有机磷阻燃剂生产废水预处理工艺研究

采用液膜萃取—酸析沉降—络合萃取组合工艺对有机磷阻燃剂生产废水进行预处理.最佳工艺条件为:液膜萃取时,液膜油相(表面活性剂与煤油的混合液)与内水相(H2SO4溶液)的体积比2∶1、乳化液膜与废水的体积比1∶8、废水pH 13.0,硫酸体积分数10％、煤油中表面活性剂质量浓度30 g/L、液膜萃取时间 15 min;酸析沉降时,废水pH l.0,酸析沉降时间30 min;络合萃取时,络合萃取剂(烷基叔胺N235与煤油的混合液)中烷基叔胺N235体积分数30％,络合萃取剂与废水的体积比1∶4,废水pH l.0,络合萃取时间30 min.在此最佳处理条件下,废水COD总去除率可达93％,吡啶去除率达99.9％以上,总磷去除率可达97％,BOD5/COD提高至0.32,有利于后续生化处理.     

折线法和滚球法确定避雷针保护范围的安全性分析

概述了如何利用折线法和滚球法确定避雷针保护范围 ,并通过分析对比两者的安全性 ,提出了必须具体问题具体对待才能做到安全防雷     

荧光灯厂醋酸丁酯废气治理

有机废气的化学吸收是使废物重新进入物质循环 ,避免二次污染并产生经济效益的环境工程方法。针对某市荧光灯厂工艺过程 ,分析研究了废气治理的各种方法 ,提出了用氨水吸收醋酸丁酯废气 ,转化生成乙酰胺和丁醇的吸收净化方案 ,并对生成物质进行回收利用     

移动电话的电磁辐射对人体伤害及其预防措施的探讨

随着移动电话的迅速普及 ,由其产生的电磁辐射对人体健康的影响已成为人们关心的热门话题。笔者就移动电话的电磁辐射对人体的伤害及其有关预防措施进行探讨。旨在提醒人们正确使用手机 ,尽量减少手机辐射对人体健康的影响 ,起到宣传教育和指导作用     

自由表面流人工湿地处理超稠油废水

采用自由表面流芦苇湿地处理超稠油废水。当芦苇床的水力负荷为3．33cm/d时,对于年平均进水COD459．16mg/L,石油类27．65mg/L,BOD5 33.52mg/L,TN13.74mg/L的超稠油废水,该系统的出水指标为COD77．21mg/L,石油类1．42mg/L,BOD53.90mg/L,TN1.60mg/L。去除率分别为：COD83．18％,石油类94．86％,BOD588．37％,TN88．36％,pH值由7．87降至7．77。处理后的超稠油废水对土壤的污染并不明显,对芦苇的生长和材质指标几乎没有影响。可见,自由表面流芦苇湿地深度处理超稠油废水的出水水质稳定,耐冲击负荷强,是一种经济有效的超稠油废水处理新方法。     

Thermal and Mechanical Properties of Plastics Molded from Sodium Dodecyl Sulfate-Modified Soy Protein Isolates

Soybean protein is a potential material for manufacturing of biodegradable plastics. The objective of this investigation was to characterize the thermal and mechanical properties of plastics made from sodium dodecyl sulfate (SDS)-modified soy proteins. Soy protein isolate (SPI) was prepared from defatted soy flour, modified with various concentrations of SDS, and then molded into plastics. The temperatures of denaturation of the modified soy protein increased at low SDS concentration and then decreased at high SDS concentration. At the same SDS concentration, the plastics molded from the modified soy proteins showed a similar temperature of denaturation, but a lower enthalpy of denaturation compared to the modified soy protein. Young's modulus of the plastics decreased as SDS concentration increased, and the tensile strength and strain at break of the plastics reached a maximum value at 1% SDS modification. Two glass transition temperatures were identified corresponding to the 7S and 11S globulins in SPI by dynamic mechanical analysis, and they decreased as SDS concentration increased. The SDS modification increased the water absorption of the plastics.     

炼钢炼铁除尘污泥直接应用于烧结配料的实践

介绍了炼钢炼铁除尘污泥直接用于烧结配料的新工艺。     

减速机齿轮表面探伤优化选择

采用模糊集的贴近度计算对齿轮表面探伤方法进行了优化选择,表明旋转磁场探伤是齿轮表面探伤的最佳方法,在实用中检测出大量的正在延伸扩展的表面疲劳裂纹.     

柴达木盆地水资源承载力研究

提出了以期望人口为核心的水资源承载力指标体系,并应用于柴达木盆地水资源承载力的实际研究． 用柴达木盆地水资源承载力系统动力学仿真模型（ＳＤＳＭＷＲＳＣＣＢ）计算了人口等承载力指标的预测值,把期望值和预测值进行了深入分析比较,推断出柴达木盆地水资源承载力．     

Effect of soil crust on evaporation and dew deposition in Mu Us sandy land, China

The development of soil crust on sandy land may affect the surface hydrological process. This paper investigates the process of evaporation and dew deposition influenced by different soil surface types which were dominated by sand, primitive biotic crust, and advanced biotic crust, respectively, in the south fringe of Mu Us sandy land in Northwest China from July to September of 2006. The experimental results indicate that the advanced biotic crust could increase evaporation and dew deposition compared to the primitive biotic crust and bare sand although the differences between them were not significant. The average evaporation from advanced biotic crust, primitive biotic crust and sand was 6.8, 6.6, and 6.5 mm/d, respectively, and water content is around 16.2 % in the condition of initially identical soil. The average dew amount on advanced biotic crust was 0.116 mm/d with extreme 0.05 and 0.24 mm/d. The average values on primitive biotic crust and sand were 0.105 and 0.101 mm/d, respectively, with extreme 0.04 and 0.21 mm/d for both treatments. Also, the dew deposition on advanced biotic crust seemed stable and might rest for a longer time than that on primitive biotic crust and sand. The results suggest that the advanced biotic crust possibly facilitates evaporation and dew deposition. Therefore, the development of biotic crust may potentially enhance the hydrological circulation in the upper sand layer in sandy land.