阿海水电站新源沟砂石加工废水处理工艺浅谈

新源沟砂石加工系统生产废水SS浓度高,采用水力旋流/加药絮凝/多级沉淀工艺处理,运行结果表明,处理出水水质满足《污水综合排放标准》（GB8978-1996）一级标准中的给定限值70mg/L,达标出水全部回用。     

油气田废水污泥脱水处理工艺流程优化研究

油气田开发产生的污泥来源于油气田生产废水产生过程,具有干化周期长、含水率高、体积大、堆放、运输困难等特点。因此有必要对污泥脱水的工艺流程优化进行研究,提高污泥脱水效率,缩短污泥干化周期,为后续运输和处理创造必要的条件。本文选取实例,通过对污泥特性、污泥脱水剂优化选择试验和污泥脱水性能试验,提出了油气田废水污泥脱水处理工艺流程优化方案。     

氧化铝行业水污染控制措施探讨

根据氧化铝行业生产用水及排污特点,结合某氧化铝生产企业生产废水的处理实践,推荐采用逆向洗涤赤泥和氢氧化铝,节约用水量;综合利用赤泥洗液和含碱废水;对生产用水设置循环水系统和二次利用水系统;设置生产废水处理站,氧化铝系统和热电厂的生产系统排水、循环水系统的排污水,以及化验等废水全部排入生产废水处理站处理,废水经处理后作为二次利用供水返回生产系统使用,通过综合利用生产废水,可以实现厂区废水的零排放,节约资源的同时,提高清洁生产水平,避免对环境造成污染。     

维生素C生产废水处理技术的研究进展

根据维生素C(VC)生产废水的成分复杂、浓度高等特点,介绍了目前国内外处理该类生产废水技术的研究进展,分析了利用好氧、厌氧和高级氧化技术处理VC生产废水的优缺点,并对VC生产废水的处理技术进行了展望。     

水泥工业生产废水治理及回用技术探讨

本文通过具体工程实例对水泥生产废水处理回用工程可行性、经济性等进行探讨,并提出切实可行的工艺流程,即：无机混凝剂（PAC）＋高分子助凝剂（PHM）的混凝沉淀处理工艺。     

水解酸化与生物接触氧化法的应用

本文介绍了生物接触氧化工艺对伞布印染废水在混入了少量的拉链厂生产废水以及毛线印染废水后的综合处理问题。在运行过程中，应根据实际情况选取合适的运行参数来解决运行中遇到的问题，以保证处理出水的顺利达标。     

印制线路板生产废水处理最佳可行技术评估

结合《国家环境技术管理体系规划》及行业污染防治最佳可行技术的定义,分析了印制线路板生产废水处理常用技术的优缺点及适用性;探讨了印制线路板生产废水处理最佳可行技术研究的思路,并给出了印制线路板生产废水处理最佳可行技术评估筛选的原则、评估指标体系及评估过程应考虑的问题。     

长庆油田采出水处理系统污泥收集及处理

分析长庆油田采出水系统内污泥处理现状,介绍负压排泥和撬装离心脱水组合技术处理污泥的原理、流程及运行情况。该工艺流程在密闭状态下运行,占地少,污泥脱水率稳定,为油田采出水系统污泥处理技术发展和推广应用做了新的尝试。     

味精生产废水处理技术研究进展

简要介绍味精生产废水的来源、特点及其治理中存在的主要问题，阐述味精生产废水处理方法，并对各类方法的应用现状及发展方向进行了分析和评价，得出应从清洁生产工艺出发，利用多种方法，协同处理该类废水的结论。     

蒸发工艺在棉浆粕黑液处理中的应用

本文将制浆造纸行业中成熟的黑液蒸发浓缩污染防治技术,应用到棉浆粕黑液的处理中,将高浓度COD的黑液转变成固态的碱木质素,在末端治理的前端解决了高浓度COD的污染问题,降低了中段废水COD负荷,减轻了处理难度,是棉浆粕生产废水《污水综合排放标准》(GB8978-1996)一级达标的有效保证,是棉浆粕行业污染防治的最佳可行实用技术。     

ABR+活性污泥法在番茄废水中的应用

以奇台太极华力食品有限公司番茄废水处理工程实例为依据,介绍了采用ABR厌氧+完全混合活性污泥法工艺在处理番茄加工废水的设计、调试及运行情况。经过2年运行,其进水COD在700~1 500mg/L之间,最大处理水量达到4 000m3/d;出水COD在40~70mg/L之间,COD去除率达到97%。处理出水可以稳定达到污水综合排放二级标准。ABR+完全混合活性污泥法工艺具有启动快,调试时间短,工程造价低的优点,尤其适宜处理番茄等间歇时间长工作时间短的季节性生产污水。     

The Effect of Estrogens,River Water,and Treated Wastewater on Vitellogenin Induction of Japanese Medaka1

Abstract: The objective of this study is to evaluate the effect of estrogens on fish endocrine disruption in river water and treated wastewater. Endogenous estrogen estrone (E1), 17β‐estradiol (E2), river water, and treated wastewater were used for exposure tests on male Japanese medaka. Vitellogenin induction in male medaka was regarded as the endpoint of endocrine disruption. The effective concentrations of E1 and E2 on vitellogenin induction in medaka were evaluated by breeding medaka for 14 days in tanks with various concentrations of E1 or E2. Vitellogenin induction increased with elapse of time during exposure, with higher estrogen concentrations causing greater vitellogenin induction. According to the test results, the lowest observed effect concentrations (LOECs) of E1 and E2 were estimated to be 31.6 and 5.0 ng/l, respectively; and the E2 equivalent (EEQ) LOEC value of E1 was 5.2 ng‐E2/l, derived by multiplying the relative potency of E1 by that of E2 as estimated in this study. In continuous exposure tests using river water or treated wastewater, the estrogenic activity, an index of total estrogenic potential measured by yeast screen assay and expressed as EEQ, varied widely during the exposure tests, and significant vitellogenin induction was observed after several days of high levels of estrogenic activity in water. Vitellogenin concentration tended to significantly increase if EEQ exceeded the level of 5 ng‐E2/l. The threshold value was substantially the same as the results for E1 and E2 exposure tests of medaka. Consequently, EEQ over 5 ng‐E2/l was revealed to have the potential to cause endocrine disruption of male medaka. As estrogenic activity exceeding 5 ng‐E2/l was observed in some rivers in Japan, total estrogenic potential needs to be further decreased at wastewater treatment plants to prevent fish endocrine disruption.     

大庆石化公司化工三厂中水回用探讨

中水回用是企业普遍采用的节水减排方式之一。大庆石化公司化工三厂中水回用装置采用目前国内较为先进的工艺,中水主要经过曝气生物滤池、水处理生化系统、臭氧尾气回收处理——预臭氧化系统、二氧化氯发生系统等单元的处理得以回用。装置投用后满负荷生产每年可减排污水约80多万吨,减排COD约80t。文章针对存在的问题进行了分析并提出了对策措施。     

电脱盐废水处理技术现状

近几年,随着原料油的劣质化、重质化、乳化严重,造成电脱盐装置在运行过程中乳化困难,从而导致原油电脱盐脱水合格率低。文章介绍了石油炼制企业电脱盐废水的概况和水质特点,针对原油性质恶化、原油预沉降处理时间不够和石油炼制工艺差异三个因素,分析了其对电脱盐废水的盐含量、金属离子含量、酸值、胶质沥青质含量、乳化程度等水质水量特征的影响。介绍了目前电脱盐废水处理技术的进展,结合几个典型炼化企业电脱盐废水处理工艺应用现状,展望了电脱盐废水处理技术的发展趋势。     

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.     

内循环三相生物流化床处理生活污水的试验研究

对内循环三相生物流化床处理生活污水进行了试验研究,探讨了生物膜的形成和水力停留时间及曝气量对处理效果的影响。结果表明：在HRT为6h,曝气量为0.6m3/h,进水COD和NH4＋-N分别为240.2~298.7mg/L和29.1~68.9mg/L条件下,平均COD去除率为83%,NH4＋-N去除率为95.1%。     

含油污泥无害化处理及综合利用的途径

原油脱水以及油田和炼油厂的污水处理系统会排出大量的含油污泥,从环境保护角度出发,必须进行无害化处理或综合利用。处理含油污泥的方法很多,有固化处理法、土地耕作法、回收污油法、固液分离处理及综合利用等方法。较为详细地叙述了各种方法的原理、特点及适用情况等,这些方法各有利弊。今后还应进一步加强含油污泥性质与特征的基础性研究,积极寻求多种利用途径,彻底解决含油污泥污染问题     

精制棉蒸煮清洗废水处理工程实践

精制棉蒸煮清洗废水（黑液）色度高,成分复杂,属于难处理高浓度有机废水。采用“物化-生化”工艺对其进行处理,BOD、COD、色度、SS去除率分别为95．42％、96．58％、98．25％、70．00％,工程运行稳定,处理费用约为1．93元/m^3。     

Occurrence of Primidone,Carbamazepine, Caffeine,and Precursors for N‐Nitrosodimethylamine in Drinking Water Sources Impacted by Wastewater1

Abstract: Wastewater impact on drinking water sources was assessed using several approaches, including analysis of three pharmaceuticals and personal care products (PPCPs) – primidone, carbamazepine, and caffeine – as indicators, and determination of precursor concentrations for the disinfection byproduct N‐nitrosodimethylamine (NDMA) using formation potential (FP) tests. Samples were collected in 2006 and 2007 in rivers impacted by wastewater treatment plant (WWTP) discharges, at drinking water treatment plant (DWTP) intakes upstream or downstream from these discharges, and from two WWTP effluents in two watersheds. The levels [10th percentile ? maximum (median)] of primidone, carbamazepine, caffeine, and NDMAFP were 2‐95 (7) ng/l, 2‐207 (18) ng/l, 7‐687 (78) ng/l, and 12‐321 (35) ng/l, respectively. The highest concentrations of primidone, carbamazepine, and NDMA precursors were from one of the WWTP effluents, whereas the highest concentration of caffeine was detected in a river heavily impacted by treated wastewater discharges. The lowest concentrations of the three PPCPs were from a DWTP influent upstream of a metropolitan urban area with minimum wastewater impact. Temporal variations in PPCP and NDMAFP concentrations and streamflows in two selected watersheds were also observed. Furthermore, correlation analysis between caffeine or carbamazepine and primidone was evaluated. The results show that measurement of the two pharmaceuticals and NDMAFP tests can be used to evaluate wastewater impact in different watersheds, whereas caffeine results were more variable.     

“混凝沉淀+纳米零价铁”处理印刷电路板生产废水中试研究

提出一种新纳米零价铁反应器(Nanoscale Zero-Valent Iron Reactor,简称NIR)及"混凝沉淀+纳米零价铁"处理工艺,通过实际生产废水进行中试,考察和研究该工艺和NIR技术处理江苏省某市印刷电路板(Printed Circuit Board,简称PCB)工业园区废水的效果。结果表明,此工艺对PCB生产废水中Cu、TP及COD Cr去除率分别可达到97.3%、73.7%、26%,其中Cu处理效果最佳;XRD结果表明,纳米零价铁(Nanoscale Zero-Valent Iron,nZVI)与PCB生产废水反应后含有γ-Fe2O3、Fe3O4、γ-FeOOH、CuO、Cu2O、Cu0等产物。"混凝沉淀+纳米零价铁"工艺处理废水时具有处理效果好、工艺耐冲击性能好、产泥量小、不易造成二次污染等优点。