循环流化床电站排放烟尘特性及痕量重金属分析

对35t h循环流化床电厂电除尘器入口和出口的烟气气溶胶进行分级取样,得到飞灰浓度和粒度分布以及电除尘器的分级脱除效率.电除尘器对PM10、PM2 5的脱除效率分别为94 34%和91 38%,使部分可吸入烟尘颗粒穿透除尘设备而直接排放到大气环境中.同时对不同粒度飞灰中重金属含量进行了测试,得到痕量元素浓度从高到低依次为Ni,Cr,Cu,Cd,Pb,Hg.痕量重金属含量与飞灰粒径有一定依附关系,其分布规律与煤成分、锅炉燃烧方式和痕量元素自身的挥发特性等因素有关.     

Porous silica synthesis out of coal fly ash with no residue generation and complete silicon separation

● Both amorphous and crystalline silicon are completely separated from coal fly ash. ● Porous silica is synthesized out of coal fly ash. ● No residues is produced during the whole synthesis process. ● The one-step method to synthesize silica don’t need long-time reaction and aging. Ordered mesoporous silica materials exhibit enormous potential in industrial production. Since coal fly ash (CFA) is abundant in Si, it has become a green and promising way to utilize CFA by synthesizing porous silica materials. However, the stable crystalline structure of CFA limits the extraction of Si, and the residue is generated during the process of extracting Si. In this work, we proposed a no-residue method to synthesize ordered mesoporous silica out of CFA. Sodium carbonate (Na₂CO₃) was used to reconstruct the crystals of the CFA, and the calcined mixture then directly reacted with the precipitators. This method combined the process of Si extraction and porous material synthesis. In this method, no residue was generated and the silicon in both amorphous and crystalline phases of CFA was fully utilized. By this method, the extraction efficiency of Si was increased from 31.75% to nearly 100%. The as-synthesized mesoporous silica had a highly-ordered pore structure with a space group of la-3d, a surface area of 663.87 m²/g, a pore volume of 0.41 cm³/g, and an average pore diameter of 2.73 nm. The mechanism of crystalline transformation and material structure formation were systematically studied. This method provides a new idea to dispose of CFA and synthesize porous silica materials.     

Effects of sulfur on variations in the chemical speciation of heavy metals from fly ash glass

● A higher sulfur content reduced the curing rate of Cr in glass. ● Depolymerization increased the amounts of heavy metals in the carbonate bound state. ● Reducing the CaO/SiO₂ ratio increased the proportion of stable heavy metals. This work designed a new CaO-Al₂O₃-SiO₂-SO₃ glass for the immobilization of multiple heavy metals found in dechlorinated fly ash having high amounts of calcium and sulfur. Increasing the (CaO + SO₃)/SiO₂ mass ratio (M(CS/S)) from 0.28 to 0.85 was found to lower the proportions of Mn, Ni and Zn in an unstable state, while an M(CS/S) ratio of 0.51 gave the lowest proportions of unstable Cr and Pb. Decreasing the degree of polymerization of the glassy network increased the proportions of Mn, Cr, Ni, Pb and Zn in the carbonate bound state. The leaching out of metals in this state was the primary cause of degradation of Q³ structural units in the glassy network. The amount of Mn in the iron-manganese oxide bound state was increased by increasing the number of Q² units in the silicate network. Decreasing the CaO/SiO₂ mass ratio (M(C/S)) raised the proportions of Mn, Ni and Zn in the unstable state. An M(C/S) value of 0.43 lowered the proportions of unstable Cr and Pb. A principal components analysis determined that the leaching of toxic heavy metals from the glass was primarily related to the proportions of these metals in the unstable state while there were no evident correlations between leaching and the proportions in stable states.     

粉煤灰吸附处理含铬废水的研究

研究了粉煤灰吸附处理实验室模拟含铬废水 . 实验结果表明 : 废水 pH 值为 2.00～3.74、粉煤灰用量为2 g、吸附平衡时间 80 min时,铬去除率可达98%以上;吸附符合Freundlich等温模式,吸附等温方程式为 logq=1.568 9-0.146 4 logc,以物理吸附为主;穿透体积为90 mL.利用粉煤灰吸附处理含铬废水,具有处理效果好,操作简单,运行费用低等优点.     

旋风除尘器灰环磨损与锥体角度关系的研究

提出在普通锥体型旋风除尘器中,回转性灰环是造成锥体部位磨损的重要原因之一.通过对锥体内粉尘颗粒的受力分析,从理论上推导出了减低灰环磨损的锥体角度的表达式.通过对理论分析提出了旋风除尘器锥体设计中应注意的问题,为旋风除尘器的设计提供一定的参考依据.     

处理污水后陶粒作为栽培基质的试验

以秸秆-粉煤灰陶粒（比表面积为7．925m2·g-1）作为曝气生物滤池（BAF）载体填料,处理城市污水和餐饮废水,其COD、NH3-N和TP去除率分别为90．33％、77．44％、82．41％和86．50％、68．98％、80．30％。对处理污水后陶粒的农用资源化可行性进行评估,考察陶粒不同施用量对小白菜（Brassicachinensis）种子萌发、生长状况和产量的影响。结果表明,处理污水后陶粒的性能指标达到GB8172—87《城镇垃圾农用标准》;陶粒质量分数为20％时小白菜种子发芽率最高,且萌发较快,在5d时达到100％;随陶粒施用量增加,小白菜长势更好,产量大致呈增加趋势,陶粒质量分数为80％时增产率最高,为352．51％。但陶粒施用量越高,栽培基质抗干旱能力越差,陶粒质量分数为20％和40％处理具有较好的土壤保湿效果。     

CO2去除垃圾焚烧飞灰水洗液中Pb和Zn的工艺条件

为探明CO₂对飞灰水洗液中Pb和Zn的去除效果,研究了CO₂浓度、通入时间、流速以及体系反应温度和重金属离子初始浓度对Pb和Zn在水洗液中沉淀的影响.结果表明:水洗液中Pb和Zn的初始浓度越低,通入CO₂后Pb和Zn的残留率越低;增大CO₂浓度、延长通入时间、增大流速以及降低体系反应温度,均可有效降低Pb和Zn的残留率;CO₂沉淀处理在最佳工艺条件〔CO₂浓度为10%(φ)、通入时间为80 s、流速为2 mL/min以及体系反应温度为40~50 ℃〕下,Pb和Zn的残留率分别降至3%和0.1%以下.      

水洗对焚烧飞灰中氯及重金属元素的脱除研究

为了研究水洗对飞灰中氯和重金属元素的脱除影响因素,确定水洗最佳参数并分析水洗的脱除机理,对飞灰的水洗过程进行了系统的研究。结果显示:当液固比为8、水洗时间10 min、水洗温度50℃、水洗1次时,氯的去除率达93.71%以上;水洗脱氯的过程包括溶解和脱附两部分,当液固比20 mL/g时,以脱附为主;同时飞灰中的重金属在水洗过程中也有不同程度的脱除,其中Pb的脱除率和在水洗液中的浓度较大。     

我国生活垃圾焚烧发电过程中温室气体排放及影响因素 ——以上海某城市生活垃圾焚烧发电厂为例

以上海某城市生活垃圾焚烧发电厂为例,采用上游-操作-下游(UOD)表格法,分析了生活垃圾焚烧发电过程中不同环节的温室气体排放贡献,及影响其排放的主要因素.结果表明,目前我国生活垃圾焚烧发电过程是温室气体排放源,以吨垃圾净CO2排放量计,达166~212kg.生活垃圾中自含化石碳对温室气体排放的贡献最大,CO2排放量为257kg/t;因焚烧发电上网而获得的净减排量为120kg/t;垃圾收运、辅助物料消耗及焚烧灰渣处理等引起的排放量总计为27~45kg/t.生活垃圾沥出渗滤液后续处理过程的温室气体排放量为7.7kg/t.节省焚烧过程辅助物料使用和改变焚烧灰渣处置方式能够减少温室气体排放量,但是减排效果有限.我国各地区电能基准线排放因子存在差异,对焚烧过程温室气体排放的影响为0~13%.降低生活垃圾含水率、提高垃圾可发电量是我国生活垃圾焚烧发电过程温室气体排放源汇转换的关键途径.     

氯化钙焙烧法提取粉煤灰中的氧化铝

研究了以CaCl2为配料对粉煤灰进行焙烧活化,焙烧熟料水洗后,用硫酸溶液浸取以回收粉煤灰中氧化铝的方法,并考察了焙烧温度和时间、CaCl2加量、硫酸浓度和浸取时间等因素对氧化铝回收率的影响.采用添加CaCl2焙烧的方法,可高效率破坏粉煤灰中的刚玉和莫来石,生成能被无机酸分解的物相,如钙铝黄长石、硅铝酸钙等.结果表明,按CaCl2:粉煤灰=0.8的比例加入CaCl2,于900℃焙烧30min,熟料经水洗涤后,按照每g粉煤灰~30mmol硫酸的量加入1~4mol/L的硫酸溶液,常温浸取30min,氧化铝浸出率可达95%以上.