飞灰熔融气相污染物释放规律研究

陈竹; 杨帆; 吴冬琴

doi:10.3969/j.issn.1674-991X.2017.06.097

飞灰熔融气相污染物释放规律研究

doi: 10.3969/j.issn.1674-991X.2017.06.097

陈竹¹,
杨帆^2,*, ,,
吴冬琴³

^1. 中国天楹有限公司,江苏南通 226600
^2. 中国天楹有限公司中国天楹设计研究院(上海),上海 200233
^3. 中国天楹有限公司中国天楹设计研究院(海安),江苏南通 226600

详细信息

作者简介:
陈竹(1970—),男,高级工程师,主要研究方向为固体废物处理技术, cz@ctyi.com.cn

通讯作者:
杨帆 E-mail: fanyang03@163.com

中图分类号: X705
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出版历程
- 收稿日期: 2017-07-28
- 刊出日期: 2017-11-20

Release rule of gaseous phase pollutants during melting of fly ash from MSW incineration plant

CHEN Zhu¹,
YANG Fan^{2,*
, ,},
WU Dongqin³

^1. China Tianying Inc., Nantong 226600, China
^2. China Tianying Design Research Institute, China Tianying Inc.(Shanghai), Shanghai 200233, China
^3. China Tianying Design Research Institute, China Tianying Inc.(Nantong), Nantong 226600, China

More Information

Corresponding author: Fan YANG E-mail: fanyang03@163.com

摘要

摘要: 采用国内某垃圾焚烧电厂产生的飞灰,分析不同熔融温度与砂子添加量对飞灰熔融过程中烟气污染物组分和产生量的影响,利用自行设计的管式炉及尾气收集装置进行飞灰高温熔融试验并对熔融烟气进行收集分析。通过重量差减法、X射线荧光光谱仪、原子吸收光谱法、电化学法等测定飞灰熔融过程中挥发分和气相污染物产量;利用热力学模型模拟不同熔融温度和不同砂子添加量条件下,挥发分及气相污染物的产量。结果表明:模拟温度为1 000~1 600 ℃(试验温度为1 450和1 550 ℃)、砂子添加量为10%~30%时,飞灰熔融过程中的污染物主要以熔融飞灰和HCl、H₂S、SO₂等的形式存在,随着温度和砂子添加量的增加,挥发率均增加,且温度的影响大于砂子添加量;模拟值与试验值变化趋势吻合较好,模拟值略大于试验值;熔融飞灰中主要以钠盐、钾盐和氯盐为主,且包含易挥发的Pb和Zn;熔渣中主要以硅酸、铝酸或硅铝酸钙盐为主,同时包含少量的硫化物及氯盐;1 450 ℃,砂子添加量为15%时,熔渣重金属浸出满足GB 5085.3—2007《危险废物鉴别标准浸出毒性鉴别》的要求。
- 垃圾焚烧 /
- 热力学分析 /
- 污染物 /
- 熔融 /
- 飞灰 /
- HCl /
- H₂S /
- SO₂
Abstract: The fly ash released from one municipal solid wastes (MSWs) incineration plant was adopted to to analyze the influences of different melting temperatures and sand additive amounts on the compositions and amounts of pollutants in flue gas during the melting process. The fly ash melting experiments were performed in a self-designed high-temperature tube-furnace with temperature controlled and the pollutants collected by a self-design exhaust gas collection system. The weight subtraction method, X-ray fluorescence spectroscopy, atomic absorption spectrometry and electrochemical process were used to analyze volatile matters and gaseous pollutants during melting. The thermodynamic model was used to simulate the production of volatile matters and gaseous pollutants under different melting temperatures and sand additive amounts. The results show that during fly ash melting at 1 000-1 600 ℃ (experiment temperature 1 450 ℃ and 1 550 ℃) and 10%-30% sand (weight ratio of SiO₂ to fly ash), the main pollutants in melting flue gas are the melting fly ash, HCl, H₂S, SO₂, etc. With the increase of the temperature and sand additive amount, the volatile matter (gas yield) increases, and the effect of the temperature is greater than that of the sand. The simulation values and the experimental values fit well, and the simulation values are slightly larger than the experimental ones. The main compositions of melting fly ash are sodium, potassium and chloride salts, and include some volatile Pb and Zn. The main compositions of slag are silicate, aluminate or aluminosilicate, as well as a little sulfide and chloride. The heavy metal leaching contents of slag melted at 1 450 ℃ with 15% sand are below the national inspection line.
- MSW incineration /
- thermodynamic analysis /
- pollutants /
- melting /
- fly ash /
- HCl /
- H₂S /
- SO₂

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参考文献(16)

[1]	刘略煊, 郑国辉, 邱鸿荣 . 分析垃圾焚烧锅炉烟道灰进入飞灰系统后产生的影响[J].科技风, 2014(14):95-96.
[2]	李润东, 池涌, 李水清 , 等. 城市垃圾焚烧飞灰熔融DSC-DTA实验研究[J]. 环境科学, 2002,23(4):113-117. LI R D, CHI Y, LI S Q , et al. MSW incineration fly ash melting by DSC-DTA[J]. Environmental Science, 2002,23(4):113-117.
[3]	李润东, 池涌, 王雷 , 等. 城市垃圾焚烧飞灰熔融动力学研究[J]. 浙江大学学报(工学版), 2002,36(5):498-503. LI R D, CHI Y, WANG L , et al. Kinetic study of MSW incineration fly ash melting by DSC-DTA[J]. Journal of Zhejiang University(Engineering Science), 2002,36(5):498-503.
[4]	栾敬德, 姚鹏飞, 李润东 , 等. 矿物演化行为对垃圾焚烧飞灰熔融特性的影响[J]. 环境科学研究, 2015,28(3):447-452. LUAN J D, YAO P F, LI R D , et al. Effects of mineral change on melting characteristics of MSW incineration fly ash[J]. Research of Environmental Sciences, 2015,28(3):447-452.
[5]	姜永海, 席北斗, 李秀金 , 等. 垃圾焚烧飞灰熔融固化处理过程特性分析[J]. 环境科学, 2005,26(3):176-179. JIANG Y H, XI B D, LI X J , et al. Characteristics of melting and solidification process of fly ash from refuse incinerator[J]. Environmental Science, 2005,26(3):176-179.
[6]	文娟, 刘清才, 杨剑 . 垃圾焚烧飞灰熔融过程烟气中重金属的迁移分布规律[J]. 环境科学学报, 2010,30(1):148-152. WEN J, LIU Q C, YANG J . The migration and distribution of heavy metals in melting flue gas during the melting process of MSWI fly ash[J]. Acta Scientiae Circumstantiae, 2010,30(1):148-152.
[7]	张晓萱, 席北斗, 王琪 , 等. 垃圾焚烧飞灰熔融过程中重金属的固化机理以及熔渣浸出特性的研究[J]. 环境污染与防治, 2005,27(5):330-334. ZHANG X X, XI B D, WANG Q , et al. Solidification of heavy metals in municipal solid waste incineration(MSWI) fly ash during melting process and leaching characteristic of its melting products[J]. Environmental Polluting & Control, 2005,27(5):330-334.
[8]	SAKAI S, HIRAOKA M . Municipal solid waste incinerator residue recycling by thermal processes[J]. Waste Management, 2000,20:249-258. doi: 10.1016/S0956-053X(99)00315-3
[9]	王小波, 阎常峰, 赵增立 , 等. 垃圾焚烧飞灰熔融污染物排放研究[J]. 燃料化学学报, 2008,36(6):748-752. WANG X B, YAN C F, ZHAO Z L , et al. Pollutant discharge of melting ash from waste incineration[J]. Journal of Fuel Chemistry and Technology, 2008,36(6):748-752.
[10]	RYO Y, NISHIMURA M . Influence of ash composition on heavy metal emission in ash melting process[J]. Fuel, 2002,81:1335-1340. doi: 10.1016/S0016-2361(02)00041-8
[11]	姜永海, 席北斗, 李秀金 , 等. 添加剂对垃圾焚烧飞灰熔融特性的影响[J]. 环境科学, 2006,27(11):2288-2292. JIANG Y H, XI B D, LI X J , et al. Influence of additive on characteristic of slag during the process of melting fly ash from municipal solid waste incinerator[J]. Environmental Science, 2006,27(11):2288-2292.
[12]	YOUNG J P, JONG H . Conversion to glass-ceramics from glasses made by MSW incinerator fly ash for recycling[J]. Ceramics International, 2002,28:689-694. doi: 10.1016/S0272-8842(02)00030-5
[13]	KAVOURASA P, KAIMAKAMISA G . Vitrification of lead-rich solid ashes from incineration hazardous industrial wastes[J]. Waste Management, 2003,23:361-371. doi: 10.1016/S0956-053X(02)00153-8 pmid: 12781225
[14]	CHENG T W, CHEN Y S . On formation of CaO-Al₂O₃-SiO₂ glass-ceramics by vitrification of incinerator fly ash[J]. Chemosphere, 2003,51:817-824. doi: 10.1016/S0045-6535(03)00189-9
[15]	陈德珍, 张鹤声 . 垃圾焚烧炉飞灰的低温固化初步研究[J].上海环境科学, 2002(6):343-349. CHEN D Z, ZHANG H S . Preliminary study on MSWI fly ash vitrification at lower temperature[J].Shanghai Environmental Sciences, 2002(6):343-349.
[16]	KUO Y M, LIN T C . Fate of polycyclic aromatichydrocarbons during vitrification of incinerator ash in a coke bedfurnace[J]. Chemosphere, 2003,51:313-319. doi: 10.1016/S0045-6535(02)00852-4