高浓度洗煤废水治理方法的研究

分析了高浓度洗煤废水的性质及其难于处理的原因，提出了采用ＣａＣｌ２＋ＰＡＭ混凝沉淀法处理该种废水的方法，并通过实验确定了主要技术参数．实验结果表明，该方法处理效果显著，不仅有较高的清水分离率，而且出水的各项指标均达到国家排放标准．     

The influence of various additives on coagulation process at different dosing point: From a perspective of structure properties

Structure properties of flocs (size, fractal dimension (D_f), etc.) have a high impact on coagulation efficiency. In this work, the influences of three different additives (ferric salt (Fe), phosphate (P), and citric acid (CA)) on coagulation process/efficiency were investigated. Results showed that a small amount of extra Fe can facilitate the growth of Al flocs by providing more ‘active sites’. Although zeta potential and D_f showed a limited change, the average floc size increased apparently and the increment was more obvious when Fe was added after the formation of the flocs. In contrast, P addition during the rapid mixing period will decrease the final average floc size, while the influence is less significant when P was added after the growth of the flocs. In terms of CA, a more striking negative effect on the growth ability of the flocs was observed compared to P. The strong complexing/coordination interactions between CA and aluminum hydroxide is the main reason behind the influence. CA also significantly decreased the D_f value of the flocs compared to P, and D_f showed a comparatively higher decrease when P or CA was added during the rapid mixing stage compared to the addition after the flocs formation. These results indicated that the addition of CA or P during the rapid mixing stage ‘inactivated’ or occupied more ‘active sites’ on the preliminarily formed Al NPs during the hydrolysis process, and therefore presented stronger impact on the morphology/size of the formed flocs.     

四环素工业废水生化处理工艺的研究

本文报道了四环素生产废水絮凝处理的最佳组合是１５ｍｇ／ｋｇ聚丙烯酰胺＋３０００ｍｇ／ｋｇ硫酸亚铁；经驯化的接种水测出ＣＯＤ为２７６４ｍｇ／Ｌ时，废水的ＢＯＤ５为１８７３ｍｇ／Ｌ，ＢＯＤ５／ＣＯＤ≈６８％，属易生化处理范畴。生物膜处理可在２ｄ内将ＣＯＤ从４４８８ｍｇ／Ｌ降至５４９ｍｇ／Ｌ，处理中的优势菌群为Ｇ＾＋芽孢杆菌。经γ射线辐射后，废水对细菌不再有抑制作用。     

Polytitanium sulfate (PTS): Coagulation application and Ti species detection

Interest in the development of inorganic polymerized coagulants is growing; however, there are only limited studies on the synthesis of polytitanium coagulants, which are expected to exhibit improved coagulation efficiency with better floc properties. This study presents the synthesis of polytitanium sulfate (PTS) for potential application in water purification, followed by characterization of PTS flocs and titanium species detection. Stable PTS solutions were successfully synthesized and standard jar tests were conducted to evaluate their coagulation efficiency. Electrospray ionization time-of-flight mass spectrometry (ESI-TOF-MS) speciation analysis revealed that a variety of mononuclear and polynuclear complexes were formed in PTS solution, indicating the polymeric nature of the synthesized coagulant. Floc characteristics were studied through on-line monitoring of floc size using a laser diffraction particle size analyzer. Results showed that PTS had a comparable or in some cases even higher organic matter and particulate removal efficiency than Ti(SO₄)₂. The effluent pH after PTS coagulation significantly improved toward desirable values closer to neutral pH. Properties of flocs formed by PTS were significantly improved in terms of floc size, growth rate and structure. This study showed that PTS could be an efficient and promising coagulant for water purification, with the additional benefit that its coagulated sludge can be used to recover valuable TiO₂ nanoparticles for various commercial applications.     

碱减量-印染混合废水的预处理研究

针对碱度大、COD高、组成复杂的碱减量-印染混合废水,采用高碱度下直接混凝再酸析相结合的方法进行预处理,取得理想效果.试验结果表明,在高碱度条件下先加入镁盐及少量高分子絮凝剂,可去除大部分可溶性及不溶性污染物;再通过降低pH的酸析法,能有效去除废水中的色度、浊度,大大降低COD.在MgSO4用量为800～1 500 mg/L,阴离子聚丙烯酰胺用量为2 mg/L,酸析pH小于3.0时,色度去除率达97%,COD去除率达92%,浊度去除率近100%.     

Groundwater arsenic removal by coagulation using ferric(III) sulfate and polyferric sulfate: A comparative and mechanistic study

Elevated arsenic (As) in groundwater poses a great threat to human health. Coagulation using mono-and poly-Fe salts is becoming one of the most cost-effective processes for groundwater As removal. However, a limitation comes from insufficient understanding of the As removal mechanism from groundwater matrices in the coagulation process, which is critical for groundwater treatment and residual solid disposal. Here, we overcame this hurdle by utilizing microscopic techniques to explore molecular As surface complexes on the freshly formed Fe flocs and compared ferric(III) sulfate (FS) and polyferric sulfate (PFS) performance, and finally provided a practical solution in As-geogenic areas. FS and PFS exhibited a similar As removal efficiency in coagulation and coagulation/filtration in a two-bucket system using 5 mg/L Ca(ClO)₂. By using the two-bucket system combining coagulation and sand filtration, 500 L of As-safe water (<10 μg/L) was achieved during five treatment cycles by washing the sand layer after each cycle. Fe k-edge X-ray absorption near-edge structure (XANES) and As k-edge extended X-ray absorption fine structure (EXAFS) analysis of the solid residue indicated that As formed a bidentate binuclear complex on ferrihydrite, with no observation of scorodite or poorly-crystalline ferric arsenate. Such a stable surface complex is beneficial for As immobilization in the solid residue, as confirmed by the achievement of much lower leachate As (0.9 μg/L-0.487 mg/L) than the US EPA regulatory limit (5 mg/L). Finally, PFS is superior to FS because of its lower dose, much lower solid residue, and lower cost for As-safe drinking water.     

Groundwater arsenic removal by coagulation using ferric(Ⅲ)sulfate and polyferric sulfate: A comparative and mechanistic study

Elevated arsenic(As) in groundwater poses a great threat to human health. Coagulation using mono- and poly-Fe salts is becoming one of the most cost-effective processes for groundwater As removal. However, a limitation comes from insufficient understanding of the As removal mechanism from groundwater matrices in the coagulation process, which is critical for groundwater treatment and residual solid disposal. Here, we overcame this hurdle by utilizing microscopic techniques to explore molecular As surface complexes on the freshly formed Fe flocs and compared ferric(III) sulfate(FS) and polyferric sulfate(PFS)performance, and finally provided a practical solution in As-geogenic areas. FS and PFS exhibited a similar As removal efficiency in coagulation and coagulation/filtration in a two-bucket system using 5 mg/L Ca(ClO)_2. By using the two-bucket system combining coagulation and sand filtration, 500 L of As-safe water( 10 μg/L) was achieved during five treatment cycles by washing the sand layer after each cycle. Fe k-edge X-ray absorption near-edge structure(XANES) and As k-edge extended X-ray absorption fine structure(EXAFS) analysis of the solid residue indicated that As formed a bidentate binuclear complex on ferrihydrite, with no observation of scorodite or poorly-crystalline ferric arsenate. Such a stable surface complex is beneficial for As immobilization in the solid residue, as confirmed by the achievement of much lower leachate As(0.9 μg/L–0.487 mg/L)than the US EPA regulatory limit(5 mg/L). Finally, PFS is superior to FS because of its lower dose, much lower solid residue, and lower cost for As-safe drinking water.     

粉煤灰在处理造纸废水中的应用

参考国内外有关粉煤灰处理造纸废水的资料 ,综合分析讨论了粉煤灰处理造纸废水的机理、工艺流程和处理效果     

某化纤废水处理改造工程实例

介绍某化纤厂的废水处理经验,采用两级混凝气浮、水解酸化、多段接触氧化法的处理工艺:对废水处理站进行调试,并对在调试期间出现的问题进行整改;最终废水出水的各项水质指标均达到《污水综合排放标准》(GB 8978-1996)中的一级排放标准.     

水解──好氧混凝工艺处理啤酒厂废水

本文报道了用上升流厌氧污泥床（水解）和二段生物接触氧化池对啤酒厂废水进行的生化处理中试。当上升流厌氧污泥床进水CODer浓度为2000mg／L，经水解─好氧工艺处理后，第二段生物接触氧化池出水CODcr浓度为220．5mg／L，进一步经混凝沉淀处理后，出水CODcr达80．2mg／L。