甲壳素,壳聚糖及其衍生物在水处理中的应用

对甲壳素、壳聚糖及其衍生物在水处理中的应用研究进行了综述。甲壳素、壳聚糖及其午睡了子的吸附剂（螯合剂）,能有效地去除水体中的Ｈｇ＾２＋、Ｃｄ＾２＋、Ｃｕ＾２＋、Ｎｉ＾２＋等有毒重金属离子;作为絮凝剂能除去废水中的悬浮物、染料、ＤＤＴ及石油等污染物;作为新型分离膜材料在水处理中的应用有广阔的前景。     

改性菌丝体对Ni2+的吸附特性研究

通过专利对菌丝体进行了改性.所制备的改性菌丝体对重金属离子具有良好的吸附效果.结果表明,其对Ni2+的吸附容量63.2 mg/g(初始水溶液中Ni2+浓度为200 mg/L),是甲壳素吸附剂的3.3倍(19.1 mg/g),与壳聚糖吸附剂相比吸附容量提高了135%,与D751与南开152相比吸附容量非常接近.用0.5%-0.2%的解吸剂便可以完全解吸,能够重复使用达6次以上.本文还研究了改性菌丝体对Ni2+的吸附过程中重要的影响因素,结果发现,在微碱性(pH=8-9)条件下,改性菌丝体可以把初始浓度高达800 mg/L的Ni2+溶液一次性降低到17 mg/L,为改性菌丝体在工业废水处理中的应用奠定了良好的基础.     

菌丝体-甲壳素水处理剂对重金属Ni2+离子吸附性能的研究

本文系统研究了菌丝体 -甲壳素 (甲壳素 )作为水处理剂对去除水体中Ni2 + 离子时的吸附特性 ,结果表明 ,甲壳素作为水处理剂 ,在较大pH值变化范围内 ,对Ni2 + 离子与柠檬酸镍都有较高的吸附容量 ;甲壳素在吸附金属离子的同时 ,对H+ 有吸附作用 ,且H+ 是金属离子的竞争性抑制剂。将甲壳素与市售吸附树脂相比 ,其对阳离子 (Ni2 + )和络阴离子(柠檬酸镍Ni(cit) 2 -)的吸附特性类似于阳离子交换树脂。同时 ,甲壳素不会带来二次污染 ,是一种具有广泛应用前景的环保型工业水处理剂。     

改性菌丝体对Ni2+的吸附特性研究

通过专利对菌丝体进行了改性。所制备的改性菌丝体对重金属离子具有良好的吸附效果。结果表明 ,其对Ni2 + 的吸附容量 6 3.2mg/g (初始水溶液中Ni2 + 浓度为 2 0 0mg/L) ,是甲壳素吸附剂的 3.3倍 (19.1mg/g) ,与壳聚糖吸附剂相比吸附容量提高了 135 % ,与D75 1与南开 15 2相比吸附容量非常接近。用 0 .5 %— 0 .2 %的解吸剂便可以完全解吸 ,能够重复使用达 6次以上。本文还研究了改性菌丝体对Ni2 + 的吸附过程中重要的影响因素 ,结果发现 ,在微碱性 (pH =8— 9)条件下 ,改性菌丝体可以把初始浓度高达 80 0mg/L的Ni2 + 溶液一次性降低到 17mg/L ,为改性菌丝体在工业废水处理中的应用奠定了良好的基础。     

菌丝体—甲壳素水处理剂对重金属Ni^2＋离子吸附性能的研究

本文系统研究了菌丝体－甲壳素（甲壳素）作为水处理剂对去除水体中Ni^2 离子时的吸附特性，结果表明，甲壳素作为水处理剂，在较大pH值变化范围内，对Ni^2 离子与柠檬酸镍都有较高的吸附容量；甲壳素在吸附金属离子的同时，对H^ 有吸附作用，且H^ 是金属离子的竞争性抑制剂。将甲壳素与市售吸附树脂相比，其对阳离子（Ni^2 ）和络阴离子（柠檬酸镍Ni(cit)^2-）的吸附特性类似于阳离子交换树脂。同时，甲壳素不会带来二次污染，是一种具有广泛应用前景的环保型工业水处理剂。     

壳聚糖在活性污泥中的可生化性研究

以不同分子量和不同脱乙酰度的壳聚糖为对象,研究了壳聚糖溶液的COD和BOD5分别随分子量和脱乙酰度变化的规律,并将其应用于活性污泥法废水处理,研究了不同分子量和不同脱乙酰度的壳聚糖对微生物活性的影响及其抑菌作用。由壳聚糖溶液的BOD5/COD及其对微生物活性的影响初步得出壳聚糖在活性污泥中是不可生化的。     

壳聚糖-纳米金属絮凝剂絮凝沉降水华蓝藻研究

研究了壳聚糖与纳米钛、纳米铁或妫水湖沉积物絮凝剂絮凝沉降水华蓝藻的效果。结果表明:在壳聚糖浓度为3 mg/L情况下,与妫水湖沉积物和纳米钛相比,纳米铁絮凝沉降蓝藻细胞的效果最好,在10 min内可以絮凝沉降79.5%以上的水华蓝藻细胞。进一步研究显示,在pH值为5~9的范围内,随着pH值的降低,絮凝沉降藻细胞的效率逐渐提高,pH值为5时10 min内可以絮凝去除89.6%以上的水华蓝藻细胞,具有重要的研究价值与应用价值。     

阳离子化壳聚糖改性黏土絮凝去除藻华

壳聚糖改性黏土可以用于治理藻华,但未经改性的壳聚糖具有电荷密度小、溶解度小、pH适用范围较窄以及分子质量较小等缺点,影响了壳聚糖改性黏土除藻的性能。为了优化壳聚糖的絮凝除藻性能,以二甲基二烯丙基氯化铵为阳离子醚化剂,在微波条件下对壳聚糖进行改性合成阳离子型壳聚糖,并研究了阳离子壳聚糖溶解度随pH的变化,以及用它改性后的黏土颗粒的表面电位的变化,并对阳离子壳聚糖改性黏土和壳聚糖改性黏土的絮凝除藻性能进行比较。结果表明,阳离子壳聚糖在酸性和碱性条件下都具有很好的溶解性,经其改性后的黏土颗粒的等电点(pH 10.8)显著高于壳聚糖改性黏土的等电点(pH 9.5)。在絮凝实验中,阳离子壳聚糖改性黏土的最大除藻率达到99%,藻絮体粒径为978μm,即使在pH为10时,仍有87%的去除率。结果表明,阳离子壳聚糖改性黏土的除藻性能明显优于未改性的壳聚糖改性黏土。     

微波辅助改性壳聚糖的制备及其絮凝性能

以壳聚糖、阳离子醚化剂二甲基二烯丙基氯化铵为原材料,采用微波辐射的方法,制备了壳聚糖接枝共聚物(壳聚糖-二甲基二烯丙基氯化铵),并通过红外光谱分析对改性壳聚糖进行了表征。以接枝率为标准,确定改性壳聚糖的最佳反应条件,并以高岭土悬浊液和实际生活污水作为处理对象,测定了改性壳聚糖的絮凝性能。结果表明,壳聚糖接枝共聚物的最佳制备条件是微波反应温度55℃,反应时间20 min,壳聚糖0.5 g,微波功率270 W,阳离子醚化剂的浓度20%,在此条件下,合成的改性壳聚糖的接枝率为80%。红外光谱分析结果显示,已成功地合成了壳聚糖-二甲基二烯丙基氯化铵接枝共聚物。在絮凝实验中,壳聚糖接枝共聚物的去浊率最高达到91%,COD去除率最高达到77%。其结果表明,壳聚糖接枝共聚物的絮凝性能明显高于原料壳聚糖。     

壳聚糖强化生物作用的机理研究

将不同分子量的壳聚糖投加于 SBR生物反应器处理生活废水 ,通过比较处理效率、污泥活性、污泥结构等指标来探明壳聚糖强化活性污泥生物作用的机理。研究表明 ,壳聚糖虽对污泥活性有一定抑制作用 ,但能很好地改善污泥的絮体结构 ,从而提高活性污泥的处理效率 ,其中分子量越大的壳聚糖强化生物处理的效果越佳。     

A comparative study on the raw chitin and chitosan yields of common bio-waste from Philippine seafood

Environmental Science and Pollution Research - Bio-waste materials from aquatic species are alternative sources of chitin and chitosan—high-value natural biodegradable and biocompatible...     

巯基酯化壳聚糖的合成及对Cd2＋的去除性能研究

采用化学方法,研究了以巯基甲壳质制备巯基酯化壳聚糖的最佳合成方案。研究表明,巯基甲壳质的脱乙酰条件（包括时间、温度、氢氧化钠浓度）影响其产物巯基酯化壳聚糖对重金属镉离子的吸附效果。当脱乙酰时间为2h,温度为160℃,氢氧化钠浓度为20％时,20mg的合成产物对30mLCd2＋浓度为20mg／L水样的去除率最高,达到85．46％,其对镉离子的吸附量达到28．5mg／g。通过对产物进行红外分析发现,巯基甲壳质中出现脂基特征峰值,脱乙酰后脂基并没有消失,证明最后的产物为巯基酯化壳聚糖。     

Preparation of alginate-chitosan hybrid gel beads and adsorption of divalent metal ions

Naturally occurring polysaccharides such as alginic acid and chitosan have been recognized as one of the most effective adsorbents to eliminating low levels of heavy metal ions from waste water stream. The present study intended to use alginic acid and chitosan simultaneously, which are expected to form a rigid matrix structure of beads due to electrostatic interaction between carboxyl groups on alginic acid and amino groups on chitosan, and to prepare alginate-chitosan hybrid gel beads. This could be achieved for the first time by using water-soluble chitosan, which was obtained by deacetylating chitin to 36-39% degree. The water-soluble chitosan dissolved in water could remain in solution in the presence of sodium alginate, and the homogeneous solution of chitosan and alginate was dispensed into a CuCl2 solution to give gel bead particles. The resultant beads were then reinforced by a cross-linking reaction of aldehyde groups on glutaraldehyde with amine groups on the chitosan. The cross-linking reaction made the beads durable under acidic conditions. The adsorption of Cu(II), Co(II), and Cd(II) on the beads was significantly rapid and reached at equilibrium within 10 min at 25 degrees C. Adsorption isotherms of the metal ions on the beads exhibited Freundlich and/or Langmuir behavior, contrary to gel beads either of alginate or chitosan showing a step-wise shape of adsorption isotherm.     

壳聚糖对地表水中污染物的净化作用

综述了壳聚糖絮凝剂对地表水中悬浮物、天然有机物(NOM)、人工合成有机物(SOCs)、藻类的去除和对细菌的抑制及残留铝的削减作用。壳聚糖在地表水净化中具有一定的应用价值。     

Filter materials for metal removal from mine drainage—a review

A large number of filter materials, organic and inorganic, for removal of heavy metals in mine drainage have been reviewed. Bark, chitin, chitosan, commercial ion exchangers, dairy manure compost, lignite, peat, rice husks, vegetal compost, and yeast are examples of organic materials, while bio-carbons, calcareous shale, dolomite, fly ash, limestone, olivine, steel slag materials and zeolites are examples of inorganic materials. The majority of these filter materials have been investigated in laboratory studies, based on various experimental set-ups (batch and/or column tests) and different conditions. A few materials, for instance steel slag materials, have also been subjects to field investigations under real-life conditions. The results from these investigations show that steel slag materials have the potential to remove heavy metals under different conditions. Ion exchange has been suggested as the major metal removal mechanisms not only for steel slag but also for lignite. Other suggested removal mechanisms have also been identified. Adsorption has been suggested important for activated carbon, precipitation for chitosan and sulphate reduction for olivine. General findings indicate that the results with regard to metal removal vary due to experimental set ups, composition of mine drainage and properties of filter materials and the discrepancies between studies renders normalisation of data difficult. However, the literature reveals that Fe, Zn, Pb, Hg and Al are removed to a large extent. Further investigations, especially under real-life conditions, are however necessary in order to find suitable filter materials for treatment of mine drainage.     

二氧化钛/碳纳米管/壳聚糖薄膜的制备及对苯的降解性能

研究了光催化降解挥发性有机化合物过程中催化剂二氧化钛/碳纳米管/壳聚糖薄膜的制备以及该催化剂对苯的光催化性能。首先采用溶胶-凝胶法制备纳米复合材料二氧化钛/碳纳米管,然后利用壳聚糖作为交联剂,制得二氧化钛/碳纳米管/壳聚糖复合材料催化薄膜。通过傅立叶红外光谱(FT-IR)、X射线衍射(XRD)透射电镜扫描(TEM)和紫外-可见光漫反射(UV-Vis)等技术分析了复合材料薄膜的组成、结构、形貌和对光的吸收性能,然后使用该催化剂对室内常见的污染物苯进行降解,并在同样的实验条件下,使用催化剂二氧化钛(P25)/壳聚糖对苯进行降解,对两者催化性能进行对比,结果表明,二氧化钛/碳纳米管/壳聚糖对苯有更强的吸附能力和更高的催化活性。     

Retention of organic and inorganic chemicals by the drainage/supply piping material

A critical issue facing the turfgrass industry is the environmental fate and transport of organic and inorganic chemicals used on golf courses. The fate and distribution of those chemicals are strongly influenced by sorptive interactions with soil and sediment. In this study, the drainage and water supply piping material (used for construction of a prototype encapsulated golf green) was utilized to determine its potential sorption of three organic chemicals [2,4-dichloro-phenoxyacetic acid] (2,4-D), naphthalene and toluene and nitrate. Crushed piping material (small-to-large particle sizes) was evaluated. Isotherms were constructed using a batch equilibration technique. The results showed that the drainage/supply piping material at small particle sizes (<2.5 mm) has higher sorptive ability compared to soil (1.7 for 2,4-D and 13.4 for naphthalene). The K(F) value was 44, 253 and 70 for 2,4-D, naphthalene and toluene, respectively. K(oc) values were much higher than those of peat and soil at lower equilibrium concentrations. However, sorption decreased dramatically with increasing particle size (approaching zero at particle size 10 mm), due to reduction of surface areas and sorption sites. Sorption of NO(3)-N by the piping material was negligible. We concluded that sorption by intact drainage/supply piping material would not affect the recycling efficiency of pesticides and nutrients in the constructed encapsulated green. Conversely, drainage/supply piping material particles smaller than 2.5 mm in diameter can effectively be utilized as a filtering material.     

Indicators for Chemicals: Sources,impacts and policy performance (5 pp)

Background Different types of indicators have been developed to describe the impact of chemicals on society and environment. Due to the high number of substances and their different types of use, most of these indicators are directed to specific areas of interest – regarding workplace safety, environmental health or consumer health. They address a specific subset of chemicals and can be used for monitoring enterprise-specific, national or international management measures. Main Features A survey of existing indicators for chemicals has shown that indicators already exist for a remarkable number of problem fields. As soon as the release and the environmental fate of chemicals are taken into account, the complexity of the approaches increases considerably. The distinction between indicators for drivers, pressures, state, impacts and responses, as proposed by the European Environmental Agency, supports the identification of proper indicators for a specific type of problem. Discussion and Conclusions. No single indicator exists which is able to cover the whole range of chemicals and their applications. Several indicator approaches cover at least a subset of the most relevant substances. If they are intended to be used for European monitoring, robust data must be provided by EU Member States. Chemicals in enterprises (ancillary inputs as well as process chemicals) are an important element of in-plant material flow management – in terms of occupational safety and health as well as environmental protection. Existing indicators for hazardous chemicals can be a valuable tool for process and product refinement regarding hazardous chemicals, especially for enterprises. Outlook Indicators for production and impact of chemicals, as well as policy performance indicators, are essential elements in order to monitor the management of chemicals. They have to be established for the national and for the EU level.     

Design and development of novel insect growth regulators: synthesis, characterization and effect of benzoyl thymyl thioureas and ureas on total haemocyte count of Dysdercus koenigii

Insect-growth regulators (IGRs) have been receiving foremost attention as potential means of selective insect control. Benzoyl phenyl urea (BPU) is a well-known IGR having chitin synthesis inhibitor activity. Mimics of BPU have been synthesized by suitable derivatization of a naturally occurring monoterpenoid, thymol (2-isopropyl-5-methyl phenol) to form a = series of substituted benzoyl thymyl thioureas (BTTUs) [IVa-f] and benzoyl thymyl ureas (BTUs) [Va-f]. The synthesized compounds have been characterized by (1)H and (13)C NMR, LC-MS and elemental analysis. These derivatives have been screened for their effect on total haemocyte count of Dysdercus koenigii. It has been observed that the introduction of substituted benzoyl thiourea and urea linkage into a thymol ring via an amino group results in higher activity than the parent compound thymol and a comparable pattern of results with the standard insect-growth regulators, Penfluron. Urea [Va-f] compounds exhibited greater effect on Total Haemocyte Count (THC) than thiourea [IVa-f]. Fluoro substitution enhanced the effect on THC more than chloro substituted compounds, while ortho-substitution resulted in a better effect than para-substitution. The results described in this paper are promising and provide new array of synthetic chemicals that may be utilized as insect growth regulators.