污泥停留时间(SRT)对反硝化除磷及污泥特性的影响

反硝化除磷工艺节约碳源,节省曝气量,同时减少剩余污泥产量,是一种低碳型污水脱氮除磷新技术。污水反硝化除磷最终通过排放剩余污泥来实现,设置合理的污泥停留时间(Sludge Retention Time,SRT)将影响系统的除磷效果,最终决定系统的运行稳定性和高效性。因此本研究有助于实现除磷工艺的优化,具有重大的工程意义。本实验设置序批式反应器(Sequencing Batch Reactor,SBR)反硝化除磷系统,系统研究了不同SRT(10 d、15 d、20 d、25 d和30 d)对反硝化除磷效果以及污泥特性的影响。结果显示,当SRT=15d时,磷去除率达到98.1%,系统除磷效果最佳;随着系统SRT的梯度增长,系统污泥产率依次为0.216 1mg VSS/mg COD、0.209 0mg VSS/mg COD、0.1894mg VSS/mg COD、0.170 5mg VSS/mg COD、0.140 3mg VSS/mg COD,逐渐降低;系统污泥磷含量依次为8.09%、8.43%、8.27%、7.92%、7.62%,总体成下降趋势;CST依次为3.54g/g SS、3.73g/g SS、2.39g/g SS、2.1g/g SS、1.71g/g SS,污泥脱水性能增强。试验表明SRT的变化影响系统除磷效果及污泥特性,为优化反硝化除磷技术提供理论依据。     

污泥停留时间对污泥减量化的影响

污泥停留时间不但决定系统剩余污泥的排放量,还直接影响到污泥的絮凝沉降性能及活性等。由实验可知:污泥停留时间延长,可导致微生物缺乏营养,减少污泥产生量;从而导致SVI升高,污泥负荷降低。因此,延长污泥停留时间减少剩余污泥量,可以节省尿素和KH2PO4投入量,从经济上节省运行成本。     

电子受体对污泥产率的影响

本文通过2个SBR和30次分批实验研究了电子受体（O2、NO3^-）对活性污泥产率系数（真实产率YH和表观产率Yobs）的影响。分批实验采用的基质是多种多样的,所选用的接种污泥是SBR长期培养出来的。实验结果表明,在不同的电子受体（O2、NO3^-）条件下,真实产率YH具有显著的不同,缺氧YH是0.53 mgCOD/mgCOD,而好氧YH是0.68 mgCOD/mgCOD,这是由于不同电子受体需要不同的微生物种群,其细胞产率不同。不过缺、好氧的表观产率Yobs（0.33 g△MLVSS/g△COD和0.35 g△MLVSS/g△COD）的差异并不显著,这是由于好氧污泥的内源呼吸作用更强,有更多的污泥衰减。     

干化污泥造粒对垃圾焚烧厂协同焚烧的影响研究

以某生活垃圾焚烧发电厂协同焚烧干化市政污泥作为研究对象,对干化污泥造粒后的性状进行了分析,对比研究了干化污泥造粒前后对垃圾库管理、锅炉效率、锅炉温度、烟气净化系统及飞灰产量的影响。对比结果表明:通过造粒粉状干化污泥生成直径5～8mm、长度30～50mm的污泥颗粒,有效的避免了运输及垃圾库的扬尘;其次,锅炉效率提高了7. 7%,锅炉升温速率减缓,锅炉的积灰结焦得到了有效控制;同时,烟气净化系统中消石灰的耗量降低了8. 9%,SO_2的排放浓度明显下降,飞灰产量由2. 8%降到2. 3%。研究结果显示污泥造粒后送入焚烧厂掺烧对焚烧系统的运行稳定性及经济性极其有利,为焚烧厂协同焚烧污泥提供了运行经验及合理化方案。     

污泥沉降比在活性污泥法处理污水中的应用

炼油化工废水水量大,含有较高浓度的COD、NH3-N、硫、酚、石油类等污染物,活性污泥法具有运行稳定,耐负荷运行、成本低、维护方便和处理效果良好的特点。文章通过分析污泥沉降比与各因素之间的关系,得出:温度是影响沉降比主要因素,外界环境因素也影响污泥沉降比,污泥沉降比对维持曝气池稳定有重要作用,利用污泥沉降比可以调节剩余污泥排放量,控制污泥浓度;通过污泥沉降比的变化可以及早判断和发现污泥膨胀,及时做出工艺运行调整。     

造纸废水好氧生化处理系统污泥臭氧氧化减量研究

本文开展了利用O3氧化造纸废水生化处理系统产生剩余污泥的实验研究,根据O3对污泥性状、细胞溶解性COD及细胞电导率透性等指标的影响规律,提出了利用O3氧化剩余污泥实现系统污泥减量的最佳技术条件：在污泥浓度为5000mg／L时,体系中初始O3浓度为8．0～16．0mg／L时,接触氧化时间控制在20min,即可保证细胞溶胞的目的,在此条件下可实现系统污泥减量87．1％。     

低温热水解提高污泥厌氧消化性能的研究

先将剩余污泥进行低温热水解预处理,其后测定生物化学甲烷势(BMP)来研究热水解对剩余污泥厌氧消化性能的影响。结果表明:污水厂剩余污泥经低温热水解处理可使污泥固体溶解和水解,从而提高剩余污泥厌氧消化性能。最适宜的热水解条件为70℃,24 h,此时剩余污泥TCOD去除率由18%提高到30%,热水解处理后沼气产量提高63%。     

辽西北丘陵地区农村生活污水产污系数测算研究

通过对辽西北丘陵地区农村进行现场调研,测算了农村生活污水产污系数。结果表明,监测农户总生活污水中人均日产污水量为16.42 L,COD、BOD5、NH3-N、TN、TP、动植物油浓度的平均水平分别为696.9,341.83,4.34,36.79,4.32,2.28 mg/L;用水来源对农户生活污水中人均日产污水量和动植物油产污系数无显著影响,可取监测农户的平均值作为统一值;锦州北镇市农户生活污水人均日产量为19.12 L,COD、BOD5、TN、动植物油产污系数分别为0.05,0.11,0.09,0.87 g/(人·d),NH3-N和TP产污系数分别在7.29~7.35 g/(人·d)和14.69~14.83 g/(人·d),朝阳北票市农户生活污水人均日产量为19.12 L,COD、BOD5、NH3-N、TN、TP、动植物油产污系数分别为13.59,6.49,0.09,0.43,0.02,0.87 g/(人·d)。     

碱解处理对剩余污泥融胞效果及厌氧消化产气效果

主要研究了碱解处理的pH值对剩余污泥的融胞效果及厌氧消化产气效果的影响.通过观测碱处理污泥上清液中的SCOD以及溶解性蛋白质,发现两者变化规律相似,其融胞效果随pH值的升高,即碱投加量的增加而增加.此外随着pH值的升高,VS的去除率随之增加.当pH为11时,48h VS去除率可达将近22%.碱解处理后污泥的后续厌氧消化的特性可得到明显改善.碱解处理调节pH值分别为pH9、pH10、pH11的污泥进行厌氧消化30d总甲烷产量与未经碱解处理的污泥相比较,总甲烷产量分别提高了8%、23%、41%.其中经碱解处理至pH值为11的污泥的COD去除率为32%.     

硫化废气污泥活性炭净化处理技术研究

以污泥厂剩余活性污泥作为原料,采用KOH为活化剂制备污泥活性炭,探讨了活化温度及时间、热解温度、洗涤温度及方式在污泥活性炭制备过程中的最佳工艺条件。以品红吸附量及产率作为污泥活性炭的考察指标,采用单因素实验筛选出了制备污泥活性炭的最佳工艺条件,并对污泥活性炭脱硫剂的脱硫性能进行了实验研究。实验研究结果显示,烟气中O2、水蒸气含量的多少及脱硫温度的高低会影响污泥活性炭脱硫剂的脱硫性能。     

低含油污泥固化处理技术研究*

针对辽河油田欢采水厂低含油污泥,采用固化处理方法,测定了固化剂用量对抗压强度的影响和促凝剂用量对固化时间的影响,得到含油污泥:固化剂:促凝剂最佳配比为100:12:1.5。对含油污泥固化块进行浸出液毒性监测,分析结果表明:含油污泥固化块浸出液中重金属Cu、Pb、Cr、As、Zn、Ni、Cd的含量明显降低,远低于GB5085.3-2007《危险废物鉴别标准浸出毒性鉴别》;浸出液中COD降低了77%。     

SBR中好氧颗粒污泥的培养

采用竖式SBR作为反应器，利用城市污水处理厂剩余污泥作为接种污泥，通过不间断运行培养出好氧颗粒污泥。实验结果表明，采用非限量曝气模式好氧颗粒污泥降解模拟污水的效果较好，其COD去除率可达98％以上。曝气量对好氧颗粒污泥的形成和稳定具有重要影响，当气速为26．5m／h时，好氧颗粒污泥的性状和处理有机废水效果最佳。同时好氧颗粒污泥对pH值的变化不明显，当pH为5—8范围内，其COD去除率都可达到85％以上。但是未经驯化的好氧颗粒污泥对对硝基苯酚和对氯苯酚两种芳香类有机物较敏感，而对硝基苯酚对其毒性更大。当对硝基苯酚和。对氯苯酚浓度为10mg／L时，其COD去除率仅为42．5％和52％。     

The effect of landfill leachate composition on organics and nitrogen removal in an activated sludge system with bentonite additive

A pre-denitrification activated sludge system (AS) without internal recycle was used in lab-scale studies of landfill leachate treatment. A bentonite supplement at a ratio of 1:4 (mineral : biomass) was used to ensure high sludge settling levels and to serve as a micro-organisms carrier. The system was operated within different parameters such as hydraulic retention time (HRT), ammonia loading rate (ALR) or external recycle ratio, which was adapted to treat varying leachate concentrations of COD and ammonia, ranging from 1020 to 2680 mgO(2)l(-1) and 400-890 mgNH(4)-Nl(-1) respectively. The nitrification was complete and ammonia oxidation reached 99%; this was obtained while the ALR did not exceed 0.09 g NH(4)(+)-Ng(-1)MLVSS d(-1) and HRT was not lower than 1 day (in the aeration reactor). The performance of denitrification was successfully improved by controlling the external recycle rate, when the BOD(5)/N ratio in the raw leachate was 4.1. Consequently, N-removal of up to 80% was achieved. A 10-fold decrease in the denitrification rate was obtained at a BOD(5)/N ratio of 0.5. The efficiency of COD removal varied significantly from 36% to 84%. The positive effect of bentonite addition was determined and is discussed based on preliminary studies. The experiments were carried out in fill-and-draw activated sludge with bentonite; the biomass ratio was 1:2. The activated sludge with bentonite was fed with a synthetic high ammonia and organic-free medium.     

Sequencing batch reactor biofilm system for treatment of milk industry wastewater

A sequencing batch reactor biofilm (MSBR) system was modified from the conventional sequencing batch reactor (SBR) system by installing 2.7 m2 surface area of plastic media on the bottom of the reactor to increase the system efficiency and bio-sludge quality by increasing the bio-sludge in the system. The COD, BOD5, total kjeldahl nitrogen (TKN) and oil & grease removal efficiencies of the MSBR system, under a high organic loading of 1340 g BOD5/m3 d, were 89.3+/-0.1, 83.0+/-0.2, 59.4+/-0.8, and 82.4+/-0.4%, respectively, while they were only 87.0+/-0.2, 79.9+/-0.3, 48.7+/-1.7 and 79.3+/-10%, respectively, in the conventional SBR system. The amount of excess bio-sludge in the MSBR system was about 3 times lower than that in the conventional SBR system. The sludge volume index (SVI) of the MSBR system was lower than 100 ml/g under an organic loading of up to 1340 g BOD5/m3 d. However, the MSBR under an organic loading of 680 g BOD5/m3 d gave the highest COD, BOD5, TKN and oil & grease removal efficiencies of 97.9+/-0.0, 97.9+/-0.1, 79.3+/-1.0 and 94.8+/-0.5%, respectively, without any excess bio-sludge waste. The SVI of suspended bio-sludge in the MSBR system was only 44+/-3.4 ml/g under an organic loading of 680 g BOD5/m3 d.     

Coliforms removal in full-scale activated sludge plants in India

This paper investigates the removal of coliforms in full-scale activated sludge plants (ASP) operating in northern regions of India. Log2.2 and log2.4 removal were observed for total coliforms (TC) and fecal coliforms (FC), respectively. However, the effluent still contained a significant number of TC and FC which was greater than the permissible limit for unrestricted irrigation as prescribed by WHO. The observations also suggest that extended aeration (EA) process operating under high mixed liquor suspended solids (MLSS) and sludge retention time (SRT) is more efficient in the removal of coliforms. Further attempts have been made to establish the relationship between two key wastewater parameters, i.e. biochemical oxygen demand (BOD) and suspended solids (SS) with respect to fecal and TC. The relationships were observed to be linear with a good coefficient of correlation. The interrelationship of BOD and SS with coliforms manifest that improvement of the microbiological quality of wastewater could be linked with the removal of SS. Therefore, SS can serve as a regulatory tool in lieu of an explicit coliforms standard.     

Flavour Industry Wastewater Management Case Study

Summary This study is carried out to propose an appropriate treatment technology for wastewater discharged from a flavor production factory. Industrial wastewater discharged from this factory ranges between 50–70 m³/d with an average value of 60 m³/d. The major source of pollution in this factory is due to cleaning of the vessels therefore the treatment has been carried out on the end-of pipe wastewater. The wastewater is characterized by high values of COD, BOD, TSS and Oil and grease 4646, 2298, 1790 and 626 mg/l respectively. Primary sedimentation of the wastewater for four hours reduced the COD, BOD, TSS and Oil and grease by 43, 47, 80 and 74%, respectively. For the treatment of the produced wastewater, the biological treatment process such as activated sludge, rotating biological contactor (RBC), up-flow anaerobic sludge bed reactor (UASB) have been selected. The results from each treatment process proved to be efficient for the treatment of such wastewater. The treated wastewater characteristics are in compliance with the Egyptian law which regulates the discharge of industrial wastewater to the sewerage system. The RBC was selected and installed by the factory as it has the advantage of low operating and maintenance costs. The factory RBC performance was monitored; characteristics of the treated effluent in terms of oil and grease, COD, BOD and TSS were 27, 362, 139 and 95 mg/l, respectively.     

Para-chlorophenol containing synthetic wastewater treatment in an activated sludge unit: effects of hydraulic residence time

Due to the toxic nature of chlorophenol compounds present in some chemical industry effluents, biological treatment of such wastewaters is usually realized with low treatment efficiencies. Para-chlorophenol (4-chlorophenol, 4-CP) containing synthetic wastewater was treated in an activated sludge unit at different hydraulic residence times (HRT) varying between 5 and 30 h while the feed COD (2500 mg l(-1)), 4-CP (500 mg l(-1)) and sludge age (SRT, 10 days) were constant. Effects of HRT variations on COD, 4-CP, toxicity removals and on settling characteristics of the sludge were investigated. Percent COD removals increased and the effluent COD concentrations decreased when HRT increased from 5 to 15 h and remained almost constant for larger HRT levels. Nearly, 91% COD and 99% 4-CP removals were obtained at HRT levels above 15 h. Because of the highly concentrated microbial population at HRT levels of above 15 h, low effluent (reactor) 4-CP concentrations and almost complete toxicity removals were obtained. High biomass concentrations obtained at HRT levels above 15 h were due to low 4-CP contents in the aeration tank yielding negligible inhibition effects and low maintenance requirements. The sludge volume index (SVI) decreased with increasing HRT up to 15 h due to high biomass concentrations at high HRT levels resulting in well settling sludge with low SVI values. Hydraulic residence times above 15 h resulted in more than 90% COD and complete 4-CP and toxicity removals along with well settling sludge.     

含油污泥深度调剖技术研究与应用

大庆油田通过含油污泥深度调剖剂的室内配方研究,分析了各种影响因素,得出最佳含油污泥调剖剂配方,并选择杏10-1-W472井进行了现场应用。应用结果为:深度调剖后2个月,周围连通油井开始见效,平均日增液27m3,日增油1.6t,综合含水率下降0.5%,平均流压上升0.93MPa,说明低出液、低含水部位的出液比例得到了大幅提高,实现了对这部分剩余油的挖潜目标。该实验表明:含油污泥经过处理后复配成调剖剂,回注到地下,既可提高采收率,又可解决长期以来含油污泥外排造成的环境污染问题。     

RUNOFF OF METALS FROM ALUM-TREATED HORSE MANURE AND MUNICIPAL SLUDGE1

ABSTRACT: Land application of organic soil amendments can increase runoff concentrations of metals such as Fe and Zn, metalbids such as B and As, and non-metals such as P and S that have the potential for causing adverse environmental impacts. Aluminum sulfate, or alum (Al₂(SO₄)3*(14H₂O), can reduce concentrations of some materials in runoff from sites treated with organic amendments. The objectives of this study were to (a) quantify concentrations of selected constituents (Al, As, B, Ca, Cd, Co, Fe, K, Mg, Mn, Mo, Na, P, Pb, 5, Se, Ti, and Zn) in runoff from plots treated with horse manure (mixed with stall bedding) and municipal sludge, (b) assess runoff quality effects of alum addition to those treatments, and (c) determine time variations in concentrations of the constituents. Horse manure and municipal sludge were applied to twelve 2.4 by 6.1 m fescue plots (six each for the manure and sludge). Alum was added to three of the manure-treated and three of the sludge-treated plots. Simulated rainfall (64 mm/h) was applied to the 12 treated plots and to three control (no treatment) plots. The first 0.5 h runoff was sampled and analyzed for the constituents described above. Addition of manure or sludge had no effect on runoff concentrations of the majority of constituents. In some cases (e.g., Al, As, Fe, Zn), however, concentrations were near or in excess of threshold values recommended for marine wildlife protection. Alum addition increased runoff of Al, Ca, K, and 5, due likely to its composition and by the addition of lime to counteract the acidity of alum. Concentration decreases of more than 50 percent were noted for P for the horse manure treatment. No alum effect was detected for P in runoff from the sludge-treated plots, possibly due to relatively stable P forms in the sludge. Runoff concentrations of Al, As, Fe, K, Mn, and P followed an approximately first-order decline with respect to time. Runoff concentrations of Ca and 5, however, peaked during the second runoff sample (four minutes following initiation of runoff), suggesting that differences in mobility and/or transport mechanisms exist among the materials investigated.     

水解酸化对感光胶片废水生化反应动力学系数的影响

采用水解酸化工艺可有效地提高工业废水中难生物降解有机物的可生化性,为后续好氧生化处理创造有利条件。本试验在对感光胶片废水采用水解酸化－活性污泥法工艺和常规活性污泥法进行平行对照试验的基础上,从生化反应动力学系数的角度研究水解酸化过程对好氧生化反应的影响。研究结果表明：经水解酸化处理后,在该废水的ＢＯＤ５／ＣＯＤＣｒ比值从０４６－０４８提高至０５４－０５６的同时,后续活性污泥系统的动力学半速度数Ｋｓ从常规活性污泥法的４５９毫克／升下降至１０３毫克／升,最大比降解速度Ｋ从３０／日上升至５０／日,可用于表征该工业废水可生化性和后续好氧化物处理效果改善和提高的程度。