炭素焙烧沥青烟气治理

采用生石灰吸附袋式除尘法治理炭素焙烧窑沥青烟气 ,具有很好的效果。治理前烟尘 114 8.7mg/ Nm3,沥青烟 480 .5mg/ Nm3,苯并 (a)芘 3 .462 mg/ Nm3;治理后烟尘 12 .8mg/ Nm3,沥青烟 11.0 mg/ Nm3,苯并 (a)芘 3 .0× 10 - 4m g/ Nm3。从运行效果来看 ,烟气的充分冷却和选用生石灰做吸附剂是治理成功的关键。     

淀粉基黄原酸盐处理重金属废水的条件优化研究

采用淀粉基黄原酸盐处理含重金属的电镀废水 ,对淀粉基黄原酸盐的用量、pH值和反应时间等条件进行了研究。结果发现 ,1L含氰电镀废水 (含Cr3+15mg/L、Cu2 +3mg/L、Ni2 +9.2mg/L和Zn2 +6mg/L) ,加入 1g淀粉基黄原酸盐 ,调节 pH为 8,搅拌 1h ,过滤 ,处理后的废水中Cr3+、Cu2 +、Zn2 +和Ni2 +残余浓度分别为 0 .0 8mg/L、0 .0 1mg/L、0 .1mg/L和 0 .0 8mg/L。含有重金属盐的残渣 ,可用硝酸处理 ,以回收重金属     

密相塔烟气脱硫技术试验研究

建立了密相塔烟气脱硫试验装置,并对烧结烟气进行了脱硫试验研究,验证了该工艺的可行性,并研究了主要因素对脱硫效率的影响.结果表明,钙硫比和近绝热饱和温度（approach to adiabatic saturation temperature,AAST）是影响脱硫效率的显著因素,循环灰浓度是保证系统脱硫效率的关键因素.在Ca/S比为1.2、密相塔出口烟气AAST=15℃、循环灰浓度为400g/m3条件下,系统能连续稳定运行,脱硫效率达92.5%以上,系统出口烟气中SO2浓度在150 mg/Nm3以下.     

不锈钢烧结纤维毡外加粉体助剂过滤烟尘微粒

为了解决不锈钢烧结纤维毡对柴油机微粒过滤效率不高及其黏附堵塞问题,提出了不锈钢烧结纤维毡外加粉体助剂过滤烟尘的新方法。用不同过滤精度(5～30μm)的不锈钢烧结纤维毡片,覆盖不同厚度(0.5～3 mm)的粉体层,对由发烟剂燃烧产生的烟尘(D50=0.183μm)进行了过滤实验,用welas3000气溶胶粒径谱仪测试过滤前后的烟尘浓度,得到了不同情况下的过滤效率及分级效率。实验结果表明,粉体粒径、厚度、过滤气速及时间对过滤效率影响都很大,在滤速3 m/min、粉体粒径200～250目及厚度1.5 mm时,初始过滤效率高达95.746%,30 min后过滤效率上升到98.499%,300min内过滤效率基本保持在98%以上。     

生物滤池-接触氧化工艺处理醇醚表面活性剂废水

介绍抚顺醇醚化学厂醇醚生产废水的排放与水质特点 ,结合工艺流程介绍处理工艺设计和技术参数。几年来的运行结果表明 ,采用生物滤池 生物接触氧化 纤维球过滤三级工艺处理醇醚表面活性剂废水 ,处理效果良好 ,出水CODCr<10 0mg/L ,SS <15mg/L ,滤后水可用于厂区绿化。     

密相塔烟气脱硫技术试验研究

建立了密相塔烟气脱硫试验装置,并对烧结烟气进行了脱硫试验研究,验证了该工艺的可行性,并研究了主要因素对脱硫效率的影响.结果表明,钙硫比和近绝热饱和温度(approach to adiabatic saturation temperature,AAST)是影响脱硫效率的显著因素,循环灰浓度是保证系统脱硫效率的关键因素.在Ca/S比为1.2、密相塔出口烟气AAST=15℃、循环灰浓度为400g/m3条件下,系统能连续稳定运行,脱硫效率达92.5%以上,系统出口烟气中SO2浓度在150 mg/Nm3以下.     

流化床生物质气化过程的中试研究

在流化床生物质气化炉内 ,用空气进行气化生物质 (花生壳 )的试验研究 ,分析的参数是ER(0 .2— 0 .45 ) ,气化床的温度 (75 0— 85 0℃ )。当当量比ER在 0 .2 5— 0 .33范围内 ,气化燃气热值为 6 .2— 6 .8MJ/Nm3,气体产量在 2 6 0—30 0Nm3/h。并对七种农、林废弃物进行了初步气化实验研究。生成的燃气成分 :CO在 14%— 17%之间 ,H2 含量一般低于10 % ,甲烷含量为 5 %— 10 %。燃气热值多数在 5 30 0— 6 5 0 0kJ/Nm3,气化效率 72 .6 %。实验结果表明 ,流化床生物质气化炉可用于生物质气化     

高效苯降解菌的筛选鉴定及其在生物过滤塔处理苯的填料选择

从污水处理厂曝气池的活性污泥筛选出1株苯的高效降解真菌HD-3,经形态特征、ITS基因序列系统学分析,确定HD-3为杂色曲霉Aspergillus versicolor,该菌株8 d内对初始浓度439.3 mg/L和4 393 mg/L的苯的降解率分别为78.56%和33.96%。当苯的初始浓度为439.3 mg/L,HD-3降解苯的最适温度为30℃,最适pH为4.5。在此基础上,提出了采用不同填料生物过滤塔处理苯废气的工艺,并进行了实验研究,实验结果表明:(1)随着苯的浓度提高,苯的降解率逐渐降低。当苯的浓度为200 mg/m3时,煤质柱状活性炭生物过滤塔、生物陶粒生物过滤塔、竹材生物过滤塔的苯平均去除率(REave)分别为93.63%、93.16%和82.38%;当苯的进口浓度增加到3 000 mg/m3时,3种生物过滤塔的苯平均去除率(REave)分别为78.89%、68.43%和51.87%。(2)不同填料对苯的去除能力不同,煤质柱状活性炭>生物陶粒>竹材。     

生物过滤塔处理实验室废气

研究了生物过滤塔处理实验室排放的模拟混合废气,考察了反应器对苯、甲苯、二甲苯、乙醇、丙酮、乙酸乙酯和甲烷等废气的去除效果。运行结果表明,在设备稳定运行期间,进气中总挥发性有机物(TVOCs)的浓度为124～380 mg/m3,而出气浓度在10～40 mg/m3,去除效率保持在85%以上。实验室废气中的多种污染物在生物过滤塔中去除机理不同,亲水性污染物的去除效率高于疏水性污染物。通过系统关停后重启,污染物的去除效果在第2天就能恢复,这为生物过滤塔处理实验室废气过程的停运检修或者系统闲置提供了可行性。     

中水回用中平板膜的污染机理分析

采用间歇式生物反应器，对模拟小区生活污水的人工配水进行了生物处理；然后，在操作压力为0．1MPa，搅拌速度为300r／min条件下，选用膜生物反应器中常用的聚醚砜（PES，切割分子量分别为2万、1万和5千）、聚丙烯腈（PAN，切割分子量为20万）、聚偏氟乙烯（PVDF，切割分子量为20万）超滤平板膜和聚醚砜（PES，孔径为0．1μm）、聚丙烯腈（PAN，孔径为0．1μm）、聚偏氟乙烯（PVDF，孔径为0．1μm）微滤平板膜在实验室用死端超滤器上分别对活性污泥悬浮液进行了过滤并探讨了和间歇式生物反应器组合在一起用于中水回用的效果，结果表明：每种组合处理后的出水水质为COD〈50mg／L，NH3-N〈10mg／L，SS为0mg／L，浊度为0NTU，都达到了中水回用的水质标准（CJ25．1．89），其中生物反应器分别与PES超滤膜（5千、1万、2万）和PAN（20万、0．1μm）膜组合时，对COD的去除率较高，但所有组合对NH3-N、TOC去除率及膜的渗透通量都相差不大。此外，根据恒压堵塞过滤定律对膜的污染机理进行的研究证实：对于微滤膜和PAN（20万）超滤膜而言，由滤饼过滤过渡到完全（标准）堵塞，再到滤饼过滤；但对于PVDF（20万）和PES（2万）超滤膜，则由标准堵塞过渡到完全堵塞，再到滤饼过滤；PES（5千、1万）超滤膜的污染机理相对简单，整个过程以滤饼过滤为主。     

Catalytic NOx reduction with simultaneous dioxin and furan oxidation

The engineering, construction, performance and running costs of a catalytic flue gas cleaning component in the low dust area of a municipal waste incinerator is discussed. For this purpose, the case study of a Flemish incineration plant is presented, covering the history, the design procedure of the catalyst, relevant process data and the financial aspects. A reliable PCDD/F-destruction by means of oxidation by the catalyst to typical values of 0.001 ng TEQ/Nm3 has been demonstrated. At the same time, NOx- and CO-emissions are reduced by 90% and 20% to about 50 mg/Nm3 and below 10 mg/Nm3, respectively.     

高效喷淋泡沫脱硫技术及装置的应用

SO2是产生酸雨的主要气体,其主要来源于工业燃煤锅炉.以沈阳一家电厂为例,该厂选用新型高效的喷淋泡沫脱硫除尘器对锅炉排放的SO2进行治理.进入喷淋泡沫塔前的SO2平均浓度为2780 mg/m3,经脱硫后出塔平均浓度为289.3 mg/m3,去除率为89.6%.结果表明,这种有别于传统湿法的新型高效的喷淋泡沫脱硫技术及装置具有脱硫效率高、装置占地少、运行稳定、沉淀物易于回收利用等特点,对锅炉排放的SO2进行治理是非常有效的.     

高效喷淋泡沫脱硫技术及装置的应用

SO2是产生酸雨的主要气体，其主要来源于工业燃煤锅炉。以沈阳一家电厂为例，该厂选用新型高效的喷淋泡沫脱硫除尘器对锅炉排放的SO2进行治理。进入喷淋泡沫塔前的SO2平均浓度为2780mg／m^3，经脱硫后出塔平均浓度为289．3mg／m^3，去除率为89．6％。结果表明，这种有别于传统湿法的新型高效的喷淋泡沫脱硫技术及装置具有脱硫效率高、装置占地少、运行稳定、沉淀物易于回收利用等特点，对锅炉排放的SO2进行治理是非常有效的。     

Trace metal emissions from co-combustion of refuse derived and packaging derived fuels in a circulating fluidized bed boiler

Energy recovery from refuse derived fuels (RDF) and packaging derived fuels (PDF) is one option in integrated waste management. Nine RDF and PDF co-combustion tests with peat and coal in a circulating fluidized bed boiler were carried out in this work. Heavy metal emissions in flue gas and fly ash were measured. Multivariate data analyses were used to find out the most important parameters affecting metal emissions in the flue gas.

The results showed that total heavy metal emissions were low. Although RDF and PDF had more heavy metals than peat and coal, the multivariate data analysis showed that an increase of the RDF or PDF share in the fuel mixture up to 20% did not correlate directly with the metal emissions in the flue gas. Distribution of Cd, Cu, Zn and Sn between flue gas and fly ash correlated with each other. Injection of limestone to bind sulphur and chlorine did not have a significant effect on heavy metal emissions in the flue gas. Heavy metals concentrated on the fly ash, but all fly ashes passed the EPA-TCLP tests.     

Impacts of pH and ammonia on the leaching of Cu(II) and Cd(II) from coal fly ash

Many coal-fired power plants are implementing ammonia-based technologies to reduce NO(x) emissions. Excess ammonia in the flue gas often deposits on the coal fly ash. Ammonia can form complexes with many heavy metals and change the leaching characteristics of these metals. This research tends to develop a fundamental understanding of the ammonia impact on the leaching of some heavy metals, exemplified by Cu(II) and Cd(II), under different pH conditions. Batch results indicated that the adsorption is the main mechanism controlling Cu(II) and Cd(II) leaching, and high concentrations of ammonia (>5,000 mg/l) can increase the release of Cu(II) and Cd(II) in the alkaline pH range. Based on the chemical reactions among fly ash, ammonia, and heavy metal ion, a mathematical model was developed to quantify effects of pH and ammonia on metal adsorption. The adsorption constants (logK) of Cu(2+), Cu(OH)(+), Cu(OH)(2), and Cu(NH(3))(m)(2+) for the fly ash under investigation were respectively 6.0, 7.7, 9.6, and 2.9. For Cd(II), these constants were respectively 4.3, 6.9, 8.8, and 2.6. Metal speciation calculations indicated that the formation of less adsorbable metal-ammonia complexes decreased metal adsorption, therefore enhanced metal leaching.     

Improvements in dioxin abatement strategies at a municipal waste management plant in Barcelona

This study presents the results of a dioxin abatement programme undertaken in the municipal waste incineration plant of Montcada i Reixac (Barcelona, Spain) after the replacement of an obsolete air cleaning device by a new flue gas treatment system. A number of sampling campaigns were conducted with the aim of characterising stack gas emission levels of polychlorinated dibenzo-p-dioxins (PCDDs)/polychlorinated dibenzofurans (PCDFs) and to evaluate initial specifications of dioxin stack gas emission values below 0.1 ng I-TEQ/Nm(3). Preliminary results revealed levels between 44 and 111 ng I-TEQ/Nm(3) when the gas-cleaning system consisted only of an old electrostatic precipitator (ESP). Decreased levels around 15 ng I-TEQ/Nm(3) were observed when the semi-dry scrubber began to operate and the ESP was switched off. Again, remarkable dioxin removal was observed after the installation of the fabric filter and levels around 0.3-0.4 ng I-TEQ/Nm(3) were soon achieved. Nevertheless, the limit of 0.1 ng I-TEQ/Nm(3) was reached by additional injection of activated carbon which helped to lower PCDD/PCDF levels to around 0.036 ng I-TEQ/Nm(3). The results also demonstrated a significant change in the dioxin distribution present in combustion-derived materials (stack gas emission, bottom ash and solid waste from gas treatment). The major dioxin fraction was found in gaseous matrices before the flue gas control system was upgraded. After this step, the major dioxin fraction content was observed in solid waste from gas treatment.     

平煤集团坑口电厂除尘设施的技术改造

平煤集团坑口电厂原有文丘里水膜除尘器不能使排放烟尘达标排放 ,在保留原有两台文丘里水膜除尘器基础上 ,并在其前串联两台单室二电场静电除尘器 ,经改造后 ,电除尘 文丘里水膜除尘串联组合技术总除尘效率达 99 9% ,排放浓度为 10 3mg/Nm3,实现了达标排放     

Catalytic NO(chi) reduction with simultaneous dioxin and furan oxidation

The engineering, construction, performance and running costs of a catalytic flue gas cleaning component in the low dust area of a municipal waste incinerator is discussed. For this purpose, the case study of a Flemish incineration plant is presented, covering the history, the design procedure of the catalyst, relevant process data and the financial aspects. A reliable PCDD/F-destruction by means of oxidation by the catalyst to typical values of 0.001 ng TEQ/Nm3 has been demonstrated. At the same time, NO(chi)- and CO-emissions are reduced by 90% and 20% to about 50 mg/N m3 andbelow 10 mg/N m3, respectively.     

Destruction of PCDD/Fs by SCR from flue gases of municipal waste incinerator and metal smelting plant

Partitioning of PCDD/F congeners between vapor/solid phases and removal and destruction efficiencies achieved with selective catalytic reduction (SCR) system for PCDD/Fs at an existing municipal waste incinerator (MWI) and metal smelting plant (MSP) in Taiwan are evaluated via stack sampling and analysis. The MWI investigated is equipped with electrostatic precipitators (EP, operating temperature: 230 degrees C), wet scrubbers (WS, operating temperature: 70 degrees C) and SCR (operating temperature: 220 degrees C) as major air pollution control devices (APCDs). PCDD/F concentration measured at stack gas of the MWI investigated is 0.728 ng-TEQ/Nm(3). The removal efficiency of WS+SCR system for PCDD/Fs reaches 93% in the MWI investigated. The MSP investigated is equipped with EP (operating temperature: 240 degrees C) and SCR (operating temperature: 290 degrees C) as APCDs. The flue gas sampling results also indicate that PCDD/F concentration treated with SCR is 1.35 ng-TEQ/Nm(3). The SCR system adopted in MSP can remove 52.3% PCDD/Fs from flue gases (SCR operating temperature: 290 degrees C, Gas flow rate: 660 kN m(3)/h). In addition, the distributions of PCDD/F congeners observed in the flue gases of the MWI and MSP investigated are significantly different. This study also indicates that the PCDD/F congeners measured in the flue gases of those two facilities are mostly distributed in vapor phase prior to the SCR system and shift to solid phase (vapor-phase PCDD/Fs are effectively decomposed) after being treated with catalyst. Besides, the results also indicate that with SCR highly chlorinated PCDD/F congeners can be transformed to lowly chlorinated PCDD/F congeners probably by dechlorination, while the removal efficiencies of vapor-phase PCDD/Fs increase with increasing chlorination.     

垃圾炉一次风量对炉床燃烧影响的仿真研究

针对垃圾焚烧炉床层内垃圾燃烧过程复杂性及影响垃圾燃烧效率因素多的问题,运用数值仿真方法对某垃圾焚烧炉床层垃圾燃烧进行了模拟,获得了垃圾质量流失速率、水分蒸发速率、挥发分释放速率、焦炭燃烧速率和烟气的温度;并在50~1 000 Nm3/min范围内改变一次风流量,获得了床层质量流失比值、过剩空气系数和烟气中各组分的质量百分比含量。仿真结果显示,一次风流量取值517.47~6`32.09 Nm3/min时燃烧效率较高;炉排两端区域的一次风流量在50~75 Nm3/min时,可以使垃圾床表面平均温度明显提高,而且还可以提高燃烧效率,同时减少供风总量,节约能源与动力资源。本研究对优化设计垃圾焚烧炉,提高床层内垃圾的燃烧效率有一定参考价值。