水解酸化-两级接触氧化法处理中药废水

采用水解酸化 两级接触氧化法处理中药废水 ,可使出水达到二级排放标准。结合工程实际 ,介绍中药废水处理工程的设计和调试情况。该工艺运行费用低 ,且操作简单 ,易于维护 ,可为类似水质中药厂的污水处理提供参考。     

脱硫石膏对酸化森林土壤短期修复效果的研究

以电厂脱硫石膏为修复剂,选取重庆铁山坪地区典型的酸化森林土壤为修复对象,进行了为期1 a的修复效果研究.对不同土层土壤溶液pH值、主要阴阳离子和重金属浓度的动态变化展开观测,并对土壤和脱硫石膏的重金属含量进行分析,以评价脱硫石膏的修复效果及存在的风险.结果表明,与对照样地相比,修复样地各层土壤溶液Ca2＋和SO24-的浓度随时间依次升高,pH值也略有上升,且年均n（Ca）/n（Al）摩尔比从2.16、1.35和0.88升高到2.58、1.52和1.12.土壤溶液中As、Cu、Cr、Ni和Zn的浓度并未检测到明显上升,只是Cr、Ni和Zn在土壤上层出现了轻微富集.脱硫石膏的处理对酸化土壤起到了改良作用,且未造成土壤溶液重金属浓度明显的升高,但重金属在土壤层的积累会造成潜在的风险,需要进一步开展研究.     

The GANE Roof Project: The impact of reduced N & S deposition and experimental warming in an acid grassland

A field-based system used to quantify the response of acid grassland to reduced atmospheric nitrogen and sulphur deposition, and to investigate the effects of elevated soil temperature on acid grassland development is described. The system is based on 12 retractable roofs, covering undisturbed experimental plots of acid grassland and three controls. Nine roofs are used to exclude natural precipitation and three roofs used to retain emitted IR radiation at night. An irrigation system has been developed to simulate natural precipitation, allowing for the application of specific treatment regimes of ambient, reduced nitrogen and reduced nitrogen/sulphur deposition beneath the nine rain exclusion plots. Plant, soil parameters, leachate chemistry and gaseous fluxes are being monitored and initial results on soil water chemistry are described. Warming appeared to enhance nitrate concentrations in soil water but this was not sustained beyond the first year of treatment. In contrast, the deposition reduction treatments decreased soil water nitrate concentrations within a few weeks of reducing deposition. This was not observed for other solutes such as sulphate or ammonium suggesting a more direct link between deposition of nitrate and leaching losses.     

用水解酸化池-膜生物反应器处理活性艳红X-3B废水

采用水解酸化池-膜生物反应器处理含活性艳红X-3B的模拟废水，研究了水力停留时间（HRT）对水解酸化池废水处理效果的影响，考察了水解酸化池-膜生物反应器对废水的处理效果及膜生物反应器中污泥沉降性能对膜污染的影响。实验结果表明：水解酸化池HRT为16h时，废水的可生化性最好，挥发性脂肪酸质量浓度与COD比值为0．5；HRT为17h时，废水脱色率达69％，而COD的去除率受HRT影响较小；膜生物反应器主要起去除废水中COD的作用；水解酸化池-膜生物反应器处理后废水的脱色率和COD去除率分别为83％和97％；膜生物反应器中活性污泥沉降性能的变化直接影响膜污染的速率。     

热-碱处理污泥与木耳菌糠共发酵产酸性能的研究

为克服单一剩余活性污泥(WAS)发酵产酸效率低的问题和资源化利用废弃木耳菌糠(SMS),本文对热-碱预处理污泥(PWS)和菌糠进行共发酵,研究预处理和菌糠添加对共发酵体系的产酸性能影响.试验基于原料的总固体含量(TS)共设置6个处理,分别为污泥(WAS∶SMS=1∶0)、预处理污泥(PWS∶SMS=1∶0)、菌糠(PW...     

Inhibition character of crotonaldehyde manufacture wastewater on biological acidification

• The inhibition of the main organic pollutions in CMW was demonstrated. • Variations of AK and BK showed a high correlation with the SAA of Ac and n-Bu. • The inhibitory degree was in the order of Ac>n-Bu for individual toxicants. • Biodegradation products of the main toxicants were analyzed. This work aims to investigate the inhibitory effect of crotonaldehyde manufacture wastewater (CMW) on biological acidification. To reveal the inhibitory effect of wastewater to the anaerobic granular sludge (AnGS), variations of the specific acidogenic activity (SAA) and activities of key enzymes were investigated. The results indicated that the dosage of CMW causing a 50% effect concentration (EC₅₀) on the activity of total volatile fatty acids (TVFA) production was 380 mg COD/g VSS. The inhibitory effect of individual toxicants in CMW on the activity of TVFA production were in the order of crotonaldehyde>ethyl sorbate>(E,E)-2,4-hexadienal, and their inhibitory degrees on individual VFA products were acetic acid (Ac)>n-butyric acid (n-Bu), which could correspond to the variations in the activities of acetate kinase (AK) and butyrate kinase (BK). Furthermore, the combined effect of three toxicants on the activity of TVFA production was significantly higher than that of any individual toxicant, and the contribution of the relative toxicity to CMW was 77.27%. Additionally, the biodegradation products of the main toxicants indicated that the removal of crotonaldehyde and (E,E)-2,4-hexadienal was primarily due to the hydrogenation of alkene and aldehyde and the oxidation of aldehyde. Nevertheless, the removal of ethyl sorbate was primarily based on adsorption. In conclusion, biological acidification has a limited ability to treatment CMW, therefore, a further pretreatment technology should be used to remove the main toxicant of wastewater.     

基于高通量测序的微生物强化污泥减量工艺中微生物群落解析

利用高通量测序技术对微生物强化原位污泥减量工艺中微生物群落进行解析.结果表明,外源菌剂的投加改变了活性污泥中微生物群落结构,菌剂的有效成分乳杆菌属和醋酸杆属在强化组中含量显著增加.科水平上的群落多样性分析显示：强化组厌氧区Siompson指数、Shannon指数和Pielou指数均不同程度升高,群落多样性增加.聚类分析显示,微生物群落按时间顺序明显聚为3簇,强化组厌氧区微生物群落随时间发生较大演变.主坐标分析显示,强化组和对照组微生物群落明显聚为2类,其厌氧区群落分别按照不同的方向演变,微生物强化和DO降低的协同作用是强化组群落演变驱动力,DO降低是对照组群落演变驱动力.典范对应分析显示显著影响微生物群落结构的环境因子依次为pH值、水温和DO.     

农业活动干扰下地下水无机碳循环过程研究

为准确识别浅层地下水污染来源及污染过程,选择我国北方某集约化蔬菜种植基地浅层地下水作为研究对象,借助水化学组成、氢氧同位素以及溶解性无机碳(DIC)碳同位素组成,探讨浅层地下水来源以及DIC来源和迁移转化特征.结果表明:浅层地下水阳离子以Ca²⁺和Mg²⁺为主,阴离子以HCO₃^-和SO₄^2-为主,沿地下水流向,水化学类型由HCO₃^?-Ca²⁺-Mg²⁺型转变为HCO₃^--SO₄^2--Mg²⁺-Ca²⁺型;浅层地下水δD组成范围为-69.6‰~-52.7‰,均值为-63.5‰,δ¹⁸O组成范围为-9.29‰~-6.80‰,均值为-8.45‰.大气降水是浅层地下水重要补给来源,靠近河水的浅层地下水还接受地表水的补给;浅层地下水δ¹³C_DIC组成范围为-11.76‰~-5.85‰,均值为-10.43‰.浅层地下水DIC来源包括土壤CO₂、碳酸盐矿物以及有机质分解.河水DIC侧渗对局部浅层地下水DIC碳同位素造成影响,化学肥料引起的酸性物质参与碳酸盐矿物风化作用以及浅层地下水CO₂去气作用对地下水δ¹³C_DIC组成产生影响,在利用DIC碳同位素识别地下水污染来源时需要引起重视.     

模拟氮沉降对土壤酸化及土壤酸缓冲能力的影响

为探讨N沉降对酸雨区森林土壤酸化和土壤酸缓冲能力的影响,于2012年4—12月在重庆缙云山地区选取针阔混交林和常绿阔叶林2种典型林分进行模拟N沉降试验,设N0、N1、N2、N3 4个处理,施N量(模拟N沉降量)分别为0、60、120、240 kg/(hm2·a),每月月初将NH₄NO₃溶液均匀喷洒在所选样方内,8个月后进行取样分析. 结果表明:①不同pH下2种林分土壤的酸缓冲能力存在较大差异,pH越低土壤酸缓冲能力越高. ②2种林分的土壤酸缓冲能力随N沉降量的增加而降低. 在相同的N沉降量下,常绿阔叶林土壤酸缓冲能力略高于针阔混交林. ③N沉降会加快土壤酸化速率. 与N0处理相比,N1、N2、N3处理常绿阔叶林土壤pH分别下降了0.03、0.06、0.16,而针阔混交林则分别下降了0.08、0.10、0.26. ④2种林分土壤中盐基离子含量均随N沉降量的增加而降低,交换性Al3+含量则相反. 与N0处理相比,常绿阔叶林N1、N2、N3处理盐基离子含量分别下降了55.76%、66.00%、70.38%,交换性Al3+含量分别增加了16.03%、21.37%、31.81%;针阔混交林盐基离子含量分别下降了24.12%、43.38%、62.24%,交换性Al3+含量分别增加了19.19%、23.48%、34.85%. 研究表明,氮沉降会降低森林土壤酸缓冲能力,加快酸化速率,并且常绿阔叶林土壤对N沉降的敏感性高于针阔混交林.      

水解酸化法预处理生物制药废水的试验研究

对生物制药废水水解酸化反应器采用接种污泥的方式进行启动,在不断增加进水污染负荷的条件下,40 d 内完成水解酸化反应器的启动。试验研究表明：当水解酸化反应器的水力停留时间为8h 时, COD 去除率可达到34．2％。而且,水中有机氮在水解酸化过程中转化为氨氮,为后续二级生物处理提供了高效去除氨氮的基础。