南水北调丹江口库区土壤中微塑料分布特征及风险评估

为探究丹江口库区土壤中微塑料赋存特征及影响因素,通过对果园、旱地、水田和湿地进行土壤样品采集,利用密度分选、显微镜观察和拉曼光谱仪测定等方法对土壤中微塑料进行鉴定.结果表明,研究区采集的64个样本均有微塑料检出,丰度范围为645~15161 n·kg^-1.空间分布上,库尾高于库中和库首,且表层土壤（0~20 cm）中微塑料的丰度明显低于下层土壤（20~40 cm）.微塑料主要类型为聚丙烯（26.4%）和聚酰胺（20.2%）,粒径主要集中在50~500 μm之间（75%）,常见形状为碎片状（66.2%）.相关性分析显示,土壤微塑料丰度与土地利用、距水面和住宅的距离、人口密度和土壤性状密切相关.从微塑料污染风险来看,72.1%区域微塑料聚合物污染指数处于Ⅲ级和Ⅳ级,丹江口库区存在一定的微塑料污染风险.研究结果可为微塑料风险评估提供支撑.     

聚己内酯与聚羟基丁酸戊酸酯的脱氮性能对比

以可生物降解聚合物聚己内酯(PCL)和聚羟基丁酸戊酸酯(PHBV)作为反硝化缓释碳源和微生物载体,利用清水释碳和批式反硝化试验选出适用于再生水反硝化深度脱氮生物滤池的可生物降解碳源滤料,通过比较与分析碳源滤料的表面形态及物质特性和附着微生物的群落特征揭示其性能优越的原因.结果表明,PHBV反硝化启动时间短,反硝化速率高,剩余有机物浓度低,相比PCL具有更稳定持续的反硝化效果.原因是其表面粗糙,且含有大量C—O和CO等亲水性基团,易于微生物附着和降解利用;其表面附着的微生物种类多样,其中发硫菌属(Thiothrix)、假单胞属(Pseudomonas)、菌胶团属(Zoogloea)、黄杆菌属(Flavobacterium)和脱氯菌属(Dechloromonas)等优势菌属均具有异养反硝化功能.因此,PHBV更适合作为再生水反硝化深度脱氮生物滤池的碳源滤料.     

Effect of environmental parameters on the degradability of polymer films in laboratory-scale composting reactors

Previous research in our laboratory reported a convenient laboratory-scale composting test method to study the weight loss of polymer films in aerobic thermophilic (53°C) reactors maintained at a 60% moisture content. The laboratory-scale compost reactors contained the following synthetic compost mixture (percentage on dry-weight basis): tree leaves (45.0), shredded paper (16.5), food (6.7), meat (5.8), cow manure (17.5), sawdust (1.9), aluminum and steel shavings (2.4), glass beads (1.3), urea (1.9), and a compost seed (1.0) which is designated Mix-1 in this work. To simplify the laboratory-scale compost weight loss test method and better understand how compost mixture compositions and environmental parameters affect the rate of plastic degradation, a systematic variation of the synthetic mixture composition as well as the moisture content was carried out. Cellulose acetate (CA) with a degree of substitution (DS) value of 1.7 and cellophane films were chosen as test polymer substrates for this work. The extent of CA DS-1.7 and cellophane weight loss as a function of the exposure time remained unchanged when the metal and glass components of the mixture were excluded in Mix-2. Further study showed that large variations in the mixture composition such as the replacement of tree leaves, food, meat, and sawdust with steam-exploded wood and alfalfa (forming Mix-C) could be made with little or no change in the time dependence of CA DS-1.7 film weight loss. In contrast, substituting tree leaves, food, meat, cow manure, and sawdust with steam-exploded wood in combination with either Rabbit Choice (Mix-D) or starch and urea (Mix-E) resulted in a significant time increase (from 7 to 12 days) for the complete disappearance of CA DS-1.7 films. Interestingly, in this work no direct correlation was observed between the C/N ratio (which ranged from 13.9 to 61.4) and the CA DS-1.7 film weight loss. Decreasing moisture contents of the compost Mix-2 from 60 and 50 and 40% resulted in dramatic changes in polymer degradation such that CA DS-1.7 showed an increase in the time period for a complete disappearance of polymer films from 6 to 16 and 30 days, respectively.Guest Editor: Dr. Graham Swift, Rohm & Haas.Paper presented at the Bio/Environmentally Degradable Polymer Society—Second National Meeting, August 19–21, 1993, Chicago, Illinois.     

PVC/PES相容性及对共混超滤膜性能的影响

研究了聚氯乙烯(PVC)与聚醚砜(PES)共混体系相容性及其对共混膜性能的影响。利用溶解度参数原则和混合热焓原则进行理论预测,用铸膜液粘度法进行实验表征,均说明该体系为部分相容体系,且其相容性与组成及共混温度有关。通过对共混膜传质特性的考察,表明铸膜液的相容性会明显影响共混膜的性能;采用共混法可以改善膜性能。     

泡沫聚合物保温材料的研究进展及其应用

综述了以聚氨酯泡沫、聚乙烯泡沫和酚醛泡沫塑料为代表的轻质聚合物泡沫保温材料的发展状况。     

Speciation characterization and coagulation of poly-silica-ferric-chloride：The role of hydrolyzed Fe（Ⅲ） and silica interaction

The highly e cient inorganic polymer flocculants (IPFs) of the ferric-silica system is a new and promising coagulant. Interactions between ferric species and silica play a large part in the coagulation of suspensions. These e ects are quite distinct from those associated with polymeric or colloid silica. However, although these species are key to coagulation e ciency, they have not been comprehensively discussed. A new type of coagulant, poly-silica-ferric-chloride (PFSC), was synthesized by co-polymerization and characterized by time complexation spectroscopy and photon correlation spectroscopy. Compared with traditional ferric salt, the results indicated that PFSC had a higher molecular weight, lesser positive charge, lower Feb and higher Fec. The higher the Si/Fe ratio, the higher the silica and lower the silicac found. The PFSC with appropriate polysilica acid not only obtained better coagulation/flocculation e ciency in turbidity removal, enhanced the flocculation index (FI) and provided less residual ferric, it also lowered water treatment costs compared to traditional ferric salt. Results showed that PFSC could remove colloid particles in water by charge neutralization and sweeping, adsorption bridging mechanism.     

新型甲醛捕获剂的合成及其捕获性能研究

游离甲醛是室内空气中最主要的污染物之一,对人体造成的危害越来越受到关注.因此,研制新型甲醛捕获剂及其捕获性能具有重要的实际意义.采用亲水性单体丙烯酰胺和亲油性单体苯乙烯为反应物,以氧化还原引发剂,经霍夫曼降解反应合成了含氨基的两亲性共聚物.通过单因素实验考察了不同原料比、引发剂剂量时所合成的产物对人造板游离甲醛捕获率的影响,然后根据单因素实验的结果设计正交试验以优化合成条件.结果表明:苯乙烯单体和丙烯酰胺单体的摩尔比为1:3,引发剂与单体摩尔比为9%,丙烯酰胺单体和NaClO的摩尔比为1:1.2时产品捕获率最好,可达60.40%.实验合成的两亲性共聚物在常温下不挥发,相对稳定而且捕获效果较好,是一种理想的新型甲醛捕获剂.     

聚糖菌颗粒污泥的有机物吸收及胞内储存特性

采用特殊运行方式的厌氧-好氧SBR系统(厌氧后排水),在乙酸钠、葡萄糖及葡萄糖-乙酸钠混合基质条件下均培养出了稳定的聚糖菌颗粒污泥.通过对典型周期有机物、磷酸盐、胞内糖原及聚β-羟基丁酸(PHB)变化的测定分析,证明有机基质的种类对于聚糖菌能量利用模式、有机物吸收速率及胞内储存物质种类具有显著的影响.污泥初始胞内糖原水平是有机物吸收数量及吸收速率的关键影响因素,当糖原水平低于0.05g/gSS时,厌氧有机物去除率与糖原水平直接相关:而糖原水平高于0.05g/gSS时,厌氧有机物去除率趋于稳定.不同糖原水平污泥厌氧吸收有机物的速率具有明显差异,在厌氧初期有机物快速吸收阶段,有机物厌氧吸收速率随胞内糖原水平升高而增加.     

分子印迹技术在环境科学领域中的应用

分子印迹技术（MIT）是一门新兴的边缘科学技术,它的产生与发展为环境科学打开了又一视角。介绍了MIT的产生与发展及基本原理,综述了MIT在环境科学领域中的应用,主要包括MIT在固相萃取、膜分离、色谱分析、传感器及分子印迹聚合物作为催化剂在环境修复中的应用。     

CFRP加固高强混凝土梁锚固方式试验研究

高强混凝土梁受拉底面粘贴补强纤维布后,延性降低显著。为提高补强梁的综合性能,利用四点弯曲梁静载试验,在补强加固梁梁端及跨中实施不同的锚固方式,对比不同锚固组合下加固梁的强度和延性。研究表明:端部U锚能改善加固梁破坏模式,提高加固梁的延性和强度及补强纤维布的利用率。端部U锚联合跨中全包锚固能进一步提高加固梁的延性,显著提高补强纤维布的利用率,且能平衡变形性和承载力在安全储备中的比重;在补强纤维布断裂后,能有效限制补强纤维布的剥离和滑移,继续发挥补强作用,使加固梁延性和强度得以恢复;能对包裹区混凝土产生约束作用,提高混凝土的延性。因此端部U锚联合跨中全包锚固是合理且有充分安全储备的锚固方式。