滤膜法测定空气中氟化物的改进

测定环境空气中微量氟的方法一般采用滤膜法，但此法工作量大，针对这种情况，本文作两点改进：一是将采集的两张滤膜同时测定；二是将测定过程中的搅拌时间缩短，这样不影响测定结果的准确性，而且降低了工作量。     

Modification of the biochemical pathways of plants induced by ozone: what are the varied routes to change?

When plants are observed under a low dose of ozone, some physiological and metabolic shifts occur. Barring extreme injury such as tissue damage or stomata closure, most of these disruptive changes are likely to have been initiated at the level of gene expression. The belief is oxidative products formed in ozone exposed leaves, e.g. hydrogen peroxide, are responsible for much of the biochemical adjustments. The first line of defense is a range of antioxidants, such as ascorbate and glutathione, but if this defense is overwhelmed, subsequent actions occur, similar to systemic acquired resistance or general wounding. Yet there are seemingly unrelated metabolic responses which are also triggered, such as early senescence. We discuss here the current understanding of gene control and signal transduction/control in order to increase our comprehension of how ozone alters the basic metabolism of plants and how plants counteract or cope with ozone.     

MBR处理工艺的发展与应用

MBR处理技术目前发展的新工艺有：改良式序列间歇反应器（MSBR）、MBR与氧化沟结合工艺、MBR与高效生物反应器相结合（MHCR）等。MBR技术推广应用的关键是解决膜污染问题和降低膜成本。MBR技术已经在水处理领域应用,和常规水处理工艺相比,MBR工艺具有处理效果好、出水水质稳定,设备简单、占地空间省等优势,对于发展城市污水回用具有重要意义。     

Inorganic nitrogen removal of toilet wastewater with an airlift external circulation membrane bioreactor

Removal of inorganic nitrogen (inorganic-N) from toilet wastewater, using a pilot-scale airlift external circulation membrane bioreactor (AEC-MBR) was studied. The results showed that the use of AEC-MBR with limited addition of alkaline reagents and volumetric loading rates of inorganic-N of 0.19-0.40 kg inorganic-N/(m3·d) helped achieve the desired nitrification and denitrification. Furthermore, the effects of pH and dissolved oxygen (DO) on inorganic-N removal were examined. Under the condition of MLSS at 1.56-2.35 g/L, BOD5/ammonia nitrogen (NH/-N) at 1.0, pH at 7.0-7.5, and DO at 1.0-2.0 mg/L, the removal efficiencies of NH4 -N and inorganic-N were 91.5% and 70.0%, respectively, in the AEC-MBR. The cost of addition of alkaline reagent was approximately 0.5-1.5 RMB yuan/m3, and the energy consumption was approximately 0.72 kWh/m3 at the flux of 8 L/(m2·h).     

膜电极法与碘量法测定长江水溶解氧的对比试验

本文对溶解氧的测定，用膜电极法和碘量法两种方法同时进行了对比测定，结果表明，两种方法的精密度基本一致．     

粉煤灰、炉渣提高生物反应器垃圾处理性能研究

通过粉煤灰、炉渣和生活垃圾共置处理,研究粉煤灰、炉渣提高生物反应器垃圾处理性能的机理和效果。结果表明:粉煤灰、炉渣可以有效去除重金属离子,调节反应器内pH,使渗滤液停留时间延长4倍～5倍,产气量提高5.9倍～7.8倍,甲烷含量可提高2倍以上,共置处理效果显著好于生活垃圾单一处理。     

蠕虫在膜生物反应器和活性污泥法中的污泥减量研究

通过长达345d的中试规模试验,研究比较了蠕虫在膜生物反应器(MBR)和活性污泥法(CAS)的生长状况及其导致的污泥减量效果.CAS中的蠕虫生长状况明显优于MBR的蠕虫生长状况.MBR曝气池中平均蠕虫密度(10条·mg-1)远低于CAS曝气池中平均蠕虫密度(71条·mg-1),并且CAS中蠕虫连续保持高密度(>30条·mg-1)生长达172d.CAS中红斑瓢体虫和仙女虫交替成为优势蠕虫.蠕虫生长对MBR的污泥产率(0 40kg·kg-1)和污泥沉降性能(污泥沉降指数133mL·g-1)影响很小,但却能显著减少CAS的污泥产率(0 17kg·kg-1)和改善污泥沉降性能(污泥沉降指数为60mL·g-1).仙女虫比红斑瓢体虫能更大地减少污泥产量和更好地改善污泥沉降性能.蠕虫生长不影响MBR的COD去除率和出水水质,但却显著影响CAS的COD去除率和出水水质.     

膜生物反应器运行中的膜污染问题

这了各国研究者针对膜生物反应器中的膜污染问题所作的工作，认为膜本身的性质以及废水组成和工艺条件都是造成膜污染的主要原因，利用反冲洗和清洗手段，可以有效地改善膜的性能，以提高膜的寿命，膜生物反应器技术的改进是避免膜污染的新思路。     

两相厌氧膜-生物系统处理造纸废水

采用传统两相厌氧工艺 ( BS)与膜分离技术相结合的系统 ( MBS)处理造纸黑液配制废水 .结果表明 :系统 COD去除率可以达到 73.1 % ,高于 BS系统 ( 4 8.6% ) ,且在厌氧污泥活性及运行稳定性方面优于 BS系统 ;在 COD负荷为 6kg·( m³·d)^-1时MBS酸化率为 20.1 % ,酸化水平为 7.5% ,略优于 BS系统 (分别为 7.0 %和 5.0 % ) .探讨了其原因及 MBS系统引入膜的作用 ,并对系统的评价体系进行了初步讨论 .     

具有自由端的梳状中空纤维膜-生物反应器中的膜污染控制研究

采用具有自由端的梳状中空纤维膜-生物反应器处理污水,考察了其膜污染控制性能.结果发现,如果将膜污染定义为恒压操作下的膜通量下降,膜组件b比膜组件a易获得更大的膜通量,具有更优异的抗污染效果.含膜组件b的MBR在温度为22～26℃,污泥浓度为7 500～10 500 　mg/Ｌ,曝气量为200 Ｌ/h,抽停时间比为9 min/1 min,压力为0.02 MPa的条件下连续运行47 d,膜通量维持在4.0～8.0 　L·(m²·h)^-1,其间不需要任何水力或化学清洗.由于这种膜组件易充分发挥曝气的作用,不易污染,因而所需曝气量较小,并且当抽停时间比从12 min/1 min变化到6 min/1 min,膜通量差别不大.对膜的清洗试验表明,水力清洗＋化学清洗＋乙醇浸泡是最有效的清洗方法.水力清洗+化学清洗后,较之水力清洗,中空纤维膜表面上的胶团数目和面积大大减少,膜孔变得更加清晰.