好氧颗粒污泥对膜生物反应器污泥性能的影响

采用膜生物反应器进行含酚废水的处理,探讨投加好氧颗粒污泥对反应器中污泥性能的影响。结果表明,在膜生物反应器中投加好氧颗粒污泥能有效改善污泥性能,提高处理效果。从采用絮状污泥到逐渐增加好氧颗粒污泥投加量为100%的过程中,反应器中污泥浓度明显提高,MLSS由5 582 mg/L增加到8 168 mg/L;沉降性能得到改善,SVI由135.85 mL/g下降到29.36 mL/g;疏水性增强,Zeta电位由-20.302 mV升高到-4.325 mV;对含酚废水中COD、NH3-N的降解能力明显提高,COD、NH3-N、NO3-N去除率分别由87.3%、83.2%、55.3%增加到99.2%、94.9%、66.3%。改善了膜污染现象,膜通量衰减率由63.3%降低到42.8%。用二元多项式三维回归分析,得到污染物去除率关于好氧颗粒污泥投加量和反应器运行时间的二元方程,对指导好氧颗粒污泥膜生物反应器的连续运行具有重要意义。     

Zn / Al 双金属氧化物对水中硫酸根离子的吸附性能简

研究了用Zn/Al水滑石制得的Zn/Al双金属氧化物（Zn/Al-300）吸附剂对水中硫酸根离子的吸附,考查了吸附剂投加量、初始pH等因素对硫酸根离子吸附的影响。结果表明,Zn/Al-300对水中硫酸根离子的吸附符合Langmuir吸附等温方程,理论最大吸附量为62.5 mg/g。运用动力学方程进行拟合,吸附过程符合准二级动力学方程;溶液的pH影响吸附剂对硫酸根的吸附,在pH=5.5时硫酸根的去除率最大;X射线衍射结果显示,水滑石经过焙烧后丧失了原有的构形,并在吸附硫酸根离子后重新恢复水滑石的部分层状结构。吸附机制主要为Zn/Al-300从溶液中获取阴离子以重建水滑石的晶体结构,即“记忆效应”。对吸附后的双金属氧化循环应用4此后,吸附容量几乎不变,说明双金属氧化物具有可循环型。通过将Zn/Al-300与其他几种吸附剂的经济性分析,表明此吸附剂在使用过程中具有一定优势。     

铈离子光催化降解茜素绿的性能和机理简

主要研究了简单铈离子（Ce³⁺）在紫外光（UV）的作用下对蒽醌染料茜素绿（AG）的光催化降解效果和反应机理。结果表明,UV/Ce³⁺体系能够有效降解AG,初始反应速率随AG浓度的倒数值和Ce³⁺浓度的增加而线性增加,随初始溶液pH的增加先降低后增加,在酸性条件下有很高的TOC去除率。荧光探针实验表明,反应过程中可以产生·OH自由基。UV/Ce³⁺体系对其他类型染料和对硝基苯酚都有较好的降解效果。     

厌氧污泥对间二氯苯的吸附性能简

为了研究灭活厌氧污泥和活性厌氧污泥对间二氯苯 （m-DCB）的吸附,考察了吸附平衡时间、吸附动力学、吸附等温线、吸附热力学、污泥投加量和pH对吸附m-DCB的影响。结果表明,2种污泥对m-DCB的吸附在1 h内达到平衡。应用伪一级、伪二级反应动力学对实验数据进行验证,表明厌氧污泥吸附m-DCB更符合伪二级反应动力学模型。2种污泥对m-DCB的吸附都可以用Langmuir和Freundlich吸附模型拟合,但Langmuir吸附模型的拟合结果要好于Freundlich模型,且活性厌氧污泥的吸附性能显著高于灭活厌氧污泥。从吸附热力学上看,该吸附为放热反应,低温有利于吸附反应的进行。pH值对2种污泥吸附m-DCB的影响很小。     

新型微生物菌剂对垃圾渗滤液的除臭效果

利用从食材中筛选纯化的特定微生物制成新型复合菌剂,以不同浓度梯度处理垃圾渗滤液,测定其在自然条件下的嗅阈值,监测NH3和H2S即时挥发浓度的变化,评价菌剂的综合除臭效果,设计三因素三水平实验并采用响应面优化法对反应适宜的实验参数进行了优化。研究结果表明,新型复合菌剂的投加会使垃圾渗滤液嗅阈值明显下降;响应面优化模型分析表明,反应时间2.5 d时和0.5%的菌剂投加对抑制NH3的挥发效果最好,而反应时间2.5 d和0.2%的投入量对抑制H2S的挥发效果最好,氧气的供应情况对两者的挥发抑制效果影响不显著。     

交联壳聚糖／Cu2O复合颗粒可见光催化脱色活性艳红

利用壳聚糖对金属离子的吸附和螯合作用,通过简单的液相沉淀一还原过程一步原位合成了交联壳聚糖／Cu2O复合粒子。x射线衍射（XRD）和红外（FT—IR）测试结果表明,壳聚糖与Cu2O纳米微粒能有效复合。以活性艳红X-3B溶液为模拟印染废水,采用Langmuir-Hinshelwood假一级方程模拟交联壳聚糖／Cu2O复合粒子光催化脱色反应的动力学行为,从动力学角度系统研究染料初始浓度、反应体系pH、催化剂用量和反应体系气氛等因素对复合粒子可见光催化脱色反应速率的影响。结果表明,当染料溶液浓度较低时,光催化过程可视为假一级反应。降低活性艳红X-3B初始浓度和pH,增加催化剂用量和反应体系的含O2量都可显著增加光解脱色反应速率常数。相同条件下,与纯Cu2O相比,交联壳聚糖／Cu2O复合粒子对X-3B呈现出更好的吸附性和更高的可见光催化活性。     

污泥-秸秆活性炭制备过程热化学分析

以市政污泥和玉米秸秆为原料,氯化锌为活化剂制备活性炭,采用BET、TG/DTG和DTA等方法对其性能进行分析。结果表明,秸秆添加量（质量比）为30%时活性炭吸附效果最好,热解分为水分析出、挥发分析出和终态稳定3个阶段,热解过程为放热反应,热解1 kg干基原料（秸秆质量比为30%）得到热解气、热解液和残炭的能量分别为1 880.49 kJ、8 354.22 kJ、2 301.84 kJ,剩余能量为11 502.53 kJ。     

Biochar- and phosphate-induced immobilization of heavy metals in contaminated soil and water: implication on simultaneous remediation of contaminated soil and groundwater

Long-term wastewater irrigation or solid waste disposal has resulted in the heavy metal contamination in both soil and groundwater. It is often separately implemented for remediation of contaminated soil or groundwater at a specific site. The main objective of this study was to demonstrate the hypothesis of simultaneous remediation of both heavy metal contaminated soil and groundwater by integrating the chemical immobilization and pump-and-treat methods. To accomplish the objective, three experiments were conducted, i.e., an incubation experiment was first conducted to determine how dairy-manure-derived biochar and phosphate rock tailing induced immobilization of Cd in the Cd-contaminated soils; second, a batch sorption experiment was carried out to determine whether the pre-amended contaminated soil still had the ability to retain Pb, Zn and Cd from aqueous solution. BCR sequential extraction as well as XRD and SEM analysis were conducted to explore the possible retention mechanism; and last, a laboratory-scale model test was undertaken by leaching the Pb, Zn, and Cd contaminated groundwater through the pre-amended contaminated soils to demonstrate how the heavy metals in both contaminated soil and groundwater were simultaneously retained and immobilized. The incubation experiment showed that the phosphate biochar were effective in immobilizing soil Cd with Cd concentration in TCLP (toxicity characteristics leaching procedure) extract reduced by 19.6 % and 13.7 %, respectively. The batch sorption experiment revealed that the pre-amended soil still had ability to retain Pb, Zn, and Cd from aqueous solution. The phosphate-induced metal retention was mainly due to the metal–phosphate precipitation, while both sorption and precipitation were responsible for the metal stabilization in the biochar amendment. The laboratory-scale test demonstrated that the soil amended with phosphate removed groundwater Pb, Zn, and Cd by 96.4 %, 44.6 %, and 49.2 %, respectively, and the soil amended with biochar removed groundwater Pb, Zn, and Cd by 97.4 %, 53.4 %, and 54.5 %, respectively. Meanwhile, the metals from both groundwater and soil itself were immobilized with the amendments, with the leachability of the three metals in the CaCl₂ and TCLP extracts being reduced by up to 98.1 % and 62.7 %, respectively. Our results indicate that the integrated chemical immobilization and pump-and-treat method developed in this study provides a novel way for simultaneous remediation of both metal-contaminated soil and groundwater.     

膜吸收法净化低浓度甲醛和氨气

基于膜吸收技术自制双层平板式膜吸收器,搭建净化低浓度甲醛和氨气污染模拟系统,考察不同膜结构参数、进气流量、吸收剂流量等因素对其净化效果的影响。结果表明,聚偏氟乙烯PVDF对低浓度甲醛和氨气的净化效率高于聚四氟乙烯PTFE。对同一材质膜,随着膜孔隙率的增大,甲醛和氨气的净化率呈上升趋势。随着进气流量的增加。甲醛和氨气的净化效率降低;而吸收剂流量对其净化效率影响不大。对于所有实验条件,平均膜孔径为0．22μm的PVDF4#在进气流量ug=120L／h时,甲醛和氨气的净化效率最高,分别达94．7％和96．3％。     

蔬菜与餐厨垃圾厌氧发酵启动阶段微生物分析

为了研究厌氧发酵启动阶段微生物菌群结构、数量变化情况与沼气产量的关系,分别对蔬菜废弃物和餐厨垃圾单一物料发酵进行分析,并测定pH值、挥发性脂肪酸（VFA）、氧化还原电位。结果表明,餐厨垃圾比蔬菜废弃物的启动时间长,但产气持久。蔬菜废弃物中细菌达峰值的时间早于餐厨垃圾,说明蔬菜废弃物中的有机质更利于微生物降解利用。两种原料中的微生物群落结构变化一致,启动阶段初期好氧和兼性厌氧细菌属优势菌,其中产酸菌增殖速率高于氨化细菌,是启动阶段降解有机质的主要菌群。随后厌氧细菌快速增殖,13增殖速率由不足20％增长到近100％并保持稳定。厌氧纤维素降解菌在启动阶段增殖较慢,原料中纤维素降解在厌氧发酵后期。原料液VFA中丁酸含量最多,最高浓度4．7mg／mL以上,占有机酸总量总量的46％以上,厌氧发酵类型为丁酸发酵型。