回转窑焚烧炉中多氯二苯并呋喃的排放控制和相移:危险废物与医疗废物焚烧

Ying Peng, Yunfeng Ma, Xiaoqing Lin, Jisheng Long, Xiaodong Li
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引用次数: 2

摘要

本研究在全尺寸(50t/d)回转窑焚烧炉中进行,以探索不同单元的空气污染控制装置(APCD)对多氯二苯并对二恶英和二苯并呋喃(PCDD/Fs)的去除特性,特别关注的是湿式洗涤器(WS)中多氯二苯并对二恶英的“记忆效应”现象,这通常导致PCDD/F发射浓度的不希望的上升。在医疗废物(MW)焚烧条件下,APCD对PCDD/Fs的总体去除率为99.4%(从余热锅炉(EHB)出口的14.11到烟囱处的0.09 ng I-TEQ/Nm3),在危险废物(HW)焚烧条件中,APCD的总体去除效率为99.2%(从19.91到0.16 ngI-TEQ/Nm)。烟气中的多氯二苯并呋喃浓度沿APCD下降,但WS除外,其中观察到“记忆效应”。详细地说,WS使烟道气中气相PCDD/Fs的I-TEQ浓度从0.047纳克I-TEQ/Nm3大幅增加到0.188纳克I-TEQ-Nm3,颗粒相PCDD/F的浓度从0.003纳克I-TEQ=Nm3增加到0.030纳克I-TEQ.Nm3。此外,本研究发现,相迁移促进了PCDD/Fs在洗涤水中的积累,夹带流现象在引起“记忆效应”方面发挥了重要作用。从旋风除尘器和织物过滤器(FF)收集的飞灰中PCDD/F浓度分别高达4.23和6.99 ngI-TEQ/g,超过了中国国家垃圾填埋场的限值(3 ngI-TEQ-g)。系统平衡计算表明,APCD促进了多氯二苯并呋喃从气相向颗粒相的迁移,这导致飞灰成为多氯二氟并呋喃的主要载体,并导致过量排放。本研究的结果有助于优化燃烧条件和系统清洁设计,以控制回转窑焚烧炉的PCDD/F排放。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Emission control and phase migration of PCDD/Fs in a rotary kiln incinerator: hazardous vs medical waste incineration

This study was carried out in a full-scale (50 t/d) rotary kiln incinerator to explore the removal characteristics of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs) by different units of air pollution control devices (APCDs), and special interest was focused on the “memory effect” phenomenon of PCDD/Fs in the wet scrubber (WS), which usually caused an undesirable rise in PCDD/F emission concentrations. The general removal efficiency of PCDD/Fs by APCDs was 99.4% (from 14.11 at exhaust heat boiler (EHB) outlet to 0.09 ng I-TEQ/Nm3 at stack) under medical waste (MW) incineration condition, and 99.2% (from 19.91 to 0.16 ng I-TEQ/Nm3) under hazardous waste (HW) incineration condition. The PCDD/F concentrations in flue gas decreased along the APCDs except for WS, in which the “memory effect” was observed. In detail, WS largely increased the I-TEQ concentration of gas-phase PCDD/Fs from 0.047 to 0.188 ng I-TEQ/Nm3 in the flue gas, and the concentration of particulate-phase PCDD/Fs increased from 0.003 to 0.030 ng I-TEQ/Nm3. In addition, this study found that phase migration promoted the accumulation of PCDD/Fs in scrubbing water, and the flow entrainment phenomenon played a great role in causing the “memory effect”. The PCDD/F concentrations of fly ash collected from cyclone and fabric filter (FF) were as high as 4.23 and 6.99 ng I-TEQ/g, respectively, which had exceeded the national landfill limitation (3 ng I-TEQ/g) in China. The system balance calculations revealed that APCDs promoted the migration of PCDD/Fs from the gas-phase to the particulate-phase, which caused fly ash to be the main carrier of PCDD/Fs and led to excessive emissions. The results of this study can contribute to the optimized design of combustion conditions and system cleaning for controlling PCDD/F emissions from rotary kiln incinerators.

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