要致臭组分是甲硫醇、二甲二硫醚、甲硫醚,它们在所有采气点中的质量浓度均高于检知嗅阈值,对人类嗅觉具有较大危害;总挥发性有机物(TVOC)的质量浓度由堆体内部产生时的47.2 mg·m-3,降为车间工人活动处的1.73 mg·m-3,迁移过程中总浓度减少了96.3%;利用最大增量反应活性法研究VOCs的反应活性和对近地层臭氧的生成潜势影响,VOCs组分中烷烃、芳香烃、酮类、烯烃类的最大臭氧生成潜势值依次增加,其中,最大臭氧生成潜势值(OFP)贡献量最高的组分为1-丁烯和丙烯,OFP分别达到了947.70μg·m-3和875.67μg·m-3,存在大气污染风险。通过主要VOCs组分间的相关性分析,发现甲硫醇宜作为评估VOCs排放情况的指示气体,其在工人活动处的质量浓度为0.04 mg·m-3,远低于GBZ 2-2002《工作场所有害因素职业接触限值》所规定的2.5 mg·m-3限量值。
汙泥好氧堆肥髮酵過程所產生的可揮髮性有機物已經成為重要的二次汙染物,採用氣質聯用(GC/MS)的方法分析瞭鄭州某汙泥處置廠髮酵車間不同位置的揮髮性有機物(VOCs)組分。結果錶明:汙泥堆肥過程可檢測齣的VOCs共有19種,主要緻臭組分是甲硫醇、二甲二硫醚、甲硫醚,它們在所有採氣點中的質量濃度均高于檢知嗅閾值,對人類嗅覺具有較大危害;總揮髮性有機物(TVOC)的質量濃度由堆體內部產生時的47.2 mg·m-3,降為車間工人活動處的1.73 mg·m-3,遷移過程中總濃度減少瞭96.3%;利用最大增量反應活性法研究VOCs的反應活性和對近地層臭氧的生成潛勢影響,VOCs組分中烷烴、芳香烴、酮類、烯烴類的最大臭氧生成潛勢值依次增加,其中,最大臭氧生成潛勢值(OFP)貢獻量最高的組分為1-丁烯和丙烯,OFP分彆達到瞭947.70μg·m-3和875.67μg·m-3,存在大氣汙染風險。通過主要VOCs組分間的相關性分析,髮現甲硫醇宜作為評估VOCs排放情況的指示氣體,其在工人活動處的質量濃度為0.04 mg·m-3,遠低于GBZ 2-2002《工作場所有害因素職業接觸限值》所規定的2.5 mg·m-3限量值。
오니호양퇴비발효과정소산생적가휘발성유궤물이경성위중요적이차오염물,채용기질련용(GC/MS)적방법분석료정주모오니처치엄발효차간불동위치적휘발성유궤물(VOCs)조분。결과표명:오니퇴비과정가검측출적VOCs공유19충,주요치취조분시갑류순、이갑이류미、갑류미,타문재소유채기점중적질량농도균고우검지후역치,대인류후각구유교대위해;총휘발성유궤물(TVOC)적질량농도유퇴체내부산생시적47.2 mg·m-3,강위차간공인활동처적1.73 mg·m-3,천이과정중총농도감소료96.3%;이용최대증량반응활성법연구VOCs적반응활성화대근지층취양적생성잠세영향,VOCs조분중완경、방향경、동류、희경류적최대취양생성잠세치의차증가,기중,최대취양생성잠세치(OFP)공헌량최고적조분위1-정희화병희,OFP분별체도료947.70μg·m-3화875.67μg·m-3,존재대기오염풍험。통과주요VOCs조분간적상관성분석,발현갑류순의작위평고VOCs배방정황적지시기체,기재공인활동처적질량농도위0.04 mg·m-3,원저우GBZ 2-2002《공작장소유해인소직업접촉한치》소규정적2.5 mg·m-3한량치。
Volatile organic compounds (VOCs) produced during sewage sludge aerobic composting is becoming an important secondary pollutant. The GC/MS method was used to analyze the components of VOCs at different positions in a Sludge Treatment Plant. A total of 19 VOCs were emitted during sewage sludge composting process. The main odor components, such as methanethiol, dimethyl sulfide and sulfide, have higher concentration than olfactory threshold at all four of the gas recovery points, and can do great harm to human beings. The concentration of total volatile organic compounds (TVOC) was 47.21 mg·m-3 inside the composting pile, and decreased to 1.73 mg·m-3 by a percentage of 96.3% after the emission to working area. Using the method of Maximum Incremental Reactivity to research the reactivity and Ozone Formation Potential of VOCs. VOCs components, such as alkanes, aromatic hydrocarbons, ketones, and olefin, have higher maximum ozone formation potential value, 1-butene and propylene have the maximum OFP, which were 947.70 μg·m-3 and 875.67 μg·m-3, respectively. Methyl mercaptan was an appropriate indicator to evaluate the emission of VOCs after a correlation analysis. The concentration of Methyl mercaptan in the researched plant was 0.04 mg·m-3, which was far lower than the limit of 2.5 mg·m-3 in GBZ 2-2002.
