粉末活性炭对三烯丙基异氰脲酸酯的吸附性能简

用静态吸附法考察粉末活性炭对水中三烯丙基异氰脲酸酯（CAIC）的吸附行为,采用单因素分析法对活性炭吸附化工废水中TAIC的工艺条件进行研究。实验结果表明,在TAIC模拟废水中,其TAIC初始浓度为800 mg/L,pH为7,在温度为298 K、转速为150 r/min的条件下,当活性炭的投加量达到4.4 g/L,吸附反应时间为50 min时,TAIC的去除效率最高为96.17%;对于实际废水,其TAIC初始浓度为1 500 mg/L,溶液pH为3,在温度为298 K、转速为150 r/min的条件下,当活性炭投加量达到10 g/L,吸附反应时间为2 h时,TAIC的去除效率最高为46.8%。这也是由于实际废水组分复杂,其他有机物存在一定的吸附竞争机制。     

铁炭微电解法降解TAIC废水

TAIC（三烯丙基异氰脲酸酯）作为过氧化物交联或自由基反应交联的助交联剂被广泛应用。由于TAIC性质稳定难于生物降解,采用铁炭微电解法处理TAIC生产废水,并考察了铁炭比、进水pH值、反应时间对处理效果的影响,以及TAIC降解机理和反应动力学过程。结果表明,影响微电解工艺的因素主次关系为：pH>Fe/C质量比>反应时间;在最佳条件进水pH值为5,铁炭质量比为2：1,反应时间为135 min时,COD的去除率达到46%以上,TAIC的去除率达到48%以上。TAIC去除机理研究表明,微电解对TAIC废水的作用主要通过·H的还原和铁离子的絮凝作用,其中·H的还原作用是TAIC降解的主要原因。反应动力学分析表明,铁炭微电解法处理TAIC的降解过程基本符合二级反应动力学规律,通过建立模型并拟合出了TAIC降解的二级反应动力学方程。     

酸析法和碱析法处理草浆造纸黑液的效果对比

对比了酸析法和碱析法对碱法草浆造纸黑液中木质素的去除效果,并分析了聚合氯化铝(PAC)絮凝剂对酸析和碱析后木质素的絮凝效果。实验结果表明:酸析法和碱析法都能有效析出造纸黑液中的木质素,酸析法对色度的去除效果要优于碱析法;当造纸黑液pH为3时,COD去除率达到72.0%,色度去除率为97.7%;当造纸黑液pH为13时,COD去除率达到55.0%,色度去除率为22.3%;PAC对于酸析后木质素有较好的絮凝效果,当废水温度为55℃、PAC加入量为45mL/L时,COD去除率可以达到79.5%,色度去除率为98.5%;PAC絮凝剂对于碱析后的造纸黑液色度的去除效果较差。     

开敞空间可燃气云爆炸冲击波超压及灾害动力响应研究评述

为了进一步梳理和分析开敞空间可燃云爆炸冲击波超压传播规律及灾害动力响应方面的各项研究成果,推进可燃气体爆炸安全防控,减少人员伤亡和经济损失。在分析现有研究的基础上,总结开敞空间可燃气云爆炸冲击波超压传播规律及灾害动力响应研究等方面存在的不足,提出开敞空间多元混合气体爆炸冲击波超压传播规律研究、多影响参数下可燃气云爆炸冲击波超压传播规律定量分析、基于可燃气云爆炸冲击波超压作用下的承载体动力响应等未来研究的关键技术问题。     

Carbonaceous matter in glacier at the headwaters of the Yangtze River: Concentration, sources and fractionation during the melting process

Carbonaceous matter has an important impact on glacial retreat in the Tibetan Plateau, further affecting the water resource supply. However, the related studies on carbonaceous matter are still scarce in Geladaindong (GLDD) region, the source of the Yangtze River. Therefore, the concentration, source and variations of carbonaceous matter at Ganglongjiama (GLJM) glacier in GLDD region were investigated during the melting period in 2017, which could deepen our understanding on carbonaceous matter contribution to glacier melting. The results showed that dissolved organic carbon (DOC) concentration of snowpit samples (283?±?200?μg/L) was much lower than that of precipitation samples (624?±?361?μg/L), indicating that large parts of DOC could be rapidly leached from the snowpit during the melting process. In contrast, refractory black carbon (rBC) concentration measured by Single Particle Soot Photometer of snowpit samples (4.27?±?3.15?μg/L) was much higher than that of precipitation samples (0.97?±?0.49?μg/L). Similarly, DOC with high mass absorption cross-section measured at 365?nm value was also likely to enrich in snowpit during the melting process. In addition, it was found that both rBC and DOC with high light-absorbing ability began to leach from the snowpit when melting process became stronger. Therefore, rBC and DOC with high light-absorbing ability exhibited similar behavior during the melting process. Based on relationship among DOC, rBC and K⁺ in precipitation, the main source of carbonaceous matter in GLJM glacier was biomass burning during the study period.     

铜绿微囊藻生长与铁氧化物吸附解吸磷的相互作用机制研究

本文研究铜绿微囊藻生长与铁氧化物吸附解吸磷的相互作用机制,旨在为富营养化池塘、水库调控和治理提供理论指导。采用化学方法合成铁氧化物并对其进行表征,研究铁氧化物对磷的吸附特性和铜绿微囊藻生长与铁氧化物吸附解吸磷的相互作用。结果表明铁氧化物的物相组成与自然界土壤和底泥中铁氧化物存在形态相似;铁氧化物对磷的吸附属于专性吸附,吸附等温曲线符合Langmuir方程。在含铁氧化物的BG11培养基中培养铜绿微囊藻,铁氧化物对磷的吸附导致培养液中总磷（TP）和水溶性磷（SWP）浓度降低,抑制铜绿微囊藻的生长。铜绿微囊藻在含吸附磷的铁氧化物而无磷的BG11培养基（4.02 < pH < 10.05）中能够正常生长,藻生长导致溶液pH升高是诱导铁氧化物解吸磷的主要因素,铜绿微囊藻光合作用释放的氧气可以抑制三价铁向二价铁的转化。针对铜绿微囊藻诱导铁氧化物释放磷并被其吸收的机制,要控制富营养化水体蓝藻爆发,除控制外源磷输入外,应该抑制底泥中铁磷释放,或通过藻细胞的收集和移除来降低底泥中铁氧化物的磷负荷。     

Hydrolysis mechanism of carbendazim hydrolase from the strain Microbacterium sp. djl-6F

The carbendazim(MBC) hydrolyzing enzyme gene was cloned and heterologously expressed in Escherichia coli BL21(DE3) from a newly isolated MBC-degrading bacterium strain Microbacterium sp. strain djl-6F. High performance liquid chromatography-mass spectrometry(HPLC-MS)analysis revealed that purified MheI-6F protein catalyzes direct hydrolysis of MBC into2-aminobenzimidazole(2-AB) with a high turnover rate and moderate affinity(Kmof6.69 μmol/L and kcatof 160.88/min) without the need for any cofactors. The optimal catalytic condition of MheI-6F was identified as 45°C, pH 7.0. The enzymatic activity of MheI-6F was found to be diminished by metal ions, and strongly inhibited by sodium dodecyl sulfate(SDS).Through generating amino acid mutations in MheI-6F, Cys16 and Cys222 were identified as the catalytic groups that are essential for the hydrolysis of MBC. This is the first report on the biodegradation of MBC at the enzymatice level.     

填埋场直流电阻电路模型及分析

为研究垃圾填埋场的导电特性,建立了一种填埋场直流电阻电路模型,并对回路中的各部分电阻进行了分析.结果表明:随着供电电极直径和入土深度的增加,回路电阻减小,而随着供电电极与漏洞之间距离的增大,回路电阻缓慢增加;漏洞电阻由接触电阻和内阻组成,前者远大于后者,对一个半径为1cm的圆形漏洞来说,接触电阻可达1500Ω,而内阻只占到接触电阻的1/10;在供电电极周围浇水可明显降低回路电阻,在场内电极直径为20mm,入土深度为0.4m,电极与漏洞之间距离为20m时,浇水后的回路电阻可减小26.6%.     

高压脉冲放电等离子体对水中土霉素的降解

采用针-板式高压脉冲放电等离子体降解水中土霉素,考察了放电输出功率、空气流量、电极间距、溶液初始浓度、初始pH、初始电导率和添加Fe2+的量对土霉素去除率的影响。实验结果表明,高压脉冲放电等离子体对水中土霉素有较好的去除效率,在初始浓度200 mg/L,放电功率64 W,电极间距8 mm,空气流速0.05 m3/h,初始pH为2.6,初始电导率1.083 mS/cm条件下,反应12 min后,土霉素的去除率可达97%。向溶液中添加Fe2+,可提高土霉素的去除率。TOC随着反应时间的延长逐渐减小,反应12 min时,TOC去除率可达57%,说明大分子物质被降解为小分子物质,部分被完全矿化为CO2和H2O。     

响应面法优化电渗析处理褐藻酸钠废水工艺

采用电渗析器处理过滤的褐藻酸钠废水,褐藻酸钠废水初始水质如下:Ca2+(56 mg/L)、Cl-(1 808 mg/L)、电导率(7.24 mS/cm)。处理目标值如下:Ca2+(60 mg/L)、Cl-(300 mg/L)、电导率(2.50 mS/cm)。运用Design-Expert分析软件,采用Box-Behnken的中心组合设计方法,研究了流量、电压及淡水浓水体积比及其交互作用对直流电耗的影响。建立了电渗析处理褐藻酸钠废水的二次多项数学模型,并以电渗析的直流电耗为响应值做响应面,确定电渗析处理褐藻酸钠废水的最佳工艺条件为:流量200 L/h、电压40 V、淡水浓水体积比1∶1。在此条件下电渗析的直流电耗最小为0.45 kWh/kg,电渗析器处理后的水质如下:Ca2+(56 mg/L)、Cl-(259 mg/L)、电导率(2.00 mS/cm),达到处理目标。