空气湿度对低浓度有机蒸气在活性炭上吸附平衡的影响

采用吸附柱穿透曲线法测定了30℃不同相对湿度（RH）下4种低浓度有机蒸气（VOC）在活性炭上的等温吸附量，结果表明，水蒸汽对VOC吸附平衡的抑制作用。随着RH的增大，VOC浓度的降低而增大，且随着VOC分子极性的增强则有所增大；VOC水蒸汽吸了平衡的抑制作用，随着VOC分子极性的增强是有所减弱，提出一个基于竞争吸附机理的olanyi-Dubi-min方程，解释空气湿度对低浓度VOC在活性炭吸附平衡的影响。     

杭州市城郊土壤重金属含量和形态的研究

研究了杭州市城郊文教居民区、风景旅游区、市郊农业区、市内商业区和市郊工业区等5种土地利用背景下的32个土样中8个重金属元素（Cd、Co、Cr、Cu、Ni、Pb、Zn、Mn）的含量和形态。结果表明，杭州市城郊土壤已受重金属的明显污染，其中以Pb的污染最为严重。污染程度为：市郊工业区＞市内商业区＞风景旅游区＞文教居民区＞市郊农业区。用连续提取方法对重金属分级表明，Cd、Co、Cr和Ni主要以残余态为主，平均占总量的60％以上，而Cu、Pb、Zn和Mn主要以酸可提取态、氧化物结合态和有机结合态存在，有较大的释放潜力和生物有效性。     

铜离子冲击下活性污泥微生物多样性的分子生态学分析

采用基于 16SrDNA序列分析方法 ,在长度多态 (LPM)和 16SrDNA的GC含量二维水平分析了受重金属污染的活性污泥系统内细菌的优势种类和多样性 .设计的PCR引物可以将细菌分为三大类 :即 1)proteobacterialα&δ(变形杆菌α&δ) ,2 )pro teobacterialβ&γ(变形杆菌 β&γ) ,以及 3)flexibacter(屈桡杆菌 )和革兰氏阳性菌 .分析了未受重金属驯化和受重金属驯化的两类活性污泥系统在重金属作用下优势种和多样性的变化 ,结果显示未驯化的活性污泥系统多样性减少但优势种的变化微小 ,而驯化系统优势种有较大的变化 ,但多样性基本不变 .这一结果证实驯化有助于提高微生物对重金属的抗性     

人工智能在金属塑性加工领域中的应用

概述了人工智能及其 2个主要分支 (专家系统和人工神经网络 ) ,讨论了遗传算法与专家系统集成以及神经网络与模糊逻辑、专家系统集成的必要性和集成方法 ,分别介绍了专家系统和人工神经网络在塑性加工领域中的应用现状。     

青藏铁路工程对高原生态环境的影响

分析了青藏铁路工程建设生态环境的特点，探讨了青藏铁路建设对沿线冻融侵蚀、植被、冻土上限、沙漠化以及野生动物的影响，最后提出了铁路建设过程中的一些环境保护意义。     

压缩空气中微量油测定方法的现状与进展

近年来，压缩机制造行业已把压缩空气中微量油浓度作为对压缩机性能评价的一项重要指标。因此，对压缩空气的含油量测定工作越来越得到重视。在制造类企业，压缩空气在生产中有广泛的用途，其对压缩空气的品质有不同的要求。在此介绍了压缩空气中微量油浓度常用的测定方法。包括样品的采集和预处理、标准油的制备以及具体的分析检测手段。     

用生物促生剂修复受污染底泥的试验研究

通过定期向受污染底泥中注入生物促生剂进行底泥修复的试验,监测上覆水体的水质指标,并观察表层底泥微生物的生长情况.试验结果表明,将生物促生剂直接注射到底泥中能很好地刺激底泥中原有异养菌的生长,并对反硫化细菌的生长起抑制作用.在为期60d的试验中,异氧菌数量提高了一个数量级,由105个·g-1(以干泥计)提高到106个·g-1(以干泥计);反硫化细菌数量则大大减少,由试验初始阶段的120000个·g-1(以干泥计)到试验结束后的小于2000个·g-1(以干泥计).但是,上覆水中的氮、磷、CODCr等指标含量较高.     

气动絮凝动力学机理探讨及试验分析

对气动絮凝动力学机理进行进一步探讨,并在设定的絮凝条件下,进行试验室小试,分析气动絮凝对浊度、COD等污染指标的去除效果和提高溶解氧的意义,并简单比较了其气动絮凝与机械絮凝的差异。通过机理探讨和试验效果分析,展望气动絮凝方式进行污水强化一级处理的研究方向。     

Effects of environmental factors on the production and release of matrix-bound phosphine from lake sediments

Effects of pH, temperature, and oxygen on the production and release of phosphine in eutrophic lake sediments were investigated under laboratory tests. Results indicated that the elimination of matrix-bound phosphine was accelerated under initial pH 1 or 12. Phosphine levels could reach maximum under initial pH 10. The contents of phosphine increased with the addition of alkali under pH 4–12. The rates of phosphine production and release from lake sediments varied with temperature. 20°C was the most favorable temperature for the production of matrix-bound phosphine. Oxygen showed little effect on matrix-bound phosphine. Matrix-bound phosphine concentrations in lake sediments were concluded to be dependent on a balance of natural generation and depletion processes. Translated from Acta Scientise Circumstantiae, 2005, 25(5): 681–685 [译自: 环境科学学报]     

Acid resistance of methanogenic bacteria in a two-stage anaerobic process treating high concentration methanol Wastewater

In this study, the two-stage upflow anaerobic sludge blanket (UASB) system and batch experiments were employed to evaluate the performance of anaerobic digestion for the treatment of high concentration methanol wastewater. The acid resistance of granular sludge and methanogenic bacteria and their metabolizing activity were investigated. The results show that the pH of the first UASB changed from 4.9 to 5.8 and 5.5 to 6.2 for the second reactor. Apparently, these were not the advisable pH levels that common methanogenic bacteria could accept. The methanogenic bacteria of the system, viz. Methanosarcina barkeri, had some acid resistance and could still degrade methanol at pH 5.0. If the methanogenic bacteria were trained further, their acid resistance would be improved somewhat. Granular sludge of the system could protect the methanogenic bacteria within its body against the impact of the acidic environment and make them degrade methanol at pH 4.5. The performance of granular sludge was attributed to its structure, bacteria species, and the distribution of bacterium inside the granule. Translated from Acta Scientiae Circumstantiae, 2004, 24(4): 633–636 [译自: 环境科学学报]