纳米FeO作用下4-氯酚的脱氯特性及机理

采用化学还原法制备了纳米Fe^O, ESEM测定结果表明其颗粒在1～100 nm内. 实验表明这些纳米Fe^O能在20 h内将初始浓度为20 mg/L的4-氯酚完全降解, Fe^O对4-CP的还原脱氯是主要去除途径. 苯酚是脱氯反应的主要产物. 当4-CP的初始浓度由20　mg/L增大到50, 100, 150　mg/L时, 其相对去除率明显降低, 但绝对降解量有较大提高. 温度不仅影响脱氯速率, 而且影响4-CP去除的途径. 30℃时, 脱氯反应为主要反应; １０℃时, 较易产生氧化产物. Fe原子的迁移过程在4-CP的降解中也是一个重要的限速步骤. 此外, 纳米Fe^O具有很好的稳定性, 在受试的379　h内, 纳米Fe^O能够应对不同浓度冲击及反复投加的4-氯酚冲击的能力.     

纳米Fe3O4负载的浮游球衣菌去除重金属离子的工艺研究

以纳米Fe₃O₄负载浮游球衣菌（Sphaerotilus natans）制备复合生物吸附剂,对此吸附剂进行表征并考察了其吸附水中重金属离子的性能.红外光谱分析表明,此复合生物吸附剂表面的主要活性基团为酰胺基（—CONH—）和羟基（—OH）.吸附性能研究表明,菌含量和流量是影响复合生物吸附剂吸附重金属离子的主要因素,在Cu²⁺初始浓度c₀<20 mg/L,菌含量1.5 g/L（菌/ Fe₃O₄＝3∶2）,流量0.96 L/h 时吸附剂对Cu²⁺的吸附效果最好;用稀盐酸对复合生物吸附剂进行再生,吸附剂可重复使用10次以上,再生液可重复使用3次; 吸附选择性为：Pb²⁺ > Cu²⁺ > Zn²⁺>Cd²⁺.     

田湾核电站大气中水溶性阴离子的观测研究

Cl-、SO24-和NO3-是滨海大气中的主要水溶性阴离子.2005年6月～2006年5月期间,对连云港田湾核电站滨海大气中主要水溶性阴离子Cl-、SO24-和NO3-进行了监测.研究表明,田湾核电站大气中Cl-、SO24-和NO3-的年均值分别为(33.12±53.63)、(53.34±30.34)和(8.34±4.47)μg·m-3;季节变化分析表明,Cl-、SO24-浓度在夏季高、冬季低,NO3-浓度在秋冬季高、夏春季低.气象因素分析表明,风向、风速、气温、相对湿度等对大气阴离子浓度有一定影响.本研究首次对我国滨海核电大气中主要腐蚀性阴离子进行了同时监测,为防止海洋大气腐蚀,保证我国核电工业安全经济运行提供了依据.     

离子液体双水相气浮溶剂浮选分离/富集水样中的盐酸多西环素研究

建立了以亲水性离子液体1-丁基-3-甲基咪唑四氟硼酸[Bmim]BF4和Na H2PO4形成的二元双水相作为气浮溶剂分离/富集水样中盐酸多西环素的新方法,并采用紫外分光光度法对盐酸多西环素进行测定。考察了离子液体的初始加入量、盐的种类及浓度、p H值、浮选时间及N2流速等因素对体系浮选分离盐酸多西环素的影响。结果表明,改变离子液体和无机盐的加入量,会使体系的富集倍数发生变化,从而使体系的浮选效率和浓集系数发生变化;随浮选时间增加,体系的浮选效率先增加后略微下降;过大或过小的N2流速都会使体系对盐酸多西环素的浮选效率降低;而p H值对体系浮选盐酸多西环素影响不大。当[Bmim]BF4溶液加入量为3 m L、Na H2PO4加入量为25 g(质量分数为33.3%)、气浮时间为40 min、气浮速率为50 m L/min时,体系的浮选效率最高,可达95.8%,浓集系数可达23.95,此时体系的p H值为4.38。与离子液体双水相萃取(ILATPE)相比,该方法的优点在于不仅有较高的浮选率、浓集系数,还有效减少了离子液体的用量,同时操作更简单、环境友好。     

热解条件对生物炭性质和氮、磷吸附性能的影响

以橡木为原料,在不同的热解终温、升温速率和恒温时间下制备生物炭.对生物炭产率、p H、元素组分、工业组分、比表面积、红外光谱等理化特征进行分析,并考察生物炭对水溶液体系中NO-3-N、NH+4-N、PO3-4-P的吸附性能.结果表明:生物炭的产率受热解终温影响最大(极差:54.57%),恒温时间次之(极差:1.16%),升温速率最小(极差:0.42%).随热解终温、升温速率和恒温时间的增加,所得生物炭的p H和C含量增加,而H和O含量降低.热解终温对生物炭表面官能团影响较大,升温速率和恒温时间基本无影响.生物炭对氮、磷的吸附性能主要受热解终温影响.NO-3-N的吸附量最大可达2.80 mg·g-1(600℃),且随热解终温的升高呈指数增加.比表面积、表面碱性官能团和表面金属氧化物与NO-3-N吸附有关.随热解终温的增加,NH+4-N吸附量降低,最大吸附量为3.12 mg·g-1(300℃).阳离子交换量(CEC)是影响NH+4-N吸附的主要因素.PO3-4-P吸附量随热解终温的增加呈先增后减的趋势(在500℃达到最大,为9.75 mg·g-1),且吸附过程主要受生物炭表面碱性官能团和表面金属氧化物的影响.     

Oxidation of diesel soot on binary oxide CuCr(Co)-based monoliths

Binary oxide systems (CuCr₂O₄, CuCo₂O₄), deposited onto cordierite monoliths of honeycomb structure with a second support (finely dispersed Al₂O₃), were prepared as filters for catalytic combustion of diesel soot using internal combustion engine's gas exhausts (O₂, NO_x, H₂O, CO₂) and O³ as oxidizing agents. It is shown that the second support increases soot capacity of aforementioned filters, and causes dispersion of the particles of spinel phases as active components enhancing thereby catalyst activity and selectivity of soot combustion to CO₂. Oxidants used can be arranged with reference to decreasing their activity in a following series: O₃ >> NO₂ > H₂O > NO > O₂ > CO₂. Ozone proved to be the most efficient oxidizing agent: the diesel soot combustion by O₃ occurs intensively (in the presence of copper chromite based catalyst) even at closing to ambient temperatures. Results obtained give a basis for the conclusion that using a catalytic coating on soot filters in the form of aforementioned binary oxide systems and ozone as the initiator of the oxidation processes is a promising approach in solving the problem of comprehensive purification of automotive exhaust gases at relatively low temperatures, known as the "cold start" problem.     

土壤粒径、氮素及重金属对填埋场覆土CH_4氧化的影响

采用批式培养试验重点研究了土壤粒径、NH4+-N和NO3--N及重金属〔Zn和Cr(Ⅵ)〕含量对填埋场砂性覆土及一般砂土CH4氧化能力的影响.结果表明:合适的土壤粒径能显著提高砂性覆土和一般砂土的CH4氧化能力(P0.05),当粒径为1.00~2.00 mm时,砂性覆土和一般砂土的CH4氧化速率分别高达0.24和0.12μmol/(g·h).低浓度NH4+-N或NO3--N均可以促进砂性覆土和一般砂土的CH4氧化,而高浓度则会明显抑制CH4氧化.砂性覆土和一般砂土的外源氨氮和外源NO3--N的投加量(以w计)临界值均为200 mg/kg,砂性覆土对NH4+-N浓度的波动有更好的适应能力;重金属Zn、Cr(Ⅵ)对砂性覆土和一般砂土CH4氧化的抑制作用均随浓度的升高而增强,Zn对砂性覆土CH4氧化的抑制作用程度大于Cr,并且Zn对一般砂土CH4氧化的抑制程度明显强于砂性覆土.为此,筛选合适粒径级配的土壤,同时控制覆土中氮素及重金属的本底含量,有利于填埋场CH4氧化.     

The effect of Mg(BH4)2 on the energy characteristics of RDX based aluminized explosives

This paper mainly discusses the effect of Mg(BH₄)₂ on RDX-based aluminized explosives' energy characteristics. RDX/Mg(BH₄)₂, RDX/Al/Mg(BH₄)₂, RDX/AP/Al/Mg(BH₄)₂ mixed explosives were prepared by molding power method. The influence of energy storage materials on the performance of mixed explosives was discussed by adjusting the proportion of Mg(BH₄)₂. The impact sensitivity, friction sensitivity, detonation heat experiment, and XPS experiment were carried out for the mixed explosive. The mechanical sensitivity, energy characteristics, and the products after the explosion of the mixed explosive were analyzed. Through the above experiments, it is concluded that Mg(BH₄)₂ can effectively improve the energy characteristics of RDX, but its safety will become worse after being prepared by a simple mixing method, and the use of the molding power method can effectively reduce the sensitivity. As the mass fraction of Mg(BH₄)₂ increases and Al decreases, the detonation heat of explosives decreases gradually. Mg(BH₄)₂ made the oxygen balance of mixed explosives more negative has been considered as a potential reason. Analysis of the detonation heat solid products by XPS found that, unlike our expected results, the product contained a large amount of low calorific value of B₂O₂ instead of B₂O₃, which may be a crucial reason. This paper provides a reference for the application of Mg(BH₄)₂ in energetic materials and is of great significance for the development and application of new materials in energetic materials.     

对硝基酚在超高交联吸附树脂NDA-701上的脱附行为研究

通过碱当量选择、脱附动力学以及固定床吸附-脱附实验,研究了对硝基酚在自制的超高交联吸附树脂NDA-701上的脱附行为,考察了2个温度下不同碱当量比(MNaOH/4-NP)对树脂脱附率的影响;研究了3个脱附温度和3种MNaOH/4-NP值情况下NDA-701的脱附动力学性能;考察了NDA-701的固定床吸附性能和不同脱附...     

HCO3-浓度对厌氧氨氧化反应器脱氮效能的影响

采用序批式生物膜反应器,通过氮去除速率的测定,研究了HCO3-浓度对厌氧氨氧化反应器脱氮效能的影响.结果表明,当HCO3-与NH4+-N进水浓度比值为0.21时,反应器出水pH值大幅升高,抑制了厌氧氨氧化菌活性,使得氮去除速率大幅下降.当其比值为1.13时,反应器内pH能够降低到厌氧氨氧化菌生长所需要的环境,同时,反应器的氮去除速率开始逐步升高.当过量的HCO3-进入反应器后对厌氧氨氧化反应无影响,说明HCO3-对厌氧氨氧化反应器脱氮效能具有重要的影响,对维持反应器pH值与脱氮效能十分重要.在厌氧氨氧化反应器启动过程中HCO3-与NH4+-N进水浓度最佳比值为1.13.