流体对水轮机喷嘴控制室腐蚀影响的数值模拟

水下发电装置中,喷嘴控制室的水动力分析是整个装置很重要的一个环节,它为轻质流体的运动提供了动能,其在惯性力作用下驱动整个装置.采用三维雷诺时均守恒方程与湍流模型,考虑海水与细沙颗粒之间的双向耦合作用,通过FLUENT软件对流速、流动剪切应力等腐蚀因素进行数值模拟,对相关性研究工作提供了参考方案.     

不同电子受体对无分子氧环境中苯微生物降解的影响

为了考察提供氧分子以外的其它电子受体时微生物对石油污染的修复效果,在缺氧和厌氧条件下,采用批式试验方法研究了活性污泥在供给硝酸盐、亚硝酸盐、EDTA铁盐或硝酸盐+EDTA铁盐条件下对苯的降解效果,探讨了这些电子受体对缺氧和厌氧微生物降解苯的影响以及这些电子受体之间的相互作用.结果表明:①在供给硝酸盐时,苯的生物降解作用、硝酸盐还原和亚硝酸盐暂时累积现象同时出现;②当供给亚硝酸盐时,苯的生物降解作用不明显;③在供给EDTA铁盐为电子受体时,苯的生物降解作用明显,亚铁盐浓度逐渐升高;④当同时供给硝酸盐和EDTA铁盐时,苯的生物降解作用明显.并且没有出现明显的亚硝酸盐和亚铁盐累积现象.这表明,同时供给硝酸盐和EDTA铁盐时,伴随苯的降解首先硝酸盐和铁盐还原产生亚硝酸盐和亚铁盐,随后亚硝酸盐将亚铁盐氧化为铁盐.氧化产生的铁盐又继续作为苯降解的电子受体来降解苯;铁离子和亚铁离子之间构成的氧化还原循环,从而促进了苯的缺氧降解和硝酸盐还原.     

地球物理方法在环境监测中的应用现状

环境地球物理学是地球物理学与环境科学的交叉学科,是利用地球物理学的理论与方法对目前日益严重的环境问题进行探测、调查。本文简要概述环境地球物理学的发展状况以及其在环境监测中应用现状,并根据我国环境地球物理学发展缓慢这一现状提出了试探性的建议。     

改性膨润土的制备及其对Cr~(6+)的吸附研究

探讨了膨润土提纯土、有机改性土及锰化改性土在静态吸附条件下吸附Cr6+的最佳条件。同时进行了等温吸附研究,结果表明Freundlich吸附等温线模式能很好地描述改性膨润土对Cr6+的吸附。最后进行了改性膨润土吸附Cr6+的动力学研究,发现改性膨润土对Cr6+具有良好的吸附性能,动力学数据满足准二级动力学方程。     

Enhanced bioremediation of oil contaminated soil by graded modified Fenton oxidation

The fraction of oil (C₁₀-C₄₀) became more biodegradable after graded modified Fenton’s oxidation, therefore, it can be considered a mild pre-treatment method to obtain more effective bioremediation for oil contaminated soil.     

蒽醌类溶解有机质和模拟太阳光耦合驱动下的Fenton法对罗丹明B脱色特征的影响因素研究

考察了光照/无光照条件、体系中不同种类的蒽醌、Fe(Ⅲ)、自由基淬灭剂、H2O2及其含量变化等对罗丹明B降解特征的影响.结果表明:含氧化敏感官能团结构的蒽醌类有机质在光照作用下,促进了Fenton反应的进行,使得罗丹明B脱色程度得到加强.这主要是因为蒽醌类有机质和模拟太阳光耦合作用过程驱动了体系中铁不同形态[Fe(Ⅲ)/Fe(Ⅱ)]之间的持续循环,为Fenton反应过程中关键活性物种羟基自由基的生成提供所了所必须的Fe(Ⅱ).     

基于污染物平衡分析的污水厂尾水补水城市内湖的优化运行研究——以昆明翠湖为例

针对污水厂尾水补水的城市内湖污染调控问题,提出了基于水量和污染物收支平衡分析的污染物净积累(NPA)模型,建立了污染物输入和输出量化计算方法.最后,以昆明翠湖为案例,在调查水体污染物输入和输出途径及水体自净量计算的基础上,选择COD、TN和TP为代表性污染物,开展了模型和计算方法的应用.结果表明,尾水补水是污染物输入的最主要途径,排水和渗漏是污染物输出的两个主要途径,COD在水体中的净积累程度较低,TN和TP的净积累比例分别达到42.9%和39.0%.以此为基础,本文提出了以调整补水和用水途径为主要手段的水体优化运行方案,并对方案实施后的预期效果进行了分析验证.本研究可为城市景观水体的污染物积累分析提供新方法和典型案例.     

活性污泥羟氨氧化还原酶粗酶提取及活性测定方法的优化研究

污水生物脱氮过程中N_2O的产生与活性污泥中细菌的羟氨氧化还原酶(Hydroxylamine oxidoreductase,HAO)活性有着密切关系.但目前活性污泥中细菌的HAO提取和活性测定方法尚未建立.本文首先探索了在25℃、酶活性反应液电子受体供体配比1∶1和终止剂选用2 mol·L~(-1)HCl条件下超声或高压破碎细胞法对HAO粗酶活性的影响,结果表明高压破碎比超声破碎获取的粗酶活性高(p0.01).在此基础上,我们进一步优化了高压破碎下压力大小、破碎次数和裂解液用量的参数.粗酶提取液中DNA含量、酶活力及酶比活力结果进行多因素方差分析表明压力大小(50、110或160 MPa)、破碎次数(1、2或3次)和裂解液用量(2、5或10 m L)均对脱氮活性污泥破碎效果、酶活性和比活力有显著影响(p0.01);综合DNA含量、酶活力及酶比活力结果看,110 MPa压力条件下,加5 m L裂解液破碎2次更适合污水生物处理中HAO的提取和活性测定,既节省时间,又能较好的保持酶活性.     

Removal of tetracycline from aqueous solution by a Fe3O4 incorporated PAN electrospun nanofiber mat

Pollution of antibiotics, a type of emerging contaminant, has become an issue of concern, due to their overuse in human and veterinary application, persistence in environment and great potential risk to human and animal health even at trace level. In this work, a novel adsorbent, Fe₃O₄ incorporated polyacrylonitrile nanofiber mat (Fe-NFM), was successfully fabricated via electrospinning and solvothermal method, targeting to remove tetracycline (TC), a typical class of antibiotics, from aqueous solution. Field emission scanning electron microscopy and X-ray diffraction spectroscopy were used to characterize the surface morphology and crystal structure of the Fe-NFM, and demonstrated that Fe-NFM was composed of continuous, randomly distributed uniform nanofibers with surface coating of Fe₃O₄ nanoparticles. A series of adsorption experiments were carried out to evaluate the removal efficiency of TC by the Fe-NFM. The pseudo-second-order kinetics model fitted better with the experimental data. The highest adsorption capacity was observed at initial solution pH 4 while relative high adsorption performance was obtained from initial solution pH 4 to 10. The adsorption of TC on Fe-NFM was a combination effect of both electrostatic interaction and complexation between TC and Fe-NFM. Freundlich isotherm model could better describe the adsorption isotherm. The maximum adsorption capacity calculated from Langmuir isotherm model was 315.31 mg/g. Compared to conventional nanoparticle adsorbents which have difficulties in downstream separation, the novel nanofiber mat can be simply installed as a modular compartment and easily separated from the aqueous medium, promising its huge potential in drinking and wastewater treatment for micro-pollutant removal.     

Removal of tetracycline from aqueous solution by a Fe3O4 incorporated PAN electrospun nanofiber mat

Pollution of antibiotics, a type of emerging contaminant, has become an issue of concern,due to their overuse in human and veterinary application, persistence in environment and great potential risk to human and animal health even at trace level. In this work, a novel adsorbent, Fe3O4 incorporated polyacrylonitrile nanofiber mat(Fe-NFM), was successfully fabricated via electrospinning and solvothermal method, targeting to remove tetracycline(TC), a typical class of antibiotics, from aqueous solution. Field emission scanning electron microscopy and X-ray diffraction spectroscopy were used to characterize the surface morphology and crystal structure of the Fe-NFM, and demonstrated that Fe-NFM was composed of continuous, randomly distributed uniform nanofibers with surface coating of Fe3O4 nanoparticles. A series of adsorption experiments were carried out to evaluate the removal efficiency of TC by the Fe-NFM. The pseudo-second-order kinetics model fitted better with the experimental data. The highest adsorption capacity was observed at initial solution p H 4 while relative high adsorption performance was obtained from initial solution p H 4 to 10. The adsorption of TC on Fe-NFM was a combination effect of both electrostatic interaction and complexation between TC and Fe-NFM. Freundlich isotherm model could better describe the adsorption isotherm. The maximum adsorption capacity calculated from Langmuir isotherm model was 315.31 mg/g. Compared to conventional nanoparticle adsorbents which have difficulties in downstream separation, the novel nanofiber mat can be simply installed as a modular compartment and easily separated from the aqueous medium, promising its huge potential in drinking and wastewater treatment for micro-pollutant removal.