浸锌生物固体热解过程中废气成分的排放系数。

Emission factor of exhaust gas constituents during the pyrolysis of zinc chloride immersed biosolid.

机构信息

Department of Health Risk Management, China Medical University, Taichung, 40402, Taiwan.

出版信息

Environ Sci Pollut Res Int. 2013 Aug;20(8):5781-9. doi: 10.1007/s11356-013-1602-4. Epub 2013 Mar 8.

Abstract

Pyrolysis enables ZnCl2 immersed biosolid to be reused, but some hazardous air pollutants are emitted during this process. Physical characteristics of biosolid adsorbents were investigated in this work. In addition, the constituents of pyrolytic exhaust were determined to evaluate the exhaust characteristics. Results indicated that the pyrolytic temperature was higher than 500 °C, the specific surface area was >900 m(2)/g, and the total pore volume was as much as 0.8 cm(3)/g at 600 °C. For non-ZnCl2 immersed biosolid pyrolytic exhaust, VOC emission factors increased from 0.677 to 3.170 mg-VOCs/g-biosolid with the pyrolytic temperature increase from 400 to 700 °C, and chlorinated VOCs and oxygenated VOCs were the dominant fraction of VOC groups. VOC emission factors increased about three to seven times, ranging from 1.813 to 21.448 mg/g for pyrolytic temperatures at 400-700 °C, corresponding to the mass ratio of ZnCl2 and biosolid ranging from 0.25-2.5.

摘要

热解使浸 ZnCl2 的生物固体得以重复利用，但在此过程中会排放一些有害空气污染物。本工作研究了生物固体吸附剂的物理特性，并确定了热解废气的成分，以评估废气特性。结果表明，在 600°C 时，热解温度高于 500°C，比表面积>900m²/g，总孔体积高达 0.8cm³/g。对于未浸 ZnCl2 的生物固体热解废气，随着热解温度从 400°C 升高到 700°C，VOC 排放因子从 0.677mg-VOCs/g-生物固体增加到 3.170mg-VOCs/g-生物固体，氯化 VOCs 和含氧 VOCs 是 VOC 组的主要部分。在 400-700°C 的热解温度范围内，VOC 排放因子增加了约 3 到 7 倍，范围为 1.813 到 21.448mg/g，对应的 ZnCl2 和生物固体的质量比为 0.25-2.5。

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浸锌生物固体热解过程中废气成分的排放系数。

Emission factor of exhaust gas constituents during the pyrolysis of zinc chloride immersed biosolid.

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