城市垃圾渗滤液的Fenton氧化法预处理试验

采用Fenton法将城市垃圾渗滤液进行催化氧化后,再投加聚合铁进行混凝沉淀处理,结果表明,当FeSO4·7H2O的投量为0.2%,H2O2/FeSO4·7H2O为11,聚合铁的投量为1.2‰时,CODCr去除率为68.2%,色度去除率为98%。研究了原水pH值、FeSO4·7H2O和H2O2的投加量、反应时间及聚合铁的投量对CODCr的影响。     

催化臭氧氧化去除垃圾渗滤液中难降解有机物的研究

研究了Fe(Ⅱ),Mn(Ⅱ),Cu(Ⅱ)作用下,均相催化臭氧氧化去除垃圾渗滤液中高浓度的腐殖质.分析催化剂用量、溶液pH值对腐殖质催化臭氧氧化降解的影响.结果表明,与单纯臭氧氧化比较,催化臭氧氧化对UV254和色度去除率无明显改善,但可明显提高以TOC和CODCr表征的有机物去除率;当投加催化剂过量时,以TOC和CODCr表征的有机物去除率虽降低,但仍有促进作用.但Fe2 的过量投加将明显抑制UV254和色度的去除效果.在碱性条件下,催化臭氧氧化法具有更好的去除效果.三种催化剂催化效果为Cu(Ⅱ)＞Mn(Ⅱ)＞Fe(Ⅱ).采用Cu(Ⅱ)催化臭氧氧化处理实际渗滤液生化处理出水,对CODCr,色度和UV254都显示出较好的去除效果.     

电-多相催化氧化处理垃圾渗滤液中氨氮的研究

以复极性固定床电解槽为反应器,利用CuO-CeO2/γ-Al2O3多相催化剂取代传统反应器的绝缘填料,构建电-多相催化氧化耦合体系.考察了槽电压、pH值、气体流量和极间距等因素对渗滤液氨氮的影响.结果表明,当槽电压为15.0V,pH为7,曝气量为0.08m3·h-1,极板间距为3.0cm时,反应180min后,氨氮的去除率能达到94.7%.与传统石英砂相比较,利用CuO-CeO2/γ-Al2O3做绝缘填料,氨氮的处理效果明显提高.     

微波催化氧化法处理垃圾渗滤液的正交试验

在微波辐射条件下,采用活性炭与Fenton试剂处理垃圾渗滤液,并通过正交试验考察了微波辐射时间、pH、活性炭用量、硫酸亚铁用量和H2O2用量对处理效果的影响.结果表明:pH对处理效果的影响最大,其次为活性炭用量、微波辐射时间、硫酸亚铁用量和H2O2用量;在100 mL水样中,最佳处理条件为活性炭2 g、H2O20.2 mL、硫酸亚铁0.834 g、pH 6、微波辐射时间10 min,垃圾渗滤液中的COD去除率达到75.36%.     

垃圾填埋渗滤液的处理方法

不同的垃圾填埋场及其对出水水质的不同要求,采用的处理方法也不尽相同。本文针对渗滤液的特点及出水情况,介绍了几跑步同的垃圾渗滤的处理方法,包括生物化学方法和深度氧化方法。     

光照法处理垃圾渗滤液试验研究

采用直接光照处理青山垃圾填埋场和流芳垃圾填埋场的渗滤液,结果表明,直接光照处理4h,COD去除率分别为31%和18%,其主要原因在于青山垃圾填埋场中含有较多Fe和Cu等光催化物质及自身的光降解.直接光照对NH3-N和总-N的处理效果不佳.     

脱氮-混凝气浮-UASB-接触氧化法处理垃圾填埋渗滤液

设计了一套“脱氮-混凝气浮-UASB-接触氧化”工艺，对南京某垃圾场的垃圾渗滤液进行处理，经过半年的稳定运行实践，使处理后出水的各项指标完全达到国家《污水综合排放标准》(GB8978-96)二级标准。对废水处理系统的工艺作了简单介绍，并对系统的调试、运行过程进行了技术总结。由于运行稳定、处理成本较低、易于管理，故该工艺是处理高氨氮、高浊度垃圾渗滤液的有效方法。     

苦卤-鸟粪石沉淀法预处理垃圾渗滤液

以苦卤为新型镁沉淀剂,改性沸石为晶种,对鸟粪石沉淀法预处理高浓度氨氮垃圾渗滤液进行实验研究.结果表明:当n(Mg):n(N):n(P)=1.3:1.0:1.1,氨氮去除率为96.2%;铁沸石晶种在3.5g/150ml时氨氮的去除率增加到了97.88%.对新型镁沉淀剂成本分析表明,苦卤和改性沸石作鸟粪石沉淀剂和晶种是可行的。     

优势菌种硝化新工艺处理垃圾渗滤液的研究

通过摇瓶富集与开放体系扩大培养获得高含量的硝化细菌优势菌液,用于硝化反应器的强化挂膜启动、驯化。采用优势菌种生物硝化新工艺研究了含高质量浓度氨氮垃圾渗滤液的硝化特性,并对工艺条件进行了优化。结果表明,优势菌液中亚硝化细菌与硝化细菌的含量分别达到9.0×107和3.5×107MPN/mL。实际废水动态运行的结果显示,当进水垃圾渗滤液平均氨氮质量浓度为284.4mg/L时,出水平均氨氮质量浓度为14.3mg/L,硝化速率高达NH4+-N28.1g/(m3.h),与传统硝化工艺相比高出近一倍。本工艺处理垃圾渗滤液的优化操作工艺条件为:pH、氨氮质量浓度及DO分别控制在7.5～8.5、300mg/L、1.1～2.6mg/L。     

有机膨润土吸附垃圾渗滤液中苯酚的研究

以溴化十六烷基三甲铵为改性剂制备有机膨润土,研究了有机膨润土吸附垃圾渗滤液中典型有机污染物苯酚的性能、条件及改性条件对吸附效果的影响。结果表明,有机膨润土对苯酚有很好的吸附效果,实验条件下对苯酚的去除率可达90％以上,pH值是影响有机膨润土吸附能力的主要因素,绘制了不同初始浓度的苯酚溶液在平衡浓度达国家工业废水的第二类污染物三级排放标准时,改性膨润土的用量曲线及吸附等温线,并得到投样量方程：y＝0．1959x－0．2458,R^2＝0．9751。     

垃圾渗滤液对斑马鱼的毒性及抗氧化酶活性的影响

在室内模拟条件下,以斑马鱼（Daniorerio）为受试动物,探讨生活垃圾渗滤液对斑马鱼的急性毒性及对其鱼鳃、肝脏中的过氧化物歧化酶（SOD）、还原型谷胱甘肽（GSI-I）及Na＋,K＋-ATP酶等3种酶的影响。结果表明,垃圾渗滤液对斑马鱼的96hLC50为13．2％。垃圾渗滤液对斑马鱼的急性毒性相对较高,斑马鱼对垃圾渗滤液毒性的敏感性强。慢性毒性测试结果显示,垃圾渗滤液对斑马鱼肝脏中SOD活性和GSH质量分数的诱导作用明显,对Na＋,K＋-ATP酶活性影响并不明显;垃圾渗滤液对斑马鱼鱼鳃中SOD活性影响显著（P〈0．05）。除Na＋,K＋-ATP酶外,斑马鱼的抗氧化防御相关生物标志物对渗滤液染毒胁迫具有相对较高的敏感性,SOD和GSH均可用作垃圾渗滤液慢性胁迫的有效生物标志物。     

垃圾填埋场渗滤液地下原位脱氮技术综述

氨氮是城市垃圾厌氧填埋过程中产生的常见的污染物。由于氨氮的持久性和生物毒性,生活垃圾填埋场渗滤液中氮的脱除已引起了人们的高度关注。文中结合国内外的研究现状的基础,论述了厌氧渗滤液回灌、强制通风好氧填埋、准好氧填埋和生物反应器填埋四种垃圾渗滤液原位脱氮处理技术的原理、技术特点、工程投资、运行成本以及处理效果等;指出了垃圾填埋场渗滤液原位脱氮技术的未来研究重点:填埋场内脱氮机理和脱氮速率的深入研究、工艺控制优化研究以及生物反应器填埋的实际应用设计研究。     

Optimization of process parameters for mature landfill leachate pretreatment using MAP precipitation

Chemical precipitation is a useful technology as a pretreatment to treat mature landfill leachate with high concentrations of ammonium-nitrogen (NH4+-N) and refractory organic compounds. Orthogonal experiments and factorial experiments were carried out to determine the optimal conditions enhancing the magnesium ammonium phosphate (MAP) precipitation process, and the experimental results demonstrated that the removal rate of NH4+-N was more than 85% when MgO and NaH₂PO₄·2H₂O were applied as external sources of magnesium and phosphorous under the optimal conditions that molar ratio n(Mg)∶n(N)∶n(P) = 1.4∶1∶0.8, reaction time 60 min, original pH of leachate and settling time 30 min. In the precipitation process, pH could be maintained at the optimal range of 8–9.5 because MgO could release hydroxide ions to consume hydrogen ions. Calcium ions and carbonate ions existed in the leachate could affect the precipitation process, which resulted in the decrease of NH4+-N removal efficiency. The residues of MAP sediments decomposed by heating under alkaline conditions can be reused as the sources of phosphorous and magnesium for the removal of high concentrations of NH4+-N, and up to 90% of ammonium could be released under molar ratio of n[OH]∶n[MAP] = 2.5∶1, heating temperature 90°C and heating time 2h.     

Degradation of refractory organics in concentrated leachate by the Fenton process: Central composite design for process optimization

• 90% total COD, 95.3% inert COD and 97.2% UV₂₅₄ were removed. • High R² values (over 95%) for all responses were obtained with CCD. • Operational cost was calculated to be 0.238 €/g COD_removed for total COD removal. • Fenton oxidation was highly-efficient method for inert COD removal. • BOD₅/COD ratio of leachate concentrate raised from 0.04 to 0.4. The primary aim of this study is inert COD removal from leachate nanofiltration concentrate because of its high concentration of resistant organic pollutants. Within this framework, this study focuses on the treatability of leachate nanofiltration concentrate through Fenton oxidation and optimization of process parameters to reach the maximum pollutant removal by using response surface methodology (RSM). Initial pH, Fe²⁺ concentration, H₂O₂/Fe²⁺ molar ratio and oxidation time are selected as the independent variables, whereas total COD, color, inert COD and UV₂₅₄ removal are selected as the responses. According to the ANOVA results, the R² values of all responses are found to be over 95%. Under the optimum conditions determined by the model (pH: 3.99, Fe²⁺: 150 mmol/L, H₂O₂/Fe²⁺: 3.27 and oxidation time: 84.8 min), the maximum COD removal efficiency is determined as 91.4% by the model. The color, inert COD and UV₂₅₄ removal efficiencies are determined to be 99.9%, 97.2% and 99.5%, respectively, by the model, whereas the total COD, color, inert COD and UV₂₅₄ removal efficiencies are found respectively to be 90%, 96.5%, 95.3% and 97.2%, experimentally under the optimum operating conditions. The Fenton process improves the biodegradability of the leachate NF concentrate, increasing the BOD₅/COD ratio from the value of 0.04 to the value of 0.4. The operational cost of the process is calculated to be 0.238 €/g COD_removed. The results indicate that the Fenton oxidation process is an efficient and economical technology in improvement of the biological degradability of leachate nanofiltration concentrate and in removal of resistant organic pollutants.     

垃圾填埋场渗滤液回流处理技术研究进展

垃圾渗滤液回流处理后，CODcr去除率最高达95％，在半好氧状态下NH3-N质量浓度降低至10mg/L几以下，渗滤液水质得到改善；渗滤液回流增加了湿度，使有机物的降解速率加快；渗滤液同流处产甲烷速率是不回流处产甲烷速率的2倍多：渗滤液回流处的总沉降幅度可达填埋场深度的20％，而不回流处仅为8％。回流处理技术分为直接回流至垃圾层、表面喷灌或浇灌至填埋场表面、地表下回流或内层回流技术。在填埋场处于产酸阶段早期，回流的渗滤液量宜少不宜多：在产气阶段则可逐渐增加。应将稳定化程度高的垃圾层区(产甲烷区)排出的渗滤液回流至新填人的垃圾层(产酸区)，将新垃圾层所产生的渗滤液回流至老的稳定化区。通过控制垃圾的组成、回流的时间、渗滤液的pH值等手段可改善回流处理效果。     

螺旋藻(Spirulina)对垃圾填埋渗滤液污染物的净化作用

探讨了螺旋藻(Spirulina,SP)对垃圾填埋渗滤液(LandfillLeachate,LFL)中污染物的净化作用。从广州市大田山垃圾填埋场收集LFL,用国家标准方法进行理化分析,在不同稀释度的LFL中接种SP后连续培养,观察藻细胞生长并比较接种前和培养7d后LFL主要污染物的质量浓度变化。结果发现SP可在LFL原液及体积分数分别为50%和25%LFL中维持生长达对照的30%～50%,藻细胞的生长使LFL中PO4-P、COD、NH3-N清除率达50%以上,对50%LFL中铅、锌、砷、铬、镍等重金属的清除率大于60%。结果提示,螺旋藻对LFL污染物有一定的生物净化作用。     

Indicating landfill stabilization state by using leachate property from Laogang Refuse Landfill

Variation and evolution process of leachate can be applied as a reference for landfill stabilization phase. In this work, leachates with different ages were collected from Laogang Refuse Landfill, and characterized with 14 key parameters. Simultaneously, principal component analysis （PCA） was applied to develop a synthetic parameter-F based on these 14 parameters, and a logarithm equation was simulated for the landfill stabilization process finally. It was predicted that leachates would meet Class I and Class II in standard for pollution control on the landfill site of municipal solid waste （GB 16889-1997） after 32 years and 22 years disposal under the natural attenuation in the humid and warm southern areas of China, respectively. The predication of landfill state would be more accurate and useful according to the synthetic parameter F of leachate from a working landfill.     

膜生物反应器（MBR）处理垃圾渗滤液的脱氮研究

采用一体式MBR处理垃圾渗滤液,系统考察MBR对COD、NH4＋-N和TN的去除效果。结果表明：可将垃圾渗滤液的COD降至650-1 500 mg·L-1范围;在HRT为1.5 d、DO为0.75-1.20 mg·L-1、不排泥条件下运行时,对TN质量浓度低于2 300 mg·L-1、容积负荷低于0.25 kg.m-3.d-1（以N计）的渗滤液进行处理,MBR对NH4＋-N与TN的去除率可分别达到87%和72%以上。在MBR处理垃圾渗滤液的运行中发现,膜的污染速度较快,并且呈现＂两段性＂的规律,采用碱＋氧化剂的清洗方式可有效去除膜污染,降低过膜压力。