A/O一体化曝气生物滤池降解酱油废水的研究

针对组分复杂、色度较高的酱油废水,采用A/O一体化曝气生物滤池进行处理,研究了该反应器处理酱油废水的运行参数及降解动力学.结果表明:采用以废弃物煤渣为主的混合填料,能有效去除废水中的有机物和色度.当水力负荷为1.12 m3/(m2·h),容积负荷为0.15～0.43 kg COD/(m3·d)的条件下,反应器的COD去除率能维持在75%～85%之间,色度去除率均在80%以上,最高达到了93.3%;当容积负荷小于0.27 kg COD/(m3·d)时,出水的各项指标能达到(GB8978-1996)的一级排放标准.根据试验结果,反应器O段的降解动力学可表达为Se/S0=exp(-1.0125H).     

外循环式UASB反应器处理槟榔废水

在中温（35±2℃）条件下,利用外循环式UASB反应器处理中高有机浓度的槟榔加工废水,并着重探讨了水力停留时间（HRT）对厌氧消化的影响。研究表明,当反应器稳定运行,水力停留时间为1 d,进水COD浓度5 000 mg/L左右,容积负荷在2.53-5.25 kg COD/（m3·d）时,COD去除率在38%以上,出水COD〈3 000 mg/L,平均产气率为0.41 m3/kg COD;若水力停留时间延长至4 d,容积负荷为1.26-1.30 kg COD/（m3·d）,COD去除率可以达到79%,出水COD〈1 200 mg/L,出水可生化性下降,BOD5/COD平均为0.28,实验取得了良好的处理效果,为利用厌氧技术处理槟榔加工废水提供了设计依据。     

UV-Fenton法处理聚醚废水研究

采用UV-Fenton法处理实际聚醚废水,并通过响应曲面法对UV-Fenton法的运行参数进行优化,以H2O2投加量、FeSO4·7H2O投加量和处理时间为自变量,以废水的COD去除率及出水氨氮浓度为响应值,进行中心组合实验设计。同时,采用气相色谱/质谱技术对UV-Fenton法处理前后废水中污染物进行分析和鉴定。结果表明:(1)最优参数条件为H2O2和COD质量比1.49、FeSO4·7H2O和H2O2质量比0.83、处理时间71min,此时COD去除率为62.3%,出水氨氮质量浓度为45.5mg/L。(2)模型的拟合程度较高,两个响应值方程的决定系数(R2)分别为0.986 4、0.961 6。(3)进水中主要污染物有37种,经UV-Fenton法处理后出水中降低至29种,总有机物丰度降低约93.4%。(4)UV-Fenton法对醚类、酯类或酰胺类大分子有机物具有显著的降解效果,可将其转化为短链的烃类及醇类物质。     

IC反应器处理高浓度硫酸盐废水的启动研究

采用木糖生产废水,进行了(IC)反应器处理高浓度硫酸盐有机废水的启动研究.结果表明,接种厌氧颗粒污泥,当进水COD/SO2-4值约为3.5时,控制COD负荷提高幅度为每次20%左右,经过26 d的驯化培养,COD和SO2-4负荷分别可达20 kg/(m3·d)和5.5 kg/(m3·d),COD去除率达到80%以上,硫...     

UASB处理硫酸盐有机废水的启动

为了考察上流式厌氧污泥床反应器(UASB)处理含硫酸盐有机废水的特性,采用有效容积为10 L的UASB,研究了启动运行过程中COD和SO2-4降解情况、出水VFA和pH值、产气量及颗粒污泥比产甲烷活性(SMA)变化状况。结果表明,接种厌氧颗粒污泥,保持进水COD为1 500 mg/L,SO2-4浓度为100 mg/L,将HRT由24 h缩短至12 h以提高负荷,经历55 d成功启动了UASB反应器;当HRT为12 h,进水COD和SO2-4负荷为3.0 kg/(m3·d)和0.20 kg/(m3·d),COD和SO2-4的去除率分别达到80%和89%,出水VFA为3 mmol/L,产气量达9.5 L/d,颗粒污泥的SMA为86.4 mL/(g VSS·d)。     

污染物负荷对曝气生物滤池处理效果的影响研究

考察了进水有机负荷和氨氮负荷对曝气生物滤池出水水质的影响.结果表明,系统COD、氨氮和TN的去除率随进水有机负荷的增加而下降,在氨氮为28.3～33.6 mg/L、TN为39.0～45.8 mg/L条件下,有机负荷小于3.53 kg/(ms3·d)时,出水COD、氨氮和TN分别小于50、5、15 mg/L,去除率分别在85%、85%和65%以上;氨氮和TN的去除率随氨氮负荷的增加而下降,在COD为287.6～313.4 mg/L、氨氮负荷小于0.56 kg/(m3·d)时,出水氨氮小于8 mg/L,去除率在85%以上,出水TN小于15mg/L,去除率在65%以上.     

曝气生物滤池去除有机物及硝化氨氮的影响因素研究

采用以陶粒为填料的曝气生物滤池(BAF)处理低浓度生活污水,研究在气水比一定的条件下,水力负荷、有机负荷及氨氮负荷对BAF去除有机物及硝化氨氮的性能的影响.研究结果表明,当试验进水COD为105.8～156.6 mg/L,气水比为3:1的条件下,降解有机物的最佳水力负荷为1.35～1.68 m3/(m2·h),COD平均去除率为86.3%.氨氮负荷是影响反应器硝化性能的直接因素.当水力负荷为1.05 m3/(m2·h),平均进水COD为106.1 mg/L时,若使出水氨氮低于15 mg/L,则反应器能承受的最大进水氨氮负荷为0.5 kg/(m3·d)左右.并确立了相应的反应器动力学模型.     

BLR厌氧反应器处理垃圾焚烧厂渗滤液工程运行效能

采用1 100 m3BLR(biogas-lift reactor)厌氧反应器对垃圾焚烧厂渗滤液进行工程化处置,接种污泥为消化污泥,正常运行温度控制在(33±2)℃,启动负荷为1 kg COD/(m3·d),120 d后容积负荷达到10 kg/(m3·d)并稳定运行,出水COD浓度为4 500~6 500 mg/L,COD去除率为88%~92%,出水VFA含量为200~600 mg/L,p H值稳定在7.4~7.7,出水SS含量为1 000 mg/L左右,并可观察到沉降性较好的颗粒化污泥。反应器运行初期将VFA/ALK控制在1.6以内,系统并未因VFA积累而酸化崩溃,运行后期VFA/ALK值小于0.3,系统稳定运行。运行过程中进水氨氮浓度从400 mg/L升高到2 200 mg/L,未发现氨氮对厌氧生物处理的明显抑制现象。垃圾渗滤液中平均每去除1 kg COD产生沼气量为0.32 m3。     

微电解-Fenton深度处理制药废水影响因素与参数控制

采用铁炭微电解-Fenton联合工艺深度处理制药废水生化出水,探讨了初始pH、曝气量、反应时间等因素对微电解出水Fe2+和Fe3+变化规律、COD降解速率以及后续Fenton氧化效果的影响,为优化微电解-Fenton氧化联合工艺提出了微电解间歇加酸的理论。间歇加酸可提高微电解系统中COD降解速率和Fe2+含量,使后续Fenton氧化无需投加FeSO4·7H2O即可达到较好的COD去除效果。结果表明,当初始pH=2.5,曝气量为0.6 m3/h,间歇加酸30 min/次,微电解反应2 h,出水投加1 mL/L的H2O2进行Fenton氧化2 h,COD总去除率可达81.33%;间歇加酸30 min/次可将微电解反应2 h出水Fe2+浓度从50 mg/L提高至151 mg/L,COD降解速率从10.6 mg COD/(L·h)提高至22.2 mg COD/(L·h)。     

循环水冲洗生态厕所及其污水处理方法

主要研究了循环水冲洗生态厕所对冲厕污水有机污染物和NH4 -N的去除效果.结果表明,在进水COD和NH4 -N负荷分别为1.2～1.4 kg COD/m3·d和0.1～0.11kg NH4 -N/m3·d时,循环水冲洗生态厕所出水COD和NH4 -N稳定维持在15 mg/L和5 mg/L,达到我国中水回用相关标准,满足了循环冲洗水水质要求,根本上实现了冲厕污水源头治理和资源化.     

Polyacrylamide + Al2(SO4)3 and polyacrylamide + CaO remove coliform bacteria and nutrients from swine wastewater

Animal wastes are a major contributor of nutrients and enteric microorganisms to surface water and ground water. Polyacrylamide (PAM) mixtures are an effective flocculent, and we hypothesized that they would reduce transport of microorganisms in flowing water. After waste water running at 60.0 1 min(-1) flowed over PAM + Al2(SO4)3, or PAM + CaO in furrows, total coliform bacteria (TC) and fecal coliform bacteria (FC) were reduced by 30-50% at 1 and 50 m downstream of the treatments compared to the control. In a column study, PAM + Al2(SO4)3, and PAM + CaO applied to sandy, sandy loam, loam, and clay soils reduced NH4+ and ortho-P concentrations in leachate compared to the source waste water and the control. PAM + Al2(SO4)3 and PAM + CaO applied to sandy, sandy loam and loam soils reduced both total and ortho-P, concentrations in leachate compared to he source wastewater and control treatment. In a field study, PAM + Al2(SO4)3, or PAM + CaO treatments did not consistently reduce NH4+, NO3-, ortho-P, and total P concentrations in wastewater flowing over any soil compared to inflow wastewater or the control treatment. With proper application PAM + Al2(SO4)3 and PAM + CaO may be able to reduce the numbers of enteric bacteria in slowly flowing wastewater running off animal confinement areas, reducing the amount of pollutants entering surface water and groundwater.     

曝气＋化学絮凝法预处理环氧丙烷废水

根据环氧丙烷废水的特点，应用电化学法处理具有较高的可行性。运用电化学法处理PO废水前必须进行废水预处理，用以提高电流效率和延长极板寿命。采用曝气和化学絮凝结合的方法去除PO废水中的Ca2＋，同时去除部分COD。对曝气、无机絮凝剂（PACl、PFS）和有机絮凝剂（PAM）对PO废水处理过程中的曝气量、曝气时间、投药量、复配和沉降时间等主要影响因子进行了实验研究，通过比较Ca2＋、COD的去除效果、絮凝剂用量、沉降时间、处理成本等方面，在设定的实验参数下得到最佳预处理方案为：曝气量为2．5L／min，曝气45min，投加Na2CO3粉末24kg／t废水，充分混匀后加入PFS＋PAM复配絮凝剂。本方案具有废水处理效果好（Ca2＋的去除率为77．03％，COD的去除率为37．46％）、投药量少（（100＋7．5）g／t废水）、沉降时间短（5min）、处理成本低（0．675元／t废水）等优点。通过对比经预处理和不经预处理后电化学法对COD去除效果、电流和处理后阴极表面，验证了预处理方案的必要性与可行性。     

旋转填充床中Fenton＋O3氧化降解模拟阿莫西林废水

以旋转填充床（RPB）作为反应装置，研究了Fenton工艺与Fenton＋O3工艺处理模拟阿莫西林废水的效果，考察了FeSO4·7H2O的投加量、温度、旋转床转速、液体流量及pH对C0D去除率的影响。实验表明，Fenton＋O3工艺的COD脱除率及BOD5／COD相对于Fenton工艺分别提升26．7％和140％。该工艺在pH为3、温度为25℃、液体流量30L／h、气体流量2．5L／h、转速800r／min、H2O2的投加量为1mmol／L及Fe2＋投加量为0．4mm01／L的条件下，100mg／L的模拟阿莫西林废水中COD的去除率达到57．9％，BOD5/COD从0增加到0．36，满足后续生化处理要求。     

吸附饱和活性炭的Fenton试剂再生

颗粒活性炭吸附有机废水中二异丙基苯等有机物后，采用Fenton试剂对活性炭进行氧化再生。研究H2O2与Fe2＋的摩尔配比及投加量、pH、温度、再生时间等因素对活性炭再生效果的影响。实验结果表明，Fenton体系中Fe2＋和H2O2的摩尔比为1：20，H2O2投加量为120mmol／L，pH为3，再生温度为25℃，再生时间为70min时，为最佳再生条件，再生率可达85．6％，且6次连续再生的平均效率仍能达到84．9％。Fenton试剂再生活性炭的方法表现出较高的经济和环境效益。     

加热酸化-Fenton氧化处理乳化液废水

采用加热酸化-Fenton氧化处理乳化液废水，在加酸量为1．0mL98％H2SO4／100mL乳化液、加热温度95℃、加热时间1h条件下，初始COD〉20万mg／L，浊度〉8000NTU的乳化液COD降低到46592mg／L，浊度降低到20NTU，加热和酸化的联合过程达到了良好的破乳效果；破乳后的出水在ρ（Fe2＋）／ρ（H2O2）=1：30、ρ（H2O2）和（COD）=1．4、pH=4的条件下进行Fenton氧化，处理后的出水COD可降到18600mg／L，去除率达61．4％，其B／C可由破乳后的0．11提高到0．43，废水的可生化性大大提高，为后续处理创造了可能。     

Polyacrylamide preparations for protection of water quality threatened by agricultural runoff contaminants

Waste streams associated with a variety of agricultural runoff sources are major contributors of nutrients, pesticides and enteric microorganisms to surface and ground waters. Water soluble anionic polyacrylamide (PAM) was found to be a highly effective erosion-preventing and infiltration-enhancing polymer, when applied at rates of 1-10 g m(-3) in furrow irrigation water. Water flowing from PAM treated irrigation furrows show large reductions in sediment, nutrients and pesticides. Recently PAM and PAM + CaO and PAM + Al(SO4)3 mixtures have been shown to filter bacteria, fungi and nutrients from animal wastewater. Low concentrations of PAM [175-350 g PAM ha(-1) as PAM or as PAM + CaO and PAM + Al(SO4) mixture] applied to the soil surface, resulted in dramatic decreases (10 fold) of total, coliform and fecal streptococci bacteria in cattle, fish and swine wastewater leachate and surface runoff. PAM treatment also filtered significant amounts of NH4, PO4 and total P in cattle and swine wastewater. This points to the potential of developing PAM as a water quality protection measure in combination with large-scale animal feeding operations. Potential benefits of PAM treatment of animal facility waste streams include: (1) low cost, (2) easy and quick application. (3) suitability for use with other pollution reduction techniques. Research on the efficacy of PAM for removal of protozoan parasites and viruses and more thorough assessment of PAM degradation in different soils is still needed to completely evaluate PAM treatment as an effective waste water treatment. We will present analysis and feasibility of using PAM, PAM + Al(SO4)3, and PAM + CaO application for specific applications. Our results demonstrate their potential efficacy in reducing sediment, nutrients and microorganisms from animal production facility effluents.     

城市垃圾焚烧渗沥液中Ca2＋对厌氧EGSB处理效果的影响

研究了城市生活垃圾焚烧厂渗沥液中Ca2＋对厌氧颗粒污泥膨胀床反应器（EGSB）处理效果的影响，并采用静态实验方法考察了Ca2＋对厌氧颗粒污泥产甲烷活性的影响。实验结果表明，进水COD为17000mg／L的条件下，当Ca2＋浓度低于6000mg／L时，EGSB对COD去除率达93％以上；当Ca2＋浓度高于6000mg／L时，COD去除率随运行时间明显下降，并在污泥中形成大量沉淀。静态实验结果表明，废水中低浓度Ca2＋促进了厌氧颗粒污泥的产甲烷活性，但高浓度Ca2＋明显抑制了其产甲烷活性，这是导致高Ca2＋浓度条件下EGSB对COD去除率降低的主要原因。研究表明，颗粒污泥产甲烷活性恢复程度随Ca2＋浓度增加而减弱。     

TiO2纳米管催化活性再生处理技术

采用H2O2、Fe2（SO4）3和Fenton溶液对失活的TiO2纳米管进行再生处理，重点考察了3种溶液的浓度和处理时间等对再生效果的影响，初步分析了经处理后TiO2纳米管催化活性得到再生或增强的机理。结果表明，经H2O2溶液处理后TiO2催化活性能得到有效再生，经Fe2（SO4）3，和Fenton溶液处理后其催化活性不仅得到再生，还能显著增强，这与H2O2和Fenton的强氧化作用，及进入TiO2纳米管的Fe3＋的阻止电子．空穴对再复合作用有关。     

Comparison of various advanced oxidation processes and chemical treatment methods for COD and color removal from a polyester and acetate fiber dyeing effluent

In this paper, a comparison of various advanced oxidation processes (O3, O3/UV, H2O2/UV, O3/H2O2/UV, Fe2+/H2O2) and chemical treatment methods using Al2(SO4)3.18H2O, FeCl3 and FeSO4 for the chemical oxygen demand (COD) and color removal from a polyester and acetate fiber dyeing effluent is undertaken. Advanced oxidation processes (AOPs) showed a superior performance compared to conventional chemical treatment, which maximum achievable color and COD removal for the textile effluent used in this study was 50% and 60%, respectively. Although O3/H2O2/UV combination among other AOPs methods studied in this paper was found to give the best result (99% removal for COD and 96% removal for color), use of Fe2+/H2O2 seems to show a satisfactory COD and color removal performance and to be economically more viable choice for the acetate and polyester fiber dyeing effluent on the basis of 90% removal.