石灰石／石灰-石膏湿法脱硫浆液溢流问题研究

在火电厂石灰石／石灰一石膏湿法脱硫系统中,吸收塔浆液溢流是运行过程中常见的问题之一,它对FGD系统的稳定运行非常不利。分析了吸收塔浆液溢流的成因,介绍了浆液溢流对FGD系统运行的危害,提出了吸收塔浆液溢流的预防和处理措施。     

黄磷尾气中PH3液相催化净化研究

以Mn（Ⅱ）与Pd（Ⅱ）为催化剂的吸收净化溶液对黄磷尾气中的PH3进行了液相催化氧化研究。考察了混合气中02浓度、温度、入口PH3浓度、气体流量和吸收液pH变化与磷化氢净化效率曲线的关系。实验结果表明：混合气中较佳的氧含量为5％;在20℃至75℃范围内,低温对催化净化有利,较适宜的反应温度为20℃;较低的PH3入口浓度和低气速均有利于对PH3的净化;吸收液较高的pH有利于吸收液中催化剂催化效能的发挥。吸收液对PH3的净化效率可达100％,但因吸收液中的金属离子易与PH3产生的PO4^3-形成沉淀,使金属离子脱离液相催化氧化系统,吸收液失效较快。     

Mass flux from a non-aqueous phase liquid pool considering spontaneous expansion of a discontinuous gas phase

The partitioning of non-aqueous phase liquid (NAPL) compounds to a discontinuous gas phase results in the repeated spontaneous expansion, snap-off, and vertical mobilization of the gas phase. This mechanism has the potential to significantly affect the mass transfer processes that control the dissolution of NAPL pools by increasing the vertical transport of NAPL mass and increasing the total mass transfer rate from the surface of the pool. The extent to which this mechanism affects mass transfer from a NAPL pool depends on the rate of expansion and the mass of NAPL compound in the gas phase. This study used well-controlled bench-scale experiments under no-flow conditions to quantify for the first time the expansion of a discontinuous gas phase in the presence of NAPL. Air bubbles placed in glass vials containing NAPL increased significantly in volume, from a radius of 1.0 mm to 2.0 mm over 215 days in the presence of tetrachloroethene (PCE), and from a radius of 1.2 mm to 2.3 mm over 22 days in the presence of trans-1,2-dichloroethene (tDCE). A one-dimensional mass transfer model, fit to the experimental data, showed that this expansion could result in a mass flux from the NAPL pool that was similar in magnitude to the mass flux expected for the dissolution of a NAPL pool in a two-fluid (NAPL and water) system. Conditions favouring the significant effect of a discontinuous gas phase on mass transfer were identified as groundwater velocities less than ~0.01 m/day, and a gas phase that covers greater than ~10% of the pool surface area and is located within ~0.01 m of the pool surface. Under these conditions the mass transfer via a discontinuous gas phase is expected to affect, for example, efforts to locate NAPL source zones using aqueous concentration data, and predict the lifetime and risk associated with NAPL source zones in a way that is not currently included in the common conceptual models used to assess NAPL-contaminated sites.     

Phase partitioning modeling of ethanol, isopropanol, and methanol with BTEX compounds in water

This study investigates the equilibrium phase partitioning behavior of ethanol, isopropanol, and methanol in a two-phase liquid-liquid system consisting of water and an individual BTEX (Benzene, Toluene, Ethylbenzene, and Xylenes) compound. A previously developed computer program is enhanced to generate ternary phase diagrams for analysis of each three-component cosolvent-nonaqueous phase liquid (NAPL)-water mixture combination. The required activity coefficients are estimated using the UNIFAC (Universal Quasichemical Functional group Activity Coefficient) model. The UNIFAC-derived ternary phase diagrams generally show good agreement against published experimental data, and similar phase partitioning behavior is observed for every BTEX compound in the presence of the same cosolvent. Furthermore, a set of laboratory experiments is conducted to determine the maximum single-phase water content for every mixture combination considered in this study where the volume composition of the cosolvent and the NAPL components is a blend of 85% alcohol and 15% BTEX compound. Comparison of experimentally-derived maximum single-phase water contents against UNIFAC-derived results shows good agreement for mixtures containing ethanol and methanol, but relatively poor agreement for mixtures containing isopropanol.     

Variations in expression of carbon isotope fractionation of chlorinated ethenes during biologically enhanced PCE dissolution close to a source zone

The stable carbon isotope values of tetrachloroethene (PCE) and its degradation products were monitored during studies of biologically enhanced dissolution of PCE dense nonaqueous phase liquid (DNAPL) to determine the effect of PCE dissolution on observed isotope values. The degradation of PCE was monitored in a 2-dimensional model aquifer and in a pilot test cell (PTC) at Dover Air Force Base, both with emplaced PCE DNAPL sources. Within the plume down gradient from the source, the isotopic fractionation of dissolved PCE and its degradation products were consistent with those observed in biodegradation laboratory studies. However, close to the source zone significant shifts in the isotope values of dissolved PCE were not observed in either the model aquifer or PTC due to the constant input of newly dissolved, non fractionated PCE, and the small isotopic fractionation associated with PCE reductive dechlorination by the mixed microbial culture used. Therefore the identification of reductive dechlorination in the presence of PCE DNAPL was based upon the appearance of daughter products and the isotope values of those daughter products. An isotope model was developed to simulate isotope values of PCE during the dissolution and degradation of PCE adjacent to a DNAPL source zone. With the exception of very high degradation rate constants (>1/day) stable carbon isotope values of PCE estimated by the model remained within error of the isotope value of the PCE DNAPL, consistent with measured isotope values in the model aquifer and in the PTC.     

Characteristics of anoxic phosphors removal in sequence batch reactor

The characteristics of anaerobic phosphorus release and anoxic phosphorus uptake were investigated in sequencing batch reactors using denitrifying phosphorus removing bacteria （DPB） sludge. The lab-scale experiments were accomplished under conditions of various nitrite concentrations （5.5, 9.5, and 15 mg/L） and mixed liquor suspended solids （MLSS） （1844, 3231, and 6730 mg/L）. The results obtained confirmed that nitrite, MLSS, and pH were key factors, which had a significant impact on anaerobic phosphorus release and anoxic phosphorus uptake in the biological phosphorous removal process. The nitrites were able to successfully act as electron acceptors for phosphorous uptake at a limited concentration between 5.5 and 9.5 mg/L. The denitrification and dephosphorous were inhibited when the nitrite concentration reached 15 mg/L. This observation indicated that the nitrite would not inhibit phosphorus uptake before it exceeded a threshold concentration. It was assumed that an increase of MLSS concentration from 1844 mg/L to 6730 mg/L led to the increase of denitrification and anoxic P-uptake rate. On the contrary, the average P-uptake/N denitrifying reduced from 2.10 to 1.57 mg PO4^3--P/mg NO3^--N. Therefore, it could be concluded that increasing MLSS of the DEPHANOX system might shorten the reaction time of phosphorus release and anoxic phosphorus uptake. However, excessive MLSS might reduce the specific denitrifying rate. Meanwhile, a rapid pH increase occurred at the beginning of the anoxic conditions as a result of denitrification and anoxic phosphate uptake. Anaerobic P release rate increased with an increase in pH. Moreover, when pH exceeded a relatively high value of 8.0, the dissolved P concentration decreased in the liquid phase, because of chemical precipitation. This observation suggested that pH should be strictly controlled below 8.0 to avoid chemical precipitation if the biological denitrifying phosphorus removal capability is to be studied accurately.     

真菌对好氧颗粒污泥稳定性的影响

通过对好氧颗粒污泥中真菌的分离、纯化,得到13株丝状真菌,其中含8种酵母菌、3种霉菌和2种放线菌。进一步鉴定后,选出其中4株真菌分别接入到灭菌后的污泥消化液内,考察其对污泥消化液中有机物的降解特性。研究发现,颗粒污泥内的真菌对消化液中有机物具有较好的降解能力,其最大去除率可达40%。由此表明,丝状真菌不仅能依靠其结构特性增强颗粒污物稳定性,而且可以消除细菌代谢产物在颗粒内的积累,改善颗粒内微生物生态环境,从而提高颗粒污泥的稳定性。     

乳状液膜技术在处理重金属废水中的研究和应用

重金属废水来源广泛且危害极大,利用乳状液膜技术处理重金属废水能实现环境保护与资源回收的双重目的。文中介绍了这一领域中的研究和应用情况,并针对不足之处提出了新的建议。      

液膜乳化法处理炼油厂精制石蜡废白土

稀碱液在蒸汽搅拌作用下与含蜡废白土接触反应以减弱和破坏废白土的表面能、孔结构及酸性吸附中心的活性,使石蜡充分释出,同时,反应生成物构成的表面活性剂所产生的乳化作用,促使石蜡充分转入水相,形成水包油的不稳定液膜,加水稀释后自然破乳化,石蜡回收率可达90％.     

蛋白核小球藻(Chlorella pyrenoidosa)微板毒性分析方法优化

以蛋白核小球藻(Chlorella pyrenoidosa,CP)为指示生物,96孔微板为暴露载体,污染物对藻的72 h生长抑制率为毒性指标,通过系统地检测蛋白核小球藻的生长曲线和吸收光谱,确定藻细胞密度和683 nm波长处光密度(D₆₈₃)之间的线性关系,考察不同初始藻密度、照度、暴露时间和暴露体积对藻生长的影响,建立了蛋白核小球藻微板毒性分析方法(CP-MTA法).将CP-MTA法应用于重金属盐、除草剂、杀虫剂以及离子液体等8种化学品对蛋白核小球藻的生长抑制毒性测试,以pEC₅₀为毒性指标,毒性大小顺序为敌草快>CuSO₄·5H₂O≈CdCl₂·2.5H₂O>氯化1-甲基-3-辛基咪唑(［Omim］Cl)>草甘膦>氯化1-甲基-3-丁基咪唑(［Bmim］Cl)>敌敌畏>乐果,与文献结果一致.CP-MTA法由于以微板为反应载体,所需样品少,便于多次平行,数据重复性好.