灾害条件下多层次应急疏散模型的构建方法研究

人们每天都要面对各种造成严重财产和人身安全损失的重大灾害,如何建立灾害条件下中国人口高密度大范围的应急疏散模型,具有重大的意义。该文基于我国灾害条件下高密度人口的集体疏散模式,按照灾害区域的具体情况和人口分布,以道路实时速度和路面损毁程度所决定的道路阻抗性作为评判道路疏散能力的依据,构建从危险区域的多集结点到安全区域的多安置点的多层次应急疏散模型,确定集体疏散人员的疏散路径、人数和车辆,实现在最短的时间内的受灾群众整体最优疏散,并以山东省德州发生地震作为实验区,采用Google Map API和C#搭建多层次应急疏散平台,验证了多层次应急疏散模型的可行性。     

不同细菌分泌物及其反渗透膜污堵特性比较

反渗透(RO)工艺在城市污水再生处理中的应用越来越多,但膜污堵严重影响了该工艺的稳定运行.溶解性微生物产物(SMP)是造成RO膜污堵的最主要的有机物.本文以再生水厂RO膜面分离的两种细菌Pseudomonas sp. AM1-1和Chromobacterium sp.AM1-2的SMP为研究对象,比较了两者SMP的组成成分及其对RO膜的污堵能力.结果发现,在葡萄糖培养基中培养至稳定期后,两者产生的SMP中多糖与蛋白质比例均约为1∶1,AM1-1的SMP中多糖和蛋白质均呈双峰式分布,分布于大于10~5Da和小于10~3Da两个范围;AM1-2的SMP中,多糖分子量呈双峰式分布,主要分布于大于10~6Da的范围,有少量小于10~3Da,蛋白质分子量小于10~3Da.通过RO错流过滤污堵实验装置考察了两种SMP对RO膜的污堵特性,发现SMP中大分子有机物的分子量与SMP的膜污堵潜力密切相关,有机物分子量越大,SMP的膜污堵潜力越高,而多糖和蛋白质的比例并不是决定SMP膜污堵潜力的关键.因此,减少SMP中的大分子量物质(特别是大分子多糖)在RO膜表面的沉积,是缓解SMP造成的RO膜污堵的关键.     

Ozonation as an efficient pretreatment method to alleviate reverse osmosis membrane fouling caused by complexes of humic acid and calcium ion

Humic acids (HA) didn’t cause obvious reverse osmosis (RO) membrane fouling in 45 h. Osmotic pressure (NaCl) affected slightly the RO membrane fouling behavior of HA. Ca²⁺ promoted aggregation of HA molecules and thus aggravated RO membrane fouling. Ozonation eliminated the effect of Ca²⁺ on the RO membrane fouling behavior of HA. The change of the structure of HA was related to its membrane fouling behavior. Humic acid has been considered as one of the most significant sources in feed water causing organic fouling of reverse osmosis (RO) membranes, but the relationship between the fouling behavior of humic acid and the change of its molecular structure has not been well developed yet. In this study, the RO membrane fouling behavior of humic acid was studied systematically with ozonation as a pretreatment method to control RO membrane fouling. Furthermore, the effect of ozone on the structure of humic acid was also explored to reveal the mechanisms. Humic acid alone (10–90 mg/L, in deionized water) was found not to cause obvious RO membrane fouling in 45-h operation. However, the presence of Ca²⁺ aggravated significantly the RO membrane fouling caused by humic acid, with significant flux reduction and denser fouling layer on RO membrane, as it was observed by scanning electron microscope (SEM) and atomic force microscope (AFM). However, after the pretreatment by ozone, the influence of Ca²⁺ was almost eliminated. Further analysis revealed that the addition of Ca²⁺ increased the particle size of humic acid solution significantly, while ozonation reduced the SUVA₂₅₄, particle size and molecular weight of the complexes of humic acid and Ca²⁺ (HA-Ca²⁺ complexes). According to these results and literature, the bridge effect of Ca²⁺ aggregating humic acid molecules and the cleavage effect of ozone breaking HA-Ca²⁺ complexes were summarized. The change of the structure of humic acid under the effect of Ca²⁺ and ozone is closely related to the change of its membrane fouling behavior.     

Study on mechanical properties and microstructure of recycled fine aggregate concrete modified by Nano-SiO2

Journal of Material Cycles and Waste Management - In this study, the effects of different contents of Nano-SiO2 (NS) on a slump, compressive strength, splitting tensile strength, flexural strength,...