粉煤灰的综合利用

根据国内外文献资料周开，综述了粉煤灰在建材，、筑路、提取铝盐、烟气净化和工业废水处理等领域的综合利用现状和发展趋势。     

聚合氯化铝与聚磷硫酸铁絮凝除藻比较研究

针对武汉市莲花湖湖水,采用聚合氯化铝(PAC)和聚磷硫酸铁(PPFS)进行絮凝实验,比较了两种无机絮凝剂的絮凝效果及原水处理前后藻类群落变化。主要结论如下:①PPFS与PAC的最佳投加量分别为1.5mg/L、2.0mg/L;②PPFS在去除藻类细胞、浊度和色度方面均优于PAC,当PPFS投加过量时,因水体中Fe3+过量分布,使水样色度去除率下降;③PPFS絮凝处理微囊藻为主体的水华原水时,其效果比PAC更好。本文研究后表明:PPFS是一种新型高效絮凝剂,其絮凝性能明显优于PAC,当水体以微型藻类为主时,可使用PPFS以替代PAC,能提高絮凝效果。     

铝—溴邻苯三酚红—乙基紫—明胶显色体系的研究及应用

探讨了在明胶存在下，铝-溴邻苯三酚红（简称BPR）-乙基紫（简称EV）体系产生的协同显色反应条件。结果表明，在pH4．2～5．2的HAc－NaAc缓冲介质中，铝与BPR－EV形成离子型缔合物的最大吸收峰在615nm处，摩尔吸光系数为4．05×104L·mol-1·cm-1，铝含量在0～10μg／25ml遵循比耳定律．方法选择性好，可用于茶叶和铝锅沸水中铝含量分析，结果令人满意．     

Deposition behavior of residual aluminum in drinking water distribution system: Effect of aluminum speciation

Finished drinking water usually contains some residual aluminum.The deposition of residual aluminum in distribution systems and potential release back to the drinking water could significantly influence the water quality at consumer taps.A preliminary analysis of aluminum content in cast iron pipe corrosion scales and loose deposits demonstrated that aluminum deposition on distribution pipe surfaces could be excessive for water treated by aluminum coagulants including polyaluminum chloride（PACl）.In this work,the deposition features of different aluminum species in PACl were investigated by simulated coil-pipe test,batch reactor test and quartz crystal microbalance with dissipation monitoring.The deposition amount of non-polymeric aluminum species was the least,and its deposition layer was soft and hydrated,which indicated the possible formation of amorphous Al（OH）₃.Al₁₃ had the highest deposition tendency,and the deposition layer was rigid and much less hydrated,which indicated that the deposited aluminum might possess regular structure and self-aggregation of Al₁₃could be the main deposition mechanism.While for Al₃₀,its deposition was relatively slower and deposited aluminum amount was relatively less compared with Al₁₃.However,the total deposited mass of Al₃₀ was much higher than that of Al₁₃,which was attributed to the deposition of particulate aluminum matters with much higher hydration state.Compared with stationary condition,stirring could significantly enhance the deposition process,while the effect of pH on deposition was relatively weak in the near neutral range of 6.7 to 8.7.     

活性硅酸混凝剂在有机废水处理中的应用研究

以水玻璃,硫酸铝为主要原料制备一定比例铝离子的活性硅酸混凝剂(简称PSAA,以下同),试验其在处理一些典型的有机废水中的混凝特性及影响因素。实验结果表明,铝离子的添加量及溶液最终pH值对PSAA的混凝特性影响都很大.当SiO₂/Al3+(摩尔比)为1左右时,混凝效果最好;在pH4～10范围内,PSAA有着良好的混凝性能。      

炼铝废渣的综合利用试验

铝灰掺入混凝土后将引起体积膨胀强度下降,故不适用于混凝土。但含一定量的铝灰,石灰和统砂的混合材料一种优质的路用材料,用铝灰制成的水处理剂对印染废水,制革废水均有较好的去除效果。     

PACS中铝的形态分布及其经验公式

利用AlCl₃·6H₂O,Na₂SO₄和NaOH为原料制备了一系列具有不同Al3+/SO2₄-摩尔比及碱化度的PACS样品,利用Al-Ferron逐时络合比色法就Al3+/SO2_４-摩尔比及碱化度对PACS中铝的形态分布影响进行了实验研究,得到了一系列实验结果,建立了PACS中铝的水解形态分布与Al3+/SO2₄-摩尔比和碱化度之间的数学模型,数据拟合结果与实验结果比较,证明二者基本吻合。      

模拟酸雨对酸性土壤铝溶出及其形态转化的影响

研究了我国南方酸沉降区主要土壤类型在模拟酸雨影响下,土壤中铝离子释放及铝形态转化的特点。结果表明,酸雨淋洗造成土壤中铝离子释放,酸雨pH值越低,铝离子释放量越大;酸雨淋洗还造成土壤中铝形态发生变化,酸雨pH越低,土壤中羟基态铝和腐殖质铝含量愈低,交换态铝含量越高,土壤中铝对植物和生态系统的危害性也越大。     

饮用水水质安全性的探讨

阐明了目前我国城镇供水水质安全所存在的问题：主要从藻毒素、消毒副产物、内分泌干扰物、铝浓度超标、出厂水的二次污染等五个方面加以讨论,且分析了它们的危害及产生原因。     

Surface applied water treatment residuals affect bioavailable phosphorus losses in Florida sands

Water treatment residuals (WTR) can reduce runoff P loss and surface co-application of P-sources and WTR is a practical way of land applying the residuals. In a rainfall simulation study, we evaluated the effects of surface co-applied P-sources and an Al-WTR on runoff and leacheate bioavailable P (BAP) losses from a Florida sand. Four P-sources, namely poultry manure, Boca Raton biosolids (high water-soluble P), Pompano biosolids (moderate water-soluble P), and triple super phosphate (TSP) were surface applied at 56 and 224kgPha(-1) (by weight) to represent low and high soil P loads typical of P- and N-based amendments rates. The treatments further received surface applied WTR at 0 or 10gWTRkg(-1) soil. BAP loss masses were greater in leachate (16.4-536mg) than in runoff (0.91-46mg), but were reduced in runoff and leachate by surface applied WTR. Masses of total BAP lost in the presence of surface applied WTR were less than approximately 75% of BAP losses in the absence of WTR. Total BAP losses from each of the organic sources applied at N-based rates were not greater than P loss from TSP applied at a P-based rate. The BAP loss at the N-based rate of moderate water-soluble P-source (Pompano biosolids) was not greater than BAP losses at the P-based rates of other organic sources tested. The hazards of excess P from applying organic P-sources at N-based rates are not greater than observed at P-based rates of mineral fertilizer. Results suggest that management of the environmental P hazards associated with N-based rates of organic materials in Florida sands is possible by either applying P-sources with WTR or using a moderate water-soluble P-source.