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1.
强化混凝去除微污染饮用原水中的As(III)   总被引:4,自引:1,他引:3       下载免费PDF全文
以聚合硫酸铁和聚合氯化铝为混凝剂,采用强化混凝的处理方法,对微污染饮用水原水中微量砷的去除进行了研究.考察了pH值、氧化剂用量、混凝剂投加量、砷初始浓度和原水浊度等因素对砷去除的影响.结果表明,聚合硫酸铁除砷效果好于聚合氯化铝;在pH值为6~8,微污染原水砷浓度为0.1mg/L,聚合硫酸铁投加量为0.078mmol/L时,可使滤后水中砷浓度低于0.01mg/L.  相似文献   

2.
Batch experiments were conducted to evaluate fluoride removal by Al,Fe,and Ti-based coagulants and adsorbents,as well as the effects of coexisting ions and formation of aluminum–fluoride complexes on fluoride removal by co-precipitation with alum(Al_2(SO_4)_3·18H_2O).Aluminum sulfate was more efficient than the other coagulants for fluoride removal in the pH range between 6 and 8.Nano-crystalline TiO_2 was more effective for fluoride removal than Al and Fe hydroxides in a pH range of 3–5.Coexisting anions in water decreased the removal of fluoride in the order:phosphate(2.5 mg/L) arsenate(0.1 mg/L) bicarbonate(200 mg/L) sulfate(100 mg/L) = nitrate(100 mg/L) silicate(10 mg/L) at a pH of 6.0.The effect of silicate became more significant at pH 7.0.Calcium and magnesium improved the removal of fluoride.Zeta-potential measurements determined that the adsorption of fluoride shifted the PZC of Al(OH)_3 precipitates from 8.9 to 8.4,indicating the chemical adsorption of fluoride at the surface.The presence of fluoride in solution significantly increased the soluble aluminum concentration at pH 6.5.A Visual MINTEQ modeling study indicated that the increased aluminum solubility was caused by the formation of AlF~(2+),AlF~(+2),and AlF_3complexes.The AlF_x complexes decreased the removal of fluoride during co-precipitation with aluminum sulfate.  相似文献   

3.
混凝和强化混凝对印染废水中锑(Ⅴ)的去除特性   总被引:1,自引:0,他引:1       下载免费PDF全文
印染废水中锑的排放标准日趋严格,是印染废水处理面临的新挑战.以混凝和强化混凝去除印染废水中锑(Ⅴ)为目标,发现聚硫酸铁(PFS)混凝剂对印染废水中锑(Ⅴ)的去除效率显著优于铁铝复配混凝剂和铝盐混凝剂,去除效率达97.4%,出水锑(Ⅴ)浓度可达4μg·L~(-1).酸性条件(低水解度)有利于PFS生成Fe(a)活性组分和静电吸引、锑(Ⅴ)迁移,且絮体颗粒较小,促进PFS混凝除锑(Ⅴ)效率;酸性条件下PFS除锑(Ⅴ)效率是中性条件的1.27倍,处理出水中锑(Ⅴ)浓度仅为中性条件的33.3%.PFS投加量与除锑(Ⅴ)效率符合反比例模型.在较高锑(Ⅴ)浓度下,提升PFS投加量可提高除锑(Ⅴ)效率,但在较低锑(Ⅴ)浓度下,提升PFS投加量对除锑(Ⅴ)效率的促进较小.PFS絮体回流与混凝沉淀串联或耦合可显著提升印染废水中锑(Ⅴ)的去除效率,其除锑(Ⅴ)效率分别是单一PFS混凝沉淀的1.14倍和1.32倍,可有效降低出水锑(Ⅴ)浓度并节约PFS投加量和减少污泥生成量.其中混凝-絮体回流耦合工艺中,最佳絮体回流比例为100%.  相似文献   

4.
聚合硫酸铁混凝消除水中有机氯的研究   总被引:1,自引:0,他引:1  
采用聚合硫酸铁(PFS)絮凝剂对水中有机氯农药(OCPs)进行强化混凝处理,并运用响应曲面法(RSM)优化分析了影响OCPs去除率的混凝条件,如p H值、原水浊度、混凝剂投加量和OCPs的初始浓度诸因素.结果表明,各影响因素交互作用显著,最佳混凝条件组合为:p H=5.0、原水浊度=150NTU、PFS投加量为12mg/L、OCPs初始浓度为200ng/L,在此条件下,PFS絮凝剂可有效去除水中OCPs,经模型验证实验得到最佳条件下去除率α-HCH为82.23%、β-HCH为71.15%、γ-HCH为77.28%、δ-HCH为86.27%、p,p’-DDE为93.78%,与RSM预测值基本相同.结合絮体分形维数和Zeta电位对混凝效果的机理进行了探讨,表明各因素均达到了最佳水平.  相似文献   

5.
研究了MTBE在砂土中的静态吸附以及采用地下水循环井技术(GCW)去除砂土和地下水中MTBE的衰减规律。结果表明:MTBE在砂土中的吸附动力学符合准二级动力学方程,相关系数R2为0.99618,在砂土中的吸附平衡时间为24 h;吸附热力学符合Linear平衡吸附,吸附系数为0.00306 m3/kg。GCW运行30 h后,地下水饱和含水层中MTBE浓度由500 mg/L降至72.5 mg/L,去除率为85.5%;砂土中MTBE的吸附量由0.93 mg/g降至0.03 mg/g,去除率达96.4%。水平方向距GCW越近,MTBE的去除效率越快,垂直方向位于GCW上部的MTBE优先会被去除,最佳修复时间为运行15 h。GCW对砂土和地下水中高浓度MTBE具有良好的修复效果。  相似文献   

6.
A submerged internal circulating membrane coagulation reactor(MCR) was used to treat surface water to produce drinking water. Polyaluminum chloride(PACl) was used as coagulant,and a hydrophilic polyvinylidene fluoride(PVDF) submerged hollow fiber microfiltration membrane was employed. The influences of trans-membrane pressure(TMP), zeta potential(ZP) of the suspended particles in raw water, and KMnO_4 dosing on water flux and the removal of turbidity and organic matter were systematically investigated. Continuous bench-scale experiments showed that the permeate quality of the MCR satisfied the requirement for a centralized water supply, according to the Standards for Drinking Water Quality of China(GB 5749-2006), as evaluated by turbidity(1 NTU) and total organic carbon(TOC)(5 mg/L)measurements. Besides water flux, the removal of turbidity, TOC and dissolved organic carbon(DOC) in the raw water also increased with increasing TMP in the range of 0.01–0.05 MPa. High ZP induced by PACl, such as 5–9 mV, led to an increase in the number of fine and total particles in the MCR, and consequently caused serious membrane fouling and high permeate turbidity.However, the removal of TOC and DOC increased with increasing ZP. A slightly positive ZP, such as 1–2 mV, corresponding to charge neutralization coagulation, was favorable for membrane fouling control. Moreover, dosing with KMnO_4 could further improve the removal of turbidity and DOC, thereby mitigating membrane fouling. The results are helpful for the application of the MCR in producing drinking water and also beneficial to the research and application of other coagulation and membrane separation hybrid processes.  相似文献   

7.
Fertilizer input for agricultural food production, as well as domestic and industrial surface water pollutants in the North China Plain, increases pressures on locally scarce and vulnerable water resources. In order to: (a) understand pollutant exchange between surface water and groundwater, (b) quantify nutrient loadings, and (c) identify major nutrient removal pathways by using qualitative and quantitative methods, including the geochemical model PHREEQC, a one-year study at a wheat (Triticum aestivum L.) and maize (Zea mays L.) double cropping system in the Baiyang Lake area in Hebei Province, China, was undertaken. The study showed a high influence of low-quality surface water on the shallow aquifer. Major inflowing pollutants into the aquifer were ammonium and nitrate via inflow from the adjacent Fu River (up to 29.8 mg/L NH4-N and 6.8 mg/L NO3-N), as well as nitrate via vertical transport from the field surface (up to 134.8 mg/L NO3-N in soil water). Results from a conceptual model show an excess nitrogen input of about 320 kg/ha/a. Nevertheless, both nitrogen species were only detected at low concentrations in shallow groundwater, averaging at 3.6 mg/L NH4-N and 1.8 mg/L NO3-N. Measurement results supported by PHREEQC-modeling indicated cation exchange, denitrification, and anaerobic ammonium oxidation coupled with partial denitrification as major nitrogen removal pathways. Despite this current removal capacity, the excessive nitrogen fertilization may pose a future threat to groundwater quality. Surface water quality improvements are therefore recommended in conjunction with simultaneous monitoring of nitrate in the aquifer, and reduced agricultural N-inputs should be considered.  相似文献   

8.
高源  贺维鹏  施周  童丽  向帆 《中国环境科学》2015,35(11):3346-3351
以聚硫酸铁(PFS)为絮凝剂,考察强化混凝去除饮用水源水中五价锑(Sb(V))时原水p H值、PFS投量、共存阴离子(HCO3-和PO43-)及腐殖酸(HA)等对其去除效果影响及作用机制.结果表明,原水p H值对强化混凝过程Sb(V)存在形态及PFS的水解产物有重要影响,表现为较低p H值和较高PFS投量均有利于提高Sb(V)的去除率;由于竞争吸附作用的存在,共存阴离子与HA均对Sb(V)的混凝去除产生负面效应.此外,PFS除Sb(V)过程较为符合准二级动力学模型.  相似文献   

9.
付英  于水利  付胜涛  杨园晶 《环境科学》2006,27(10):2061-2066
对自制的聚硅酸铁(PSF)进行改性,加入高锰酸钾和稳定剂M,制备出固液共存氧化型聚硅酸铁(PSF-Ⅰ)混凝剂,用滤纸将PSF-Ⅰ过滤,并对PSF-Ⅰ、PSF-Ⅰ滤液及PSF进行紫外吸收(UVA)全波长扫描及前两者的混凝实验,然后将PSF-Ⅰ与PSF、聚合硫酸铁(PFS)进行混凝对比研究,最后对PSF-Ⅰ的混凝性能随储存时间的稳定性进行探讨。结果表明,高锰酸钾的加入改变了PSF的微观结构,使PSF的形态尺寸增大,导致PSF-I中Fe3+离子的UVA特征峰比PSF高,并且保存了独立的高锰酸钾特征吸收峰(530nm)。PSF-Ⅰ中的固相起到初级核子作用,有利于絮体成长。PSF-Ⅰ的最佳投药量为9mg?L-1,而PSF-Ⅰ滤液 的最佳投药量为12 mg?L-1。PSF-I是通过混凝吸附和催化氧化功能共同实现对有机物的去除,而PSF和PFS仅是通过常规的混凝吸附去除部分有机物,去除机理有本质的区别。  相似文献   

10.
以聚合氯化铝(PAC)和氯化铁(FeCl3)为混凝剂,分析了双酚A(BPA)在1g/L高岭土溶液混凝过程中的特征.并借助循环错流过滤强化污染层累积的方法,评价产生滤饼层的微滤(MF)膜对BPA的截留效果.结果表明:清洁的微滤膜过滤BPA溶液在短时间内达到截留吸附饱和,之后其对BPA的吸附截留作用显著降低;混凝絮体混合液经膜过滤时产生的污染层有利于BPA的去除,且单独混凝对BPA去除率最高的混凝剂投加量下进行膜过滤时的阻力较小.PAC混凝—膜过滤后BPA去除率比单独混凝提高了34.30%;FeCl3混凝—膜过滤后BPA去除率比单独混凝提高了28.38%.初始BPA浓度对混凝-膜过滤去除率有一定影响,BPA浓度为100μg/L时,比BPA浓度为5mg/L时采用2种混凝-微滤膜过滤方式去除率均有提高.  相似文献   

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