利用赤子爱胜菌蚯蚓堆肥法研究汽车涂料污泥与生物污泥联合降低BTEX的效果

IF 1.3 Q4 ENVIRONMENTAL SCIENCES Environmental Health Engineering and Management Journal Pub Date : 2021-02-10 DOI:10.34172/EHEM.2021.12
Rahman Ghomi Avili, A. Takdastan, F. Atabi, G. Omrani
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引用次数: 4

摘要

背景:在汽车行业的汽车涂装过程中,不可避免地会产生含有苯、甲苯、乙苯、二甲苯等危险化合物的污泥,这些化合物在未经净化的情况下无法释放到环境中,本研究旨在研究用赤子爱胜虫去除赛帕汽车公司油漆污泥中苯、甲苯、乙苯和二甲苯的可行性。方法:本研究为实验研究。首先,制备不同比例污泥的混合物,并将其装入合适的盒子中。在制备所需污泥后,根据BTEX的类型和量、挥发性物质、水分含量和C/N比来确定其定量和定性特征。然后,为了检查BTEX的变化,在90天的不同日子进行采样。使用GC-MS方法(NIOSH方法1501)进行BTEX测量。结果:在最佳污泥配比下,苯含量在30天内从3 mg降至0.01 mg以下,甲苯含量在45天内从1.5 mg降至0,乙苯含量在70天内从7 mg降至0 mg,二甲苯含量在90天内从18 mg降至0.9 mg。此外,在相同的最佳配比下,蚯蚓堆肥过程中挥发性有机物的量、pH值和C/N比也有下降的趋势。结论:实验结果表明,羊球虫能够在混合污泥中工作,并具有分解BTEX的能力。
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Investigating the reduction of BTEX in automotive paint sludge combined with biological sludge by vermicomposting process using Eisenia fetida
Background: Due to the fact that in the process of car painting in the automotive industry, sludge containing dangerous compounds of benzene, toluene, ethylbenzene, xylene which cannot be released into the environment without purification, is inevitably produced, this study was conducted to investigate the feasibility of removing BTEX (benzene, toluene, ethylbenzene, and xylene) from the paint sludge of Saipa Automotive Company using Eisenia fetida worms. Methods: This is an experimental study. First, mixtures with different proportions of sludge were prepared and loaded in suitable boxes. After preparing the desired sludge, their quantitative and qualitative characteristics were determined in terms of type and amount of BTEX, volatile materials, moisture content, and C/N ratio. Then, to check the changes in BTEX, sampling was performed on different days during 90 days. BTEX measurements were performed using GC-MS method (NIOSH Method 1501). Results: The results showed that in the best mixing ratio of sludge, the amount of benzene decreased from 3 mg to less than 0.01 mg in 30 days, toluene decreased from 1.5 mg to zero over a 45-day period, ethyl benzene was reduced from 7 mg to zero mg over 70 days, and xylene decreased from 18 mg to 0.9 mg over 90 days. In addition, in the same optimal mixing ratio, the amount of volatile organic matter, pH, and C/N ratio also had a decreasing trend in the vermicomposting process. Conclusion: According to the results, E. fetida worms are able to work in mixed sludge and have the ability to break down BTEX.
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来源期刊
CiteScore
2.40
自引率
37.50%
发文量
17
审稿时长
12 weeks
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