海洋柴油溢油油水快速分离的应用研究

针对海洋柴油溢油,采用破乳剂对油水快速分离进行了研究.分别对油水比、温度、破乳剂量及存在Ca2 、Mg2 的影响因素,进行了系列油水快速分离试验,并测定了破乳剂作用下乳液的界面张力.试验结果表明,柴油溢油形成的乳液稳定性较差,油水分离较容易,但分离后的水中含油量较高.加入聚醚类非离子型破乳剂FA、FB、FC和FD,可达到油水低温、快速分离的目的,且分离后的水中含油量较低.随着破乳剂浓度的增加,界面张力降低,当破乳剂浓度达到临界胶束浓度(CMC)时,界面张力最小,脱水效果最好.Ca2 、Mg2 对聚醚类非离子型破乳剂的影响很小.     

Fenton试剂处理有机氯农药废水的研究

研究了Fenton氧化法预处理有机氯农药废水的反应特性.通过正交实验确定了氧化反应各种影响因子的最佳操作条件.在此条件下,废水1、2的COD去除率分别为47.8%和87.9%;色度去除率分别为84.4%和99.4%.Fenton试剂处理后,2种废水的可生化性也得到了提高.在各影响因子与COD去除率的关系曲线基础上,分析了废水中各影响因子的作用机理.     

Mobilization of soil organic matter by complexing agents and implications for polycyclic aromatic hydrocarbon desorption

Complexing agents are frequently used in treatment technologies to remediate soils, sediments and wastes contaminated with toxic metals. The present study reports results that indicate that the rate and extent of soil organic matter (SOM) as represented by dissolved natural organic carbon (DNOC) and polycyclic aromatic hydrocarbon (PAH) desorption from a contaminated soil from a manufactured gas plant (MGP) site can be significantly enhanced with the aid of complexing agents. Desorption of DNOC and PAH compounds was pH dependent, with minimal release occurring at pH 2-3 and maximal release at pH 7-8. At pH-6, chelate solutions were shown to dissolve large amounts of humic substances from the soil compared to controls. The complexing agents mobilized polyvalent metal ions, particularly Fe and Al from the soil. Metal ion chelation may disrupt humic (metal ion)-mineral linkages, resulting in mobilization of SOM and accompanying PAH molecules into the aqueous phase; and/or reduce the degree of cross-linking in the soil organic matter phase, which could accelerate PAH diffusion.     

Investigation of aerosol and gas emissions from a coal-fired power plant under various operating conditions

The concentrations of fine particles and selected gas pollutants in the flue gas entering the stack were measured under several common operation modes in an operating coal power plant producing electricity. Particle size distributions in a diameter range from 10 nm to 20 μm were measured by a scanning mobility particle sizer (SMPS), and the flue gas temperature and concentrations of CO₂ and SO₂ were monitored by a continuous emission monitoring system (CEMS). During the test campaign, five plant operating modes were studied: soot blowing, bypass of flue-gas desulfurization (FGD), reheat burner operating at 0% (turned off), 27%, and 42% (normal condition) of its full capacity. For wet and dry aerosols, the measured mode sizes were both around 40 nm, but remarkable differences were observed in the number concentrations (#/cm³, count per square centimeter). A prototype photoionizer enhanced electrostatic precipitator (ESP) showed improved removal efficiency of wet particles at voltages above +11.0 kV. Soot blowing and FGD bypass both increased the total particle number concentration in the flue gas. The temperature was slightly increased by the FGD bypass mode and varied significantly as the rating of reheat burner changed. The variations of CO₂ and SO₂ emissions showed correlations with the trend of total particle number concentration possibly due to the transitions between gas and particle phases. The results are useful in developing coal-fired power plant operation strategies to control fine particle emissions and developing amine-based CO₂ capture technologies without operating and environmental concerns associated with volatile amine emissions.

Implications: The measurement of the fine particle size distributions in the exhaust gas under several common operating conditions of a coal-fired power plant revealed different response relations between aerosol number concentration and the operating condition. A photo-ionizer enhanced ESP was demonstrated to capture fine particles with higher efficiency compared to conventional ESPs, and the removal efficiency increased with the applied voltage. The characteristic information of aerosols and main gaseous pollutants in the exhaust gas is extremely important for developing and deploying CO₂ scrubbers, whose amine emissions and operating effectiveness depends greatly on the upstream concentrations of fine particles, SO₂, from the power plant.     

SO2的气相光催化氧化及催化剂的失活和再生研究

在模拟大气环境中,紫外光照射以及纳米TiO2光催化剂的作用下,气相无机污染物SO2被完全氧化为SO3或H2SO4.本文提出了SO2的非均相光催化氧化机理,并得出光催化反应速率符合一级动力学过程;经过连续使用之后,TiO2的光催化活性降低,最后活性消失;经过水洗之后,失活的TiO2可以得到再生.失活的TiO2和新鲜的TiO2的IR和XPS光谱差异表明,失活的TiO2表面存在H2SO4,其被认为是使催化剂失活的成分.     

酸性媒介黄GG生物降解性能的试验研究

通过试验研究酸性媒介黄GG染料在厌氧、好氧条件下的生物降解机理、降解能力及共代谢降解效果.试验结果表明,厌氧菌能够通过葡萄糖共代谢作用很快降解酸性媒介黄GG;而好氧条件下经驯化活性污泥不能降解酸性媒介黄GG,经过较长时间驯化活性污泥能降解酸性媒介黄GG,但降解效果很差.葡萄糖浓度的升高对提高酸性媒介黄GG厌氧生物降解率有利,当葡萄糖浓度为2000 mg/L时,40mg/L酸性媒介黄GG的12和60 h厌氧生物降解率分别达到81.5%和93.5%.酸性媒介黄GG浓度对厌氧菌的生物降解能力也有影响.当葡萄糖浓度为2000 mg/L,酸性媒介黄GG(浓度为20～100 mg/L)的厌氧降解率最好,降解效率达到了94%,说明厌氧菌对酸性媒介黄GG的降解能力较好.     

生物强化系统微生物分子诊断技术的应用及新发展

现代分子生物技术的飞速发展及其在环境研究领域的应用，为生物强化技术的研究和发展提供了新方法和新思路。本文从生物强化系统特异微生物检测及定量化技术、生物强化系统微生物群落结构组成及动态演替规律研究、生物强化作用机制的分子生物学解析、生物强化菌的基因工程构建、生物强化系统微生物的安全释放及控制技术几方面，对生物强化系统微生物分子诊断技术的应用和发展作了较为全面的综述。     

固体废弃物轮胎的热解技术

综述了国内外对废轮胎的处理状况，并详细地讨论了废轮胎热解技术的发展、分类以及典型工艺流程。热解技术主要包括油化技术、气化技术和炭化技术三种，并可制得衍生油、燃料气、碳黑等产品。分析了废轮胎热解工艺存在的问题，指出了如何开发环境友好的集成工艺是废轮胎热解工艺的发展方向。