高效苯降解菌的筛选鉴定及其在生物过滤塔处理苯的填料选择

从污水处理厂曝气池的活性污泥筛选出1株苯的高效降解真菌HD-3,经形态特征、ITS基因序列系统学分析,确定HD-3为杂色曲霉Aspergillus versicolor,该菌株8 d内对初始浓度439.3 mg/L和4 393 mg/L的苯的降解率分别为78.56%和33.96%。当苯的初始浓度为439.3 mg/L,HD-3降解苯的最适温度为30℃,最适pH为4.5。在此基础上,提出了采用不同填料生物过滤塔处理苯废气的工艺,并进行了实验研究,实验结果表明:(1)随着苯的浓度提高,苯的降解率逐渐降低。当苯的浓度为200 mg/m3时,煤质柱状活性炭生物过滤塔、生物陶粒生物过滤塔、竹材生物过滤塔的苯平均去除率(REave)分别为93.63%、93.16%和82.38%;当苯的进口浓度增加到3 000 mg/m3时,3种生物过滤塔的苯平均去除率(REave)分别为78.89%、68.43%和51.87%。(2)不同填料对苯的去除能力不同,煤质柱状活性炭>生物陶粒>竹材。     

中国经济增长与物质消耗关系的实证研究

本文运用广义最小平方法和处理面板数据的固定影响模型,利用我国各省市1995-2009年物质消耗指数、人均GDP和人均固定资产投资等跨部门的时间序列数据,分析经济增长与物质消耗的关系。其主要结论如下:经济增长与物质消耗呈现正向关系,没有表现出明显的去物质化。固定资产投资对物质消耗趋势在统计上具有很好的解释力。固定效应模型下的广义最小二乘法对于处理跨部门的时间序列数据有明显的效果,固定效应模型的省际差异项有效地刻画了物质消耗与经济增长相关关系的省级差异。我国目前仍处于有形资产的积累阶段,为了达到发达国家的固定资产积累水平,必要的基础设施建设不能缺少。产业结构的差异会影响物质消耗与经济增长的关系强度,第一产业相对于第二产业需要更多的物质消耗。经济发展水平同样会影响物质消耗与经济增长的关系强度,发达地区相对于欠发达地区需要的物质消耗更少。     

On "China-measures related to the exportation of various raw materials" case in terms of DSB's interpretations

The Appellate Body report in January 2012 had supported the decision of Panel in the"China-measures related to the exportation of various raw materials"case(WT/DS394,395,398)and affirmed that China's restrictions(such as tariffs and quota measures)on the exportation of raw materials violated rules put forth by the WTO,which were required to be modified.In this case China's right to invoke Article 20 of GATT1994("general exception")to justify its exemption from the guidelines in Article 11.3 of the WTO Accession Protocol was denied by the Panel and the Appellate Body.This was due to the fact that the phrasing in Article 11.3 of Protocol failed to mention"GATT."This was the consequence of the two interpretation approaches the Dispute Settlement Body(DSB)adopted-a narrow textual interpretation and a subjective presumption of"legislative silence."The inappropriate use of the two methods of interpretation lead to an imbalance between the right and obligation of China under the additional obligations that were imposed upon China by the WTO,which create a negative impact on China's rare earth case and the protection of domestic natural resources.     

Exergy efficiency analysis of a refurbished dwelling: a case study in Ljubljana,Slovenia

Buildings contribute almost half of the world's carbon dioxide (CO₂) emissions. Energy and water consumption are some of the largest and fastest growing pressures on the global environment. The use of energy is mainly attributed to the heating and cooling of buildings. The type of materials used in the construction of buildings plays a significant role in the life-cycle emissions of each dwelling. Changing the material use in the construction of an existing building and adding insulation could have a major impact on energy use and the environment of the building in its entire life cycle. This paper investigates the amount of exergy savings and the decrease in CO₂ emissions resulting from the refurbishing of an existing building in Ljubljana. This study results from the growing awareness that in the choice of building materials, the designer must consider not only the requirements of the owner and occupier of the building, but also the resulting energy savings, the resource base and the effects of the manufacturing and processing of building materials on the environment. The exergy efficiency of the material use is calculated and the environmental impact assessment of energy and material use is accounted for.     

Eco-material selection using fuzzy TOPSIS method

In the classical multiple attribute decision-making or MADM methods, the ratings and the weights of the criteria are known precisely. However, in eco-material selection exercises, the available data are typically inadequate because of the selection dual quantitative and qualitative natures. Some of the qualitative selection criteria can be rated in several classes rather being expressed by exact numerical values; hence the application of fuzzy concepts in decision-making seems attractive to deal with such kind of ratings. Thusly, the presented study attempts to propose an eco-material selection approach specific to the automobile body panels using a fuzzy technique for order preference by similarity to ideal solution (TOPSIS), to incorporate both numerical and rating-based criteria into one holistic sustainability model. TOPSIS and fuzzy logic can aid the material selection process in translating the design goals and parameters into usable numbers that in turn can be used to rank candidate materials in their closeness to the ideal solution. An additional uniqueness of this study stems from using the fuzzy-TOPSIS as a scoring tool without any assigned weights for the different selection attributes, in order to avoid the bias that is typically associated with other classical MADM, such as quality function deployment, analytical hierarchy process and digital logic.     

纳米TiO2/硅藻土光催化降解废水中二甲胺

通过凝胶-溶胶法制备纳米TiO2/硅藻土复合催化剂,对常见工业难降解有机污染物二甲胺(DMA)进行了降解实验.采用扫描电镜和X射线衍射技术对催化剂能进行了表征,考察了废水初始浓度、pH、催化剂用量、外加氧化剂对DMA光催化降解效果的影响,进行了降解动力学和降解机理的分析.结果表明,所制催化剂为锐钛矿和金红石混合晶型,均达纳米级,对中低浓度(≤400 mg/L)DMA废水具有良好的降解效果.常温常压、18W紫外汞灯下,3 g/L TiO2/硅藻土对DMA废水(400 mg/L)降解率可达70％以上;其降解反应符合Langmuir-Hinshelwood动力学模型;其可能的降解途径为:二甲胺(DMA)→甲胺(MA)→CO2/CO32-、H2O和NH4+.     

S-K型管式混合器-微絮凝高速过滤的实验研究简

基于2种传统管式混合器的特点,研究了苏尔士-凯尼斯（S-K）新型组合管式混合器在预氧化-微絮凝高速过滤技术中的应用,对苏尔士（Sulzer）管式混合器、凯尼斯（Kenics）管式混合器及S-K型管式混合器高速过滤出水水质进行了对比分析,结果表明,S-K型微絮凝方式对浊度、COD及TP的平均去除率比其他2种混合器混合方式的去除效果提高了5%~10%,分别为80.3%、64.76%和51.15%。S-K型混合器过滤形成的絮体能够充分利用深层滤料,延长过滤周期。     

蓄热式高温带压蒸汽发生器设计

介绍了自制蓄热式高温带压蒸汽发生器的工作原理及运行过程,对炉体结构进行了设计计算,设计并计算了保温层的厚度,通过部分热态实验,验证了高温带压蒸汽发生器设计的合理性和系统运行的可靠性。试验结果表明,经过高温带压蒸汽发生器蓄热室的换热,可以生产出压力在0.2～0.4 MPa、温度在650℃以上的高温过热水蒸气。从而说明系统的整体设计能满足要求。     

复合加筋排水褥垫软土路堤排水设计方法

复合加筋排水褥垫是针对沿海缺砂地区开发的一项可取代水平排水砂垫层、具有水平排水与加筋作用的新型专利技术。本文介绍了复合加筋排水褥垫的性能指标,给出了复合加筋排水褥垫软土路堤排水设计方法,并将复合加筋排水褥垫与水平排水砂垫层的排水性能进行了对比分析。算例结果表明,复合加筋排水褥垫能满足软土路堤排水要求,其排水性能要明显优越于水平排水砂垫层。     

不同吊顶材料对燃烧室内和狭长走廊中烟气危害性的影响

选取建筑用材中几种常用的吊顶材料,研究火源以及火势迁移等因素对狭长走廊中烟气危害性的影响.试验在小尺寸实验台上进行,研究了采用不同吊顶材料时燃烧室和走廊中烟气的体积分数峰值、峰宽时间及到达峰值的时间,揭示了烟气的危害程度.试验表明,不同吊顶材料对火灾中烟气的危害性有明显影响.复合板吊顶材料能够显著增加烟气体积分数峰值并缩短到达峰值的时间,其烟气体积分数峰值约为单纯钢板吊顶情况下的两倍.PVC吊顶材料在同样火灾载荷下的塌落倾向最明显.