厌氧颗粒污泥膨胀床（EGSB）处理生活污水试验研究

采用厌氧颗粒污泥膨胀床（EGSB）反应器在常温下处理小区生活污水,接种颗粒污泥。试验结果表明：当进水COD 411～560 mg/L,反应器容积负荷可达到3 kg COD/(m³·d),水力停留时间4 h,上升流速8 m/h,COD去除率可达到85%以上,出水COD为67～88 mg/L。并对EGSB反应器的结构及运行控制参数进行了优化,使其适宜于在常温下处理生活污水及其他低浓度有机废水。     

膨胀颗粒污泥床厌氧反应器原废水循环启动的实验研究

在室温条件下,以水葫芦汁液为废水来源,对自行设计的膨胀颗粒污泥床(EGSB)厌氧反应器进行原废水循环启动实验。结果表明:在启动运行65d后,进水有机负荷可以达到7kg/(m~3·d)左右,COD去除率达到90%以上,容积产气率达到1.35m~3/(m~3·d),甲烷体积分数达到61%,颗粒污泥粒径达到2~4mm。因此,EGSB厌氧反应器的原废水循环启动方式是可行的,对水葫芦汁液的降解是高效的,为EGSB厌氧反应器的工程应用提供一种新的启动方式,也为水葫芦汁液的能源化利用提供了一套高效、节能的厌氧发酵装置。     

EGSB反应器运行中的床层流态行为及其控制

生物量流失是EGSB反应器在高负荷状态下稳定运行面临的主要问题。利用实验室EGSB反应器在中温条件下处理高浓度葡萄糖废水,研究EGSB反应器在高负荷状态下的床层流态行为及其受影响因素。结果表明,在该反应器结构形式下,当有机负荷达到23-26 kg COD/（m3·d）,水力上升流速在约3.0 m/h,气体上升流速在约1.3 m/h状态下运行时,床层易发生剧烈流化现象,并导致颗粒污泥的解体和流失。降低反应器回流比、减小反应器内水力上升流速,控制床层在悬浮状态时可以有效降低高负荷状态下生物量的流失,并取得了有机负荷46 kg COD/（m3·d）,COD去除率97%以上的处理效果。     

污泥负荷对上流式厌氧污泥床中颗粒污泥快速形成的影响

运行两个相同的升流式厌氧污泥床(UASB)反应器R1和R2,设定两个反应器的初始污泥负荷(MCOD/(MVSS·d))分别为0.12、0.17 kg /(kg·d),并根据COD去除情况逐步地提高污泥负荷水平,在运行过程中控制R2的污泥负荷始终高于R1 37%～40%,以此来研究污泥负荷对颗粒污泥快速形成的影响.实验结果表明,R2内颗粒污泥的形成速率高于R1,其污泥负荷在达到0.29～0.51 kg /(kg·d)时,开始形成大量的厌氧颗粒污泥.最终R2内形成的颗粒污泥粒径为1.00～4.00 mm的占36.1%,并有6.3%的颗粒污泥粒径在4.00 mm以上;而R1中这两个粒径范围的颗粒污泥仅为11.8%和1.2%.同时R2内较大的污泥负荷也使其产生的颗粒污泥具有相对较高的VSS/TSS.最终得出结论,0.29～0.51 kg /(kg·d)的污泥负荷能加速厌氧颗粒污泥的形成过程,而低于这个污泥负荷则不利于颗粒污泥的形成.     

低COD浓度废水启动EGSB反应器

以厌氧活性污泥和好氧活性污泥接种于2个膨胀颗粒污泥床(EGSB)反应器中,进水流量为10 mL/min,回流量为180 mL/min,进水COD浓度在180 mg/L左右,有机负荷率(OLR)为1.728 kg COD/m3·d左右,污泥负荷率(SLR)为0.19 kg COD/kg MLSS·d左右,出水COD浓度维持在40mg/L左右,COD去除率达80%以上.控制温度在32～35 ℃,pH在6.8～7.2,反应器内氧化还原电位在-340 mV以下,水力停留时间(HRT)4.2 h,上升流速4.86 m/h以及加入80 mg/L絮凝剂(硫酸铝钾),缩短了启动时间,促进了颗粒污泥的形成.分别经过60 d和120 d运行,反应器启动成功.结果表明,上升流速、絮凝剂和污泥类型对颗粒污泥的形成有影响;接种好氧活性污泥在低浓度COD下,合理控制负荷速率能成功启动EGSB反应器.     

EGSB反应器处理产氢发酵液

以厌氧颗粒污泥为接种污泥,对厌氧颗粒污泥膨胀床（EGSB）反应器处理产氢发酵液的启动性能进行了研究。结果表明,在温度为（35±1）℃,水力停留时间（HRT）为6h的条件下,逐渐提高进水COD,经过40d连续运行,EGSB反应器启动成功。容积负荷达到14kgCOD／（m3·d）时,COD去除率约为80％,产气量为26．84L／d,甲烷含量为57．9％。     

高温厌氧膨胀颗粒污泥床反应器处理聚氯乙烯离心母液废水启动方法

采用高温厌氧膨胀颗粒污泥床(EGSB)反应器处理低浓度、难降解聚氯乙烯(PVC)离心母液废水,以天津市经济技术开发区污水处理厂序批式活性污泥法(SBR)工艺好氧污泥和生物接触氧化法处理PVC离心母液废水污泥的混合污泥为接种污泥,以葡萄糖模拟废水为基质,不断增加PVC离心母液废水所占比例的方法驯化厌氧微生物,实现了系统的成功启动。系统启动期间,进水有机负荷(以COD计)和水力停留时间分别保持在0.2 kg/(m3.d)和50 h左右,出水COD去除率和pH分别稳定在80%和8.0左右。结果表明,添加共代谢基质能利用基质间的协同作用缓解有毒物质对微生物的毒性作用,显著提高了废水的可生化性。通过采用改变水质、保持稳定负荷实现EGSB反应器处理PVC离心母液废水的成功启动证明,该启动方法具有良好的稳定性和可靠性。     

UASB反应器处理PTA废水的启动及污泥特性分析

采用上流式厌氧污泥床(UASB)反应器,以精对苯二甲酸(PTA)废水为处理对象,研究了中温条件下反应器的启动、颗粒污泥的形态和产甲烷活性及微生物群落结构。实验结果表明:采用逐渐提高进水负荷和减少水力停留时间的运行方法,历时近200 d,可实现UASB反应器的启动。此时,反应器对COD的去除率保持在80%以上,对应的容积负荷也达到4.0 kg·(m~3·d)~(-1)以上。反应器内污泥实现颗粒化,颗粒污泥的体积平均粒径为416.53μm,产甲烷活性为121.2 mL·(g·d)~(-1)(以VSS计)。颗粒污泥表面存在大量菌胶团,杆菌和丝状菌镶嵌其中。菌胶团有助于微生物的聚集,加速污泥颗粒化过程。Syntrophorhabdus是降解PTA废水中苯类污染物的重要微生物,占细菌量的27.4%,而Methanosaeta则是主要的产甲烷菌,占古细菌总量的67.3%。该研究可为UASB处理PTA废水的启动提供依据。     

连续流反应器中培养好氧颗粒污泥的运行效能研究

在连续流完全混合反应器(CSTR)中,采用不同进水方式,以乙酸钠作为碳源配制的人工配水作为原水,对好氧颗粒污泥的运行效能进行了试验研究。研究表明,采用不同进水方式运行的2个反应器在颗粒污泥出现后,运行效能差别不大;好氧颗粒污泥反应器运行高效稳定,在水力停留时间为1.5h、COD容积负荷为1.0kg/(m3·d)的条件下,对COD、TP、NH4+-N和TN的去除率分别为90%、85%、95%和60%,并具有明显的脱氮除磷效果;反应器中存在同步硝化反硝化现象。     

IC厌氧反应器处理垃圾渗滤液

在(35±1)℃条件下,采用IC厌氧反应器对天津大港垃圾焚烧厂垃圾渗滤液进行处理,研究了COD的去除效果、容积负荷、沼气产量和污泥的颗粒化,分析了循环比、上升流速对反应器的影响.结果表明,厌氧反应器经60 d的启动运行后,达到300 m3/d的设计水量,进水容积负荷达到17.7 kg COD/(m3·d),水力停留时间3.7d,COD去除率高于80％,出水挥发酸(VFA)低于l 500 mg/L,平均每去除1 kg COD产沼气0.42 m3,适宜的上升流速和循环比为2.0 ～5.0 m/h、8∶1 ～20∶1.启动结束后,厌氧消化污泥明显出现颗粒化,颗粒污泥的沉降速度达到了67.5 ～ 96.0 m/h,0.3～1.0 mm的颗粒污泥量占有74％.     

Investigation of the characteristics of the reflectivity of clouds

This paper investigates some of the reflectivity characteristics that clouds (when modelled as solid bodies) must exhibit to be compatible with observations that the reflecting surface of a cloud (i) appears almost equally bright across its face, (ii) is brightest when the cloud is opposite to the Sun but decreases in brightness as the cloud moves to other positions and (iii) increases in brightness with increasing optical thickness of the cloud in the observer's line of sight. These observations, respectively, are shown to imply that the peak value of the bidirectional total reflectivity from a cloud surface (i) increases in inverse proportion to the cosine of the angle between the Sun and the normal to the cloud surface, as the incident angle increases, (ii) appears to be directed back in the direction of the incident radiation, and (iii) increases as optical thickness of the cloud in the observer's line of sight increases. The results could have application in many fields (e.g. modelling diffuse radiance distributions for cloudy skies).     

Optimization of Height of Release of Air Pollutants

A number of key projects in the Environmental Protection Agency (EPA) particulate R&;D program having applicability to industry are presented. For electrostatic precipitators (ESP) there is presented the result of work on large diameter discharge electrodes which provide a decrease in penetration of up to a factor of 4 when compared to conventional small diameter electrodes. Also discussed is the multistage ESP which provides a collection efficiency that would require a collecting plate area 4 or 5 times larger with conventional ESP technology. The E-SOX technology makes use of the multistage concept to free up space in the ESP for SO₂ removals of up to 90%. Electrostatically augmented fabric filtration provides a reduction in pressure drop of about 5 0% as compared to conventional fabric filtration. Wind tunnel modeling of windbreaks for material storage piles indicates a potential for providing engineering design data that would allow significant emission reduction caused by wind erosion     

Estimation of uncertainty of sampling for analysis of pesticide residues

Abstract

A computer model was used to take random samples from primary sample populations obtained from field trials to simulate the uncertainty of sampling for residue analysis of plant commodities and soil. The results indicate about 40%, 30% and 20% relative uncertainty when random samples of size 5, 10 and 25 are taken respectively, from a single lot. Therefore the sample size should be the same for establishing and enforcing legal limits.     

扬中生态环境建设的思考与实践

结合扬中生态环境的基本情况和存在的不足，进行了具体分析，对扬中未来生态建设的发展方向提出了建议及实施措施。     

An application of the theory of kinematics of mixing to the study of tropospheric dispersion

The most common technique used for numerical simulations of tracer mixing is that of the numerical solution of the advection–diffusion equation with the unresolved fluxes parameterized using the similarity theory. Despite correct predictions of the overall directions of transport, models based on a numerical solution of the advection–diffusion equation lack sufficient accuracy to correctly reproduce the coupling of mixing with small scale processes which are sensitive to the microstructure of the tracer distribution. The objective of this paper is to revisit the basic formalism employed in numerical models used to investigate atmospheric tracers. The main mathematical method proposed here is the theory of kinematics of mixing which could be applied effectively for simulations of atmospheric transport processes. At the beginning of the paper, we introduce simple mathematical transformations in order to demonstrate how complex topological structures are created by mixing processes. These idealistic flow systems are essential to explain transport properties of much more complex three-dimensional geophysical flows. An example of the application of the kinematics of mixing to the analysis of tracer transport on a planetary scale is presented in the following sections. The complex filamentary structures simulated in the numerical experiment are evaluated using some commonly applied statistical measures in order to compare the results with the data published in the literature. The results of the experiment are also analysed with the help of simple conceptual models of fluid filaments. The microstructure of the tracer distribution introduced in the paper is essential to increase our understanding of atmospheric transport and to develop more realistic parameterizations of small-scale mixing. The presented results could also be used to improve calculations of the coupling between microphysical processes and tracer mixing.     

实验室质量管理体系内部审核的实施

在实施ISO／IEC17025：1999标准《检测和校准实验室能力的通用要求》过程中，通过实验室质量管理体系内部审核的实践与系统分析，识别出内部审核实施阶段的关键环节，提出召开首次会议、收集审核证据、确定审核发现和召开末次会议的技术方法，对提高内部审核的质量和有效性、获得可靠的审核结论具有重要意义。     

次氯酸钠发生器的研制

介绍了电解法生产次氯酸钠的原理 ,并在原有生产工艺的基础上进行了重新设计和对设备的重新选择、改造 ,得出了各个工艺参数的最佳值 ,生产出高品质的次氯酸钠     

Spectrophotometric Determination of Atmospheric Acidity by means of the Displacement of the Equilibrium of Acid-Base Indicators

A method is described for determining acidity by means of the spectrophotometric determination of the displacement of the equilibrium of açid-base indicators. The method is simple, sensitive and free of known interferences. There is no dependence on costly or sophisticated equipment and the results obtained are reliable and reproducible.     

嗜盐菌的特性与高盐废水生物处理的进展

论述了嗜盐菌的形态特征、营养构成、生理特性和嗜盐机理，以及利用其特性在含盐有机废水处理中的应用，综述了国内外生化处理高含盐量有机工业废水的实验研究成果、在实际废水工程中的应用及其发展方向。对嗜盐菌的培养与驯化有一定的参考价值，对含盐废水处理工程的设计与运行有指导意义。