高浓度有机硅废水生物处理技术研究

对生物接触氧化法用于高浓度有机硅废水的处理进行了试验研究，试验结果表明，ＣＯＤ、ＢＯＤ５去除率分别为７８．２％、９０．６％，达到国家二级排放标准。     

光催化氧化-混凝工艺处理化工废水

探索了光催化氧化－混凝工艺处理废水的工艺条件,最佳光催化氧化处理条件为ＰＨ＝３,催化剂为铁盐,氧化剂Ｈ２Ｏ２,低压汞灯,光照时间１．５ｈ,废水温度４５℃,温凝剂选用ＰＡＣ和ＰＡＭ（混凝剂的投加量为原水ＣＯＤｃｒ：ＰＡＣ：ＰＡＭ＝７：１．５：０．０１）,混凝ＰＨ６,沉降时间０．５ｈ,在该工艺条件对ＣＯＤｃｒ为１７３－７０１４４ｍｇ／Ｌ的十二烷基苯磺酸钠废水、苯酐废水、富马酸废水、邻苯二甲酸二辛酯废水     

毛毯印染废水处理技术研究

本文采用投菌水解（酸化）－－接触氧化法处理毛毯印染废水。试验表明谝工艺流程简单,处理效果好,出水水质稳定。当进水ＣＯＤｃｒ在４８０～７５０ｍｇ／Ｌ范围变化时,出水ＣＯＤｃｒ稳定在１００ｍｇ／Ｌ以下,其中,水争油对色度有较好的去除效果,同时可提高后续接触池的处理效率,而ＣＯＤｃｒ的即除则主要在接触氧化池进行。     

养猪场废水处理工艺研究

采用接触氧化－水解－两段接触氧化－混凝工艺处理高浓度养殖废水,通过试验得到最佳工艺参数,在最佳试验条件下,进水ＣＯＤｃｒ小于５０００ｍｇ／Ｌ,经处理后出水ＣＯＤｃｒ平均去地９７％,ＢＯＤ５去除率大于９８％,氨氮去除率大于９６％,各项主要指标可达污水综合排放标准一级标准。     

加压生物接触氧化法处理增塑剂生产废水试验研究

主要介绍了采用加压生物接触氧化法处理增塑剂废水。在停留时间为２２ｈ，压力为０．４ＭＰａ，水中溶解氧保持５ｍｇ／Ｌ左右时，进水ＣＯＤＣＲ为１１７００ｍｇ／Ｌ，ＢＯＤ５为６８７３ｍｇ／Ｌ，出水ＣＯＤＣｒ去除率为８９％，ＢＯＤ５去除率为９６％。为增塑剂废水治理工程设计提供了重要参数。     

Fe^2＋—H2O2氧化法处理氨基J酸工业废水的研究

用Ｆｅ＾２＋－Ｈ２Ｏ２氧化法处理氨基Ｊ酸工业废水。结果表明,当溶液ｐＨ＝１－３,Ｈ２Ｏ２和Ｆｅ＾２＋用量分别为Ｈ２Ｏ２：Ｆｅ＾２＋１０：１,Ｈ２Ｏ２：ＣＯＤＣｒ＝２ｇ：ｇ时,Ｊ酸废水的ＣＯＤＣｒ去除率达６６．７％,氨基去除率达６８．４％。处理后的废水ＢＯＤ５／ＣＯＤＣｒ＝０．５,已达到生化处理的要求。该法可作为氨基Ｊ酸废水的预处理方法。     

半导体复合体系对表面活性剂及印染废水的光催化降解研究

本文研究了半导体复合光催化体系ＺｎＯ－ＣｕＯ对印染助剂十二烷基苯磺酸钠和平平加Ｏ及实际印染废水的光降解处理。对于ＣＯＤ为８３０ｍｇ／ｌ，色度为３０２７．５的印染废水，经光照４小时，脱色率达１００％，ＣＯＤ去除率达８０％。     

H-酸的催化湿式氧化反应过程研究

湿式氧化（ＷＡＯ）和催化湿式氧化（ＣＷＡＯ）都能有效地处理染料中间体－－Ｈ－酸。所有的Ｈ－酸在５ｍｉｎ内均被支除和形成一些中间产物。在不同反应时间段测定了ｐＨ值及阴、阳离子和小分子有机酸等中间产物。分析表明,ｐＨ值与ＣＯＤ的去除及有机酸的产生有密切的联系,Ｈ－酸被氧化成ＮＨ４＾＋、ＳＯ４＾２－、ＨＣＯＯＨ和ＣＨ２ＣＯＯＨ。ＷＡＯ法的瓜速率慢而且氧化乙酸困难。而ＣＷＡＯ法的反应速率不但快而且能有效地     

半导体复合系光催化降解水溶性染料研究

研究了半导体复合体系ＺｎＯ－ＣｕＯ－Ｈ２Ｏ２－ａｉｒ对水溶性染料活性艳红Ｘ－３Ｂ等六种有机物质的光催化降解处理，得到了较高的脱色效果和ＣＯＤ去除率。讨论了不同染料光解难易的原因以及脱色率和ＣＯＤ去除率的差异。     

接触氧化——混凝沉淀法处理染色废水

进行了生物接触氧化法处理牛仔布染色废水的设计与工程试运转。结果表明，当废水ＣＯＤＣＲ平均浓度为５４６ｍｇ／Ｌ色度为４４８倍时，处理ＣＯＤＣＲ去除率为６８％，色度去除率８６％，出水基本能达到设计要求。     

Fenton-水解酸化-接触氧化处理模拟磷霉素钠制药废水

对模拟磷霉素钠制药废水进行Fenton-水解酸化-接触氧化小试处理实验,考察了COD、有机磷的去除效果,并对处理前后的废水进行了GC-MS分析。结果显示,增加了Fenton预处理后磷霉素钠制药废水的COD和有机磷分别降低到100和2 mg/L,去除率均可达87%以上,出水COD满足化学制药行业污染物排放标准(GB 21904-2008);Fenton过程对制药厂废水中的复杂有机物去除效果明显,GC-MS结果表明,出水中基本检测不到复杂有机物。与制药厂采用的水解酸化-接触氧化处理效果相比,增加Fenton预处理可以提高废水的可生化性和系统的处理效率。     

Analysis of chemical compositions contributable to chemical oxygen demand (COD) of oilfield produced water

This work was to give a comprehensive estimation for the chemical compositions contributable to COD of the produced water treatment system. For this purpose, the wastewater samples were collected from an onshore wastewater treatment plant. The chemical compositions of the wastewater were investigated, and the COD contributed by each component was estimated. The results showed that the COD levels of O&G and SS presented decreasing trends during the whole process and achieved total removal percentages of 95.1% and 62.3%, respectively. The final COD of organic acids and low-molecular-weight carbonyl compounds were respectively lowered to nearly 64% and 35% of their initial levels, and no regular trends were found for the COD of these chemicals during the whole treatment process. The COD of inorganic components presented minor variations at all sampling spots. The majority of COD was originated from O&G in raw wastewater. The COD contributed by O&G decreased greatly with continuous treatment and finally was lower than 17% of measured COD. At each sampling spot, the ratios of COD contributed by SS did not exceed 7.6% of measured COD. Other measured chemicals, including organic acids, carbonyl compounds, volatile phenols, reductive anions, metals and TDP were not the main sources of COD during the whole treatment process, and the ratio of COD was below 9% at each sampling spot. Most of the soluble components contributable to residual COD were still unknown after biological treatment, and the COD contributed by these components was greater than 57% of measured COD.     

O3、H2O2／O3及UV／O3在焦化废水深度处理中的应用

采用O3、H2O2／O3及UV／O3等高级氧化技术（AOPs）对某焦化公司的生化出水进行深度处理，考察了O3与废水的接触时间、溶液pH、反应温度等因素对废水COD去除率的影响，确定出O3氧化反应的最佳工艺参数为：接触时间40min，溶液pH8．5，反应温度25℃，此条件下废水COD及UV254的去除率最高可达47．14％和73．47％；H2O2／O3及UV／O3两种组合工艺对焦化废水COD及UV254的去除率均有一定程度的提高，但H2O2／O3系统的运行效果取决于H2O2的投加量。研究结论表明，单纯采用COD作为评价指标，并不能准确反映出O3系列AOPs对焦化废水中有机污染物的降解作用。     

Chemical oxygen demand reduction of various wastewater types using magnetic field-assisted fenton reaction.

Constant magnetic field (CMF) was investigated for its potential to intensify chemical oxygen demand (COD) removal in wastewater when applied with a generalized Fenton reaction. Various types of industrial and domestic wastewater were tested in the experiment. A significant dependence was observed between the wastewater type, dose of reacting substances, time of exposure to CMF, effectiveness of COD removal, and the rate of the advanced oxidation process. The use of CMF resulted in the improvement of the treatment process; however, the efficiency depended to a great extent on the type of wastewater and characteristics of the contained organic matter. Domestic wastewater seemed to be most amenable to the applied treatment (82% COD reduction). The least reduction in COD occurred for wood industry wastewater. In the analyzed wastewater, intense oxidation was observed during the first 60 minutes of the process. Longer reaction time did not increase COD reduction, with the exception of wood industry wastewater. The experiment revealed the possibility of applying smaller doses of the Fenton's reagent, thereby keeping up unchanged treatment efficiency, provided that CMFs are applied.     

Removal of organic compounds during treating printing and dyeing wastewater of different process units

Wastewater in Shaoxing wastewater treatment plant (SWWTP) is composed of more than 90% dyeing and printing wastewater with high pH and sulfate. Through a combination process of anaerobic acidogenic [hydraulic retention time (HRT) of 15h], aerobic (HRT of 20h) and flocculation-precipitation, the total COD removal efficiency was up to 91%. But COD removal efficiency in anaerobic acidogenic unit was only 4%. As a comparison, the COD removal efficiency was up to 35% in the pilot-scale upflow anaerobic sludge bed (UASB) reactor (HRT of 15h). GC-MS analysis showed that the response abundance of these wastewater samples decreased with their removal of COD. A main component of the raw influent was long-chain n-alkanes. The final effluent of SWWTP had only four types of alkanes. After anaerobic unit at SWWTP, the mass percentage of total alkanes to total organic compounds was slightly decreased while its categories increased. But in the UASB, alkanes categories could be removed by 75%. Caffeine as a chemical marker could be detected only in the effluent of the aerobic process. Quantitative analysis was given. These results demonstrated that GC-MS analysis could provide an insight to the measurement of organic compounds removal.     

超临界水氧化法处理高浓度有机发酵废水

对酒精废水和乙酰螺旋素废水进行了超临界氧化降解的研究,结果表明,超临界水氧化法是处理高浓度有面废水的一种有效方法,在实验的条件范围内,废水ＣＯＤ的去除率最高可达９９．２％。     

臭氧预氧化-BAF工艺深度处理垃圾渗滤液

以广东省江门市垃圾填埋场垃圾渗滤液为研究对象，对经SBR生化处理和聚合硫酸铁混凝后的垃圾渗滤液，采用臭氧-BAF(曝气生物滤池)工艺进行深度处理。该工艺优点在于：臭氧高级氧化技术使大分子有机污染物降解成二氧化碳和水，或者小分子有机污染物，有利于后继BAF的生化处理，且臭氧处理过后废水的色度明显降低，是废水处理的有效方法之一。而后采用曝气生物滤池对垃圾渗滤液进行进一步处理，对COD进一步去除。结果表明，当臭氧的加入量为150 mg/L，BAF停留时间＞4 h，出水COD低于85 mg/L，稳定达到国家GB 16889-1997《生活垃圾填埋污染控制标准》一级排放标准，臭氧氧化法处理每吨垃圾渗滤液的费用为4.8元。     

Pilot-scale study of biomass reduction in wastewater treatment.

Pilot-scale experiments were continuously carried out for more than 9 months to study the excess biomass reduction effect using a biophase-separation bioreactor, which was designed based on food-chain theory. By separating the biophase in the wastewater treatment system, bacteria, protozoa, and metazoa could be separated from each other and dominated in different microbial communities. After degrading organic matter, bacteria were consumed by protozoa or metazoa in the following process in such a reactor. Thus, both chemical oxygen demand (COD) and biomass were reduced. During the process of treating restaurant wastewater, the excess biomass yield in this biophase-separation technique varied from 0.13 to 0.22 kg/kg COD removed, 50% lower than that from the reference system. Apart from low biomass production, this biophase-separation technique can simultaneously achieve a high COD removal efficiency and improve settleability of biosolids at a hydraulic retention time of 6 to 13 hours.     

Treatment for woolscouring effluent through bioacidification by acidithiobacillus thiooxidans

In this study, a promising process called bioacidification was used to remove organic pollutant from Woolscouring Effluent (WSE) by emulsion destabilisation. Chemostat experiments of bioacidification treatment inoculated with Acidithiobacillus thiooxidans were operated at high wastewater recycle ratios to achieve shorter Hydraulic Retention Time (HRT). Results exhibited high COD removal efficiency and gradual decrease in treatment time, and the recycle ratio of 4 was determined as the optimal choice due to the maximal treatment efficiency. After treatment with 36 h HRT, 42.6 g L⁻¹ COD (roughly 92% of total COD) was removed, suggesting that this process could be applied in full scale and incorporated into an overall treatment package.     

不同来源高浓度有机废水的集中处理

按照水质情况,将多种来源于不同工业生产过程中的高浓度有机废水划分为高悬浮固体乳化液废水、难生化高浓度有机废水、高悬浮固体不含油有机废水、含铬有机废水和杂质含量较少的乳化液废水5类,分别采用酸化破乳/Fen-ton氧化/混凝/絮凝、Fenton氧化/混凝/絮凝、混凝/絮凝、还原/混凝/絮凝、震动膜过滤技术作为生化预处理技术,并通过小试和中试验证了各技术的效果。实验结果表明,按照上述分类结果,采用不同预处理技术可以得到良好的效果,废水水质明显改善,满足继续生化处理的基本条件。各预处理生产装置处理效果稳定,同时生化系统已经稳定运行120天以上,COD去除率超过90%,出水经过低剂量的Fenton试剂处理后可达到《污水排入城镇下水道水质标准》(CJ343-2012)。