Seed yeast cultivation for salad oil manufacturing wastewater treatment

The mixture of five yeast strains obtained from soil could remove about 85% TOC of oil-rich wastewater in batch test.While the highest MLSS was obtained at an N:C of 1:5,the oil removal decreased with the increase of N:C during yeast sludge cultivation.Ammonium chloride was the best nitrogen source for yeast cultivation from the viewpoint of yeast growth and oil utilizxation.An ammonia concentration of over 1300 mg/L led to mass death of yeast at a pH of 5.The ammonia concentration should be controlled at a level of 1000 mg/L or lower.     

焦化厂工业废水制备水煤浆的研究

研究了用焦化厂三种工业废水制备水煤浆并与自业水制备的水煤浆的性能进行了比较，结果表明，用三种工业废水可以制备出性能较好的水煤浆，而且，某些废水制出的水煤浆在性能上，特别是稳定性上好于用自来水制出的水煤浆。     

上海生活垃圾资源化产业的发展探讨

概述了国内外生活垃圾资源化利用的现状，对上海生活垃圾资源化利用状况和问题作了分析，探讨了垃圾资源化利用的价值和实现途径，提出了促进上海生活垃圾资源化产业发展的几点建设。     

甲硫醚废气制取二甲基亚砜技术研究

选择双氧水作氧化剂，将具有恶臭气味的涕灭威生产的副产物甲硫醚氧化成无臭的二甲基亚砜。通过实验，优化了工艺条件，减少了安全隐患，提高了二甲基亚砜的产率，消除了恶臭污染。     

复配絮凝剂的筛选及其在炼油污泥中的应用

通过试验筛选出对炼油污泥处理效果好的复配絮凝剂。试验和现场应用结果表明：使用有机高分子絮凝剂(PAM)分别和无机高分子絮凝剂(PAC)复配处理炼油污泥比单独使用任何一种絮凝剂的处理效果更好，复配絮凝剂具有适应性广、投加量少、浮渣少等优点，处理后的污水可以达到排放标准。     

活性炭性质对其吸附水中硝基苯性能的影响

通过对活性炭进行HNO3氧化及热处理改性,研究了活性炭性质对其吸附硝基苯性能的影响.以低温液氮(N2/77 K)吸附测定活性炭的比表面积和孔容、孔径分布;以Boehm滴定、零电荷点pHPZC的测定及元素分析定量表征活性发表面含氧官能团变化.结果表明:经改性后,活性炭比表面积及总孔容略有减小,表面性质发生较大变化.改性活性炭对硝基苯的吸附容量明显改变,吸附容量大小依次为:AC1′＞AC0′＞AC0＞AC1.经硝酸氧化后,比表面积下降、存在过多表面含氧官能团是导致AC1吸附硝基苯能力降低的主要原因;而AC1'表面适量酚羟基所提供的氢键吸附是其对硝基苯吸附量增加的主要原因.     

循环式活性污泥法处理污水工艺研究

循环式活性污泥法是通过厌氧装置培养优化的活性污泥,然后在曝气池中进行同步的硝化反硝化过程,从而达到脱氮除磷的效果。     

Toxic metals in sewage sludge-amended soils: has promotion of beneficial use discounted the risks?

Land application of contaminated waste products has been defended as beneficial use by some scientists and regulators, based on the premise that the behavior of any toxins accumulated in soils from this practice is reasonably well understood and will not have detrimental agronomic or environmental impacts into the foreseeable future. In this review, I use the case of toxic metals in sewage sludges applied to agricultural land to illustrate that metal behavior in soils and plant uptake is difficult to generalize because it is strongly dependent on the nature of the metal, sludge, soil properties and crop. Nevertheless, permitted agricultural loadings of toxic metals from sewage sludges are typically regulated using the sole criterion of total metal loading or concentrations in soils. Several critical generalizing assumptions about the behavior of sludge-borne metals in soil-crop systems, built into the US EPA risk assessment for metals, have tended to underestimate risks and are shown not to be well justified by published research. It is argued that, in the absence of a basic understanding of metal behavior in each specific situation, a more precautionary approach to toxic metal additions to soils is warranted.     

机械强化污泥回流式一体化活性污泥法的运行机理研究

活性污泥通过机械搅拌强化污泥内循环回流,提高了污泥的活性,并且使污泥浓度可达到4.5kg/m3,用该机械强化污泥回流式一体化活性污泥法处理小区生活污水,当水力停留时间为3h,溶解氧为2.2mg/L,机械搅拌速度为250r/min时,CODcr、氨氮去除率均可达到83% 以上,出水达到国家污水排放一级标准.该一体化活性污泥法简单易行,运行成本低,投资小,操作维护方便,是生活小区生活污水适宜的处理工艺技术.     

废旧电子材料回收利用现状及发展展望

随着科学技术的进步，各类电子产品已经成为人们生活中不可缺少的组成部分，而其发展和普及的背后，我们将面临越来越多淘汰的废旧电子产品对环境带来的压力。与此同时，各类资源的短缺也需要从这些富含众多金属元素的废旧电子材料中找出解决办法。从废旧电子材料回收的紧迫性和必要性出发，分别介绍了目前国内外回收技术的现状及发展方向，并介绍了模型在回收技术发展和实际应用中可以起到的辅助作用。