A novel integrated step-feed biofilm process for the treatment of decentralized domestic wastewater in rural areas of China

For wastewater treatment in rural areas, a novel three-stage step-feed wastewater treatment system, combined with a drop-aeration biofilm process, was tested in the laboratory to investigate its performance in removing suspended solids （SS）, chemical oxygen demand （COD）, NH4＋-N, total nitrogen （TN）, and total phosphorus （TP）. The removal rates of SS, COD and NH4＋-N were 90%, 80%, and 90% in efluent concentrations less than 10 mg/L, 50 mg/L and 8 mg/L, respectively. The TP removal rate was less satisfactory. The C/N ratio in the raw wastewater was often less than 3.5, and the removal efficiency of TN was therefore limited. A carbon-release batch experiment was carried out to measure the feasibility of enhancing denitrification at low influent C/N ratios. The result showed that the C/N could be over 9.0 in the supernatant. Polymerase chain reaction denaturing gradient gel electrophoresis technology was used to reveal the changes in the bacterial community during different stages of the integrated step-feed biofilm process. The results showed that banding patterns and the distribution of dominant bands for the same experimental period in different aerobic zones were similar. Phylogenetic analysis indicated that lanes 10, 11 and 12, which presented three aerobic zones at the same operation period, had the closest phylogenetic relationship among the lanes.

Enhanced Biological Nutrients Removal in Modified Step-feed Anaerobic/Anoxic/Oxic Process

In order to enhance phosphorus removal in traditional step-feed anoxic/oxic nitrogen removal process,a modified pilot-scale step-feed anaerobic/anoxic/oxic(SFA 2/O) system was developed,which combined a reactor similar to UCT-type configuration and two-stage anoxic/oxic process.The simultaneous nitrogen and phosphorus removal capacities and the potential of denitrifying phosphorus removal,in particular,were investigated with four different feeding patterns using real municipal wastewater.The results showed that the feeding ratios(Q1)in the first stage determined the nutrient removal performance in the SFA 2/O system.The average phosphorus removal efficiency increased from 19.17% to 96.25% as Q1 was gradually increased from run 1 to run 4,but the nitrogen removal efficiency exhibited a different tendency,which attained a maximum 73.61%in run 3 and then decreased to 59.62%in run 4.As a compromise between nitrogen and phosphorus removal,run 3 (Q1=0.45Qtotal) was identified as the optimal and stable case with the maximum anoxic phosphorus uptake rate of 1.58 mg·(g MLSS)-1 ·h-1.The results of batch tests showed that ratio of the anoxic phosphate uptake capacity to the aerobic phosphate uptake capacity increased from 11.96% to 36.85% with the optimal influent feeding ratio to the system in run 3,which demonstrated that the denitrifying polyP accumulating organisms could be accumulated and contributed more to the total phosphorus removal by optimizing the inflow ratio distribution.However,the nitrate recirculation to anoxic zone and influent feeding ratios should be carefully controlled for carbon source saving.

Performance evaluation of a modified step-feed anaerobic/anoxic/oxic process for organic and nutrient removal

A pilot scale modified step-feed process was improved to increase nutrient(N and P)and organic removal operations from municipal wastewater.It combined the step-feed process and a method named "University of Cape Town(UCT)".The effect of nutrient ratios and inflow distribution ratios were studied.The highest uptake efficiency of 95% for chemical oxygen demand(COD)has been achieved at the inflow distribution ratio of 40/35/25.However,maximum removal efficiency obtained for total nitrogen(TN)and phosphorus at 93% and 78%,respectively.The average mixed liquor suspended solids(MLSS)was 5500 mg·L^(-1).In addition,convenient values for dissolved oxygen(DO)concentration,and p H were obtained throughout different stages.The proposed system was identified to be an appropriate enhanced biological nutrient removal process for wastewater treatment plants owing to relatively high nutrient removal,sturdy sludge settle ability and COD removal.

Theoretical evaluation on nitrogen removal of step-feed anoxic/oxic activated sludge process

Evaluation on nitrogen removal of step-feed anoxic/oxic activated sludge process at the standpoint of reaction kinetics and process kinetics was conducted. Theoretical biological nitrogen removal efficiency was deduced based on the mass balance of nitrate in the last stage. The comparison of pre-denitrification process and step feed process in the aspects of nitrogen removal efficiency, volume of reactor and building investment was studied, and the results indicated that step-feed anoxic/oxic activated sludge process was superior to pre-denitrification process in these aspects.

Nitrogen removal and simultaneous nitrification and denitrification in a fluidized bed step-feed process

For urban wastewater treatment,we conducted a novel four-stage step-feed wastewater treatment system combined with a fluidized bed laboratory experiment to investigate chemical oxygen demand（COD）,NH4＋-N,and total nitrogen（TN） removal performance.The removal rates of COD,NH4＋-N and TN were 88.2%,95.7%,and 86.4% with e？uent concentrations of COD,NH4＋-N and TN less than 50,8,and 10 mg/L,respectively.Biomass and bacterial activities were also measured,with results showing more nitrobacteria in the activated sludge than in the biofilm;however,bacterial activity of the biofilm biomass and the activated sludge were similar.Nitrogen concentrations during the process were also detected,with simultaneous nitrification and denitrification found to be obvious.

Denitrification and phosphorus uptake by DPAOs using nitrite as an electron acceptor by step-feed strategies

把亚硝酸根用作一个电子领受人的从的磷积累有机体(DPAO ) 能减少更多的精力。然而，亚硝酸根被报导了在从上有抑制磷移动。在这研究，步喂策略被建议完成低亚硝酸根集中，它能避免或减轻亚硝酸根抑制。结果证明那 denitrification 率，磷举起率和到亚硝酸根的磷 uptaken 的比率从(缺氧的 P/N 比率) 当亚硝酸根集中是 15 mg 时。

深圳沙河水质净化厂及3#调蓄池工艺设计要点及特点

沙河水质净化厂设计规模为旱季10万m3/d,雨季额外处理10万m3/d初期雨水,3#调蓄池设计规模为15.3万m3。污水及初期雨水处理采用预处理+多段厌氧-好氧(AO)+二沉池+磁混凝高效沉淀池+精密过滤+紫外消毒的工艺,出水水质执行深圳市地方标准《水质净化厂出水水质规范》(DB 4403/T 64—2020)B级标准,其中总氮(TN)≤8 mg/L。污泥处理采用离心浓缩+低温热干化工艺,处理后含水率≤40%。作为国内首个将水质净化厂与初期雨水调蓄池深度融合的全地下式水污染治理综合体,项目采用多段AO耦合“3W法”(Wet-Weather-Wastewater法),并以此为核心提出了一种实现大规模污水及初期雨水高标准协同处理的系统解决方案,且无需大幅度增加污水处理设施体量、投资和运行成本。

双模式MSBR工艺在城镇污水厂雨季工况中的中试试验

我国城镇污水处理厂在雨季往往面临短时间激增的水力冲击负荷,因污水厂二级处理系统通常按旱季流量设计,无法应对超量的雨季合流污水,导致厂前溢流或厂内超越,严重污染了受纳水体。研究采用含多点进水功能的双模式改良型序批间歇反应器(MSBR)在浙江某污水处理厂模拟雨季超量合流污水的生化处理,通过中试试验证明了该工艺可在合流污水达到2~4倍旱季设计流量的条件下,确保COD_(Cr)、氨氮、总氮(TN)等主要出水指标稳定达到并优于《城镇污水处理厂污染物排放标准》(GB 18918—2002)中一级A标准,其中出水氨氮平均质量浓度小于1.0 mg/L,TN平均质量浓度小于10 mg/L。其处理效果显著优于物理-化学强化一级处理工艺,为大幅提升污水处理厂的雨季峰值流量处理能力,有效削减雨季受纳水体的冲击性污染,消除城镇黑臭水体提供了新的解决方案。

基于超早期阶梯式协同营养管理在改善重症急性胰腺炎患者喂养中的应用

目的分析超早期阶梯式协同营养管理在改善重症急性胰腺炎患者喂养中的应用效果。方法抽取2020年1月—2022年1月南阳市中心医院收治的80例重症急性胰腺炎患者为研究对象,随机数字表法分为观察组和参照组,各40例,两组患者均给予常规营养干预措施,其中观察组患者在以上基础上给予超早期阶梯式协同营养管理,对比两组患者的临床症状消退时间、营养状况、喂养相关并发症、喂养不耐受发生率。结果与参照组相比,观察组患者的临床症状消退时间更短(P<0.05),观察组患者的体质量指数、上臂肌围、肱三头肌皮褶厚度及血清清蛋白水平更高(P<0.05);两组患者的喂养相关并发症主要包括恶心呕吐、误吸、腹泻、感染,观察组患者的喂养相关并发症发生率为7.50%,参照组患者的喂养相关并发症发生率为25.00%,观察组患者的喂养相关并发症发生率低于参照组(P<0.05);观察组患者喂养不耐受发生2例(5.00%),参照组患者喂养不耐受发生9例(22.50%),观察组患者喂养不耐受发生率低于参照组(P<0.05)。结论重症急性胰腺炎患者实施超早期阶梯式协同营养管理可降低喂养不耐受发生率及喂养相关并发症发生率,改善患者营养水平。

基于模糊控制的食品柔性供袋装置步进驱动系统研究

本文基于模糊控制算法,建立了柔性供袋模糊PID控制方法并进行仿真,通过与传统PID控制方法的比较来验证柔性供袋模糊PID控制方法的可靠性。仿真结果显示,在同等条件下,柔性供袋模糊PID控制达到稳定的时间比传统PID控制少;受到干扰信号后,阶跃响应曲线图发生一定的突变,但很快可以实现自我调节至新的平衡状态。研究结果表明,运用模糊PID控制方法来优化柔性供袋装置步进驱动控制系统,可以实现柔性供袋装置中撑袋与上袋装置的快速性能和精确性能。

基于阶梯阻抗谐振器的滤波介质谐振器天线

为设计一种适用于无线通信系统射频(RF)前端且具有良好带外抑制特性的滤波介质谐振器天线(DRA),提出了一种基于阶梯阻抗谐振器(SIR)的滤波DRA。通过将谐振器单元折叠并进行电耦合级联,实现带宽可调的紧凑型滤波器设计;采用零度馈电方式,提高滤波器带外抑制水平。最终,将其嵌入DRA微带馈线,完成具有准椭圆函数响应的滤波DRA设计。仿真与测试表明:天线中心频率为3.4 GHz,阻抗带宽为13.02%(3.15~3.59 GHz),增益为4.46 dBi,辐射零点分别位于2.91 GHz和4 GHz处。

多段多级AO工艺处理低碳氮比污水的效能及碳排放分析

在“双碳”背景下,高效处理污水的同时减少碳排放已成为污水处理行业发展的必然要求。多段多级AO工艺处理效果好、脱氮效率高、碳源利用充分、药耗及能耗低,适合低碳氮比城市生活污水的处理。结合工程案例,分析了该工艺在处理低碳氮比污水时的效果,测算了能耗、药耗及碳源利用情况。结果表明,进水碳氮比约为3.0:1时,少量投加碳源情况下,出水总氮质量浓度能达到6.3mg/L,脱氮效果良好。污水处理段碳排放约0.732kgCO_(2)/m^(3),其中生化段碳排放总计约为0.618kgCO_(2)/m^(3),占比约为85%。与脱氮除磷相关的碳排放量约为0.415kgCO_(2)/m^(3),占比约为56.7%,提高脱氮除磷的效率对污水处理的碳减排具有重大意义。该工艺高效低碳的特点,特别适合于南方低碳氮比污水处理,对节能减排具有积极的经济、社会及环境意义。

分段进水多级AO工艺设计方法探讨及优化

多级AO生物处理系统的总氮去除率由污泥回流比R,总分段数n及流量分配系数比q三者决定。根据公式可知,分段数n及污泥回流比R越大,流量分配系数比q越小,总氮去除率越高。污泥回流比R主要控制生物池中污泥浓度,当采用二沉池进行泥水分离时,一般可取0~100%。流量分配系数比q可根据进水碳氮比及理论碳氮比计算得出。

不同COD/N对主流同步短程硝化反硝化的影响

为了解决农村生活污水生物脱氮过程中碳源不足的问题,利用混合悬浮污泥和生物膜的多循环序批式反应器(Sequencing Batch Reactor,SBR)建立了同步短程硝化反硝化工艺,并详细分析了COD/N比例对该工艺的影响。当COD/N比例为4∶1时,总氮去除率和亚硝化率分别达到85.0%和95.6%;当COD/N比例为2∶1时,总氮去除率和亚硝化率分别为76.1%和83.8%;当COD/N比例降至1∶1时,总氮去除率降至31.0%,而亚硝化率仅1.2%,说明COD/N比例对同步短程硝化反硝化影响明显。当碳源充足时,NO^(-)_(2)-N可在缺氧段被全部去除,导致亚硝酸氮氧化菌(Nitrite Oxidizing Bacteria,NOB)的可利用底物(NO-2-N)远远低于氨氧化菌(Ammonium Oxidizing Bacteria,AOB)的可利用底物(NH^(+)_(4)-N),且生物膜内缺氧反硝化菌也能在好氧段进行反硝化,进一步减少了NOB的可利用底物。加上短污泥龄控制,悬浮NOB被持续冲刷排出。因此,多循环SBR内NOB抑制的核心点是高COD/N情况下反硝化菌与NOB竞争NO-2-N,通过强化反硝化抑制NOB的策略可在工程应用中予以借鉴。

利用体外三步法研究绒山羊常用精饲料原料的营养物质降解率

试验旨在采用体外三步法(瘤胃液-胃蛋白酶-胰酶)测定绒山羊常用精饲料原料的营养物质降解率,评价精饲料原料营养价值。采用单因素完全随机试验设计,每种精饲料原料为1个处理组,共16个处理组,每个处理组6个重复。结果显示,绒山羊对膨化大豆和豆粕的消化能(DE)分别为18.65、18.14 MJ/kg,均高于其他精饲料。豆粕和玉米的干物质(DM)、有机质(OM)、粗蛋白(CP)和粗脂肪(EE)的降解率较高,豆粕和玉米的DM降解率分别为99.50%、96.88%,玉米和压片玉米的OM降解率为97.15%和94.28%,玉米和喷浆蛋白的CP降解率为99.45%和98.63%,玉米和压片玉米的EE降解率为97.59%和95.73%。绒山羊对大豆皮的DE最低,为11.31 MJ/kg。大豆皮的DM降解率较低,为68.09%,棉粕、玉米皮和大豆皮的OM降解率较低,分别为75.10%、76.88%、78.36%,玉米皮和大豆皮的CP降解率较低,为65.16%、70.38%,玉米皮的EE降解率较低,为58.69%。研究表明,玉米、压片玉米和豆粕营养价值较高,玉米皮和大豆皮营养价值较低。

超早期阶梯式协同营养管理对重症急性胰腺炎病人喂养相关并发症及喂养不耐受情况的影响

目的探讨超早期阶梯式协同营养管理对重症急性胰腺炎病人喂养相关并发症及喂养不耐受情况的影响。方法收集2021年6月~2022年8月在本院就诊的重症急性胰腺炎患者78例,随机分组,即对照组、观察组,均39例。对照组常规营养,观察组超早期阶梯式协同营养管理。统计两组喂养并发症及喂养不耐受情况。结果观察组喂养相关并发症发生率2.56%、喂养不耐受发生率5.13%、1周内胃内残余量低于对照组(P<0.05)。观察组TF、ALB、PA水平均高于对照组(P<0.001)。结论超早期阶梯式协同营养管理用于重症急性胰腺炎患者,可以减少患者喂养不耐受情况以及降低并发症发生率,改善机体营养状况,值得推广应用。

缺氧分段式UCT工艺的脱氮除磷效能

在UCT工艺的基础上,提出一种新型缺氧分段式UCT工艺用于高效脱氮除磷。试验考察了新工艺对模拟生活污水的处理效果,并对各个功能单元的氮磷去除能力和微生物群落进行分析。工艺运行结果表明,CODCr、氨氮、TN和TP的平均去除率分别为95.85%、99.37%、83.12%和87.13%。通过氮磷质量平衡发现,前段缺氧池和后段缺氧池均呈现出明显的脱氮能力。同时分段式进水模式有利于系统脱氮能力的提升,从而有效降低回流至厌氧池的NO-3-N浓度,减小NO-3-N对厌氧释磷的不利影响。高通量测序结果揭示了变形菌门(Proteobacteria)和拟杆菌门(Bacteroidota)为优势菌门。在新型UCT工艺中,Candidatus_Competibacter(18.75%~26.43%)、OLB8(7.81%~12.52%)等反硝化菌为优势菌属,Tetrasphaera和Dechloromonas是主要的聚磷菌,有利于实现高效的脱氮除磷。

两级A/O工艺在合成革废水处理中的应用

本文介绍了两级A/O工艺在合成革工业园区污水处理厂废水处理中的应用。参考该污水处理厂二期工程设计参数及运行情况,优化其三期扩建工程技术设计。本工程通过设置分段进水、加大混合液回流比以及采用磁悬浮鼓风机曝气等措施,提高了两级A/O工艺对合成革废水的处理效果,同时减少了碳源投加量,降低了电力能耗。经过后期运营,处理后的出水水质达到了《合成革与人造革工业污染物排放标准》(GB 21902-2008)排放标准中表2规定的水污染物排放要求,表明两级A/O工艺在合成革废水处理中应用的可行性。

分步真空喷涂硬脂鱼油可提高大口黑鲈高脂饲料的水中稳定性

为研究不同鱼油和真空喷涂方式对大口黑鲈(Micropterus salmoides)高脂饲料水中稳定性的影响,参考了现阶段大口黑鲈商业配方并在接近商品饲料生产条件下制得1种膨化颗粒,喷涂油脂为硬脂鱼油和冬化鱼油,真空喷涂的方式分为直接喷涂和分步喷涂,制得4组高脂实验饲料,分别命名为:冬化直喷组(冬化鱼油直接喷涂)、均混直喷组(冬化及硬脂鱼油均等混匀后直接喷涂)、“1/2”硬脂分喷组(“1/2”硬脂分步喷涂)和“1/3”硬脂分喷组(“1/3”硬脂分步喷涂)。在水温26℃且略带震荡的条件下分别浸泡10min、20min、40min、60min、90min和180min,并测定相应的饲料水中稳定性。结果显示:4组饲料的干物质、粗蛋白和粗脂肪溶失率均随浸泡时间延长而逐步升高,浸泡180min后,三者的平均溶失率分别达到了22.34%、10.26%和4.60%。在前60min浸泡时间内,冬化直喷组表现最差,其脂肪和干物质溶失率显著高于其余各组,“1/2”硬脂分喷组表现最佳,其脂肪和干物质溶失率显著低于其余各组,但各组间的粗蛋白溶失率均无显著差异(P>0.05)。浸泡90min后,“1/2”和“1/3”硬脂分喷组的粗脂肪溶失率显著低于冬化直喷组和均混直喷组,但两个分喷组间无显著差异;“1/2”硬脂分喷组的干物质溶失率显著低于冬化直喷组,但冬化直喷组、均混直喷组和“1/3”硬脂分喷组间无显著差异;冬化直喷组的粗蛋白溶失率显著高于其余各组。浸泡180min后,仅“1/2”硬脂分喷组的粗脂肪溶失率显著低于其余各组,冬化直喷组的干物质和粗蛋白的溶失率均显著高于其余各组。通过进一步的比较分析,结果表明:提高喷涂油脂的饱和度、采用分步喷涂工艺及在分步喷涂时提高喷涂油脂中硬脂鱼油的占比都能显著降低饲料粗脂肪和干物质的溶失率,进而提高大口黑鲈高脂饲料水中稳定性,但以上因素均不影响饲料的粗蛋白溶失率。

反硝化过程中亚硝酸盐积累特性分析

在分段进水工艺处理城市废水实现深度脱氮(TN<5 mg.L-1)研究中,采用SBR反应器,分别以甲醇或葡萄糖为碳源研究了反硝化过程中亚硝酸盐(NO2--N)的积累情况、pH和ORP变化规律及动力学特性。结果表明,2种碳源系统、不同碳氮比(C/N)条件下反硝化过程均出现明显的NO2--N积累。相同C/N下,在NO2--N积累阶段,葡萄糖碳源系统的NO2--N积累浓度明显大于甲醇碳源,但2种碳源的NO3--N还原速率均大于NO2--N还原速率,且随C/N增加NO2--N的积累浓度逐渐增加,积累时间逐渐缩短。而高C/N下葡萄糖碳源的NO3--N还原速率及NO2--N积累浓度却呈现出下降的趋势。此外,pH和ORP变化规律可很好地表征反硝化过程中NO2--N积累的特征点,通过pH和ORP曲线的第2个拐点可指示反硝化过程的"真正"结束。