石墨相氮化碳协同UV-H_2O_2光催化降解亚甲基蓝

以三聚氰胺为前驱体,经热解—回流法制备了石墨相氮化碳(g-C3N4),采用XRD、FTIR、SEM、EDS、PL等技术对g-C_3N_4进行了表征。研究了g-C_3N_4在UV-H_2O_2体系中对废水中亚甲基蓝(MB)的光降解效果。实验结果表明,UV+g-C_3N_4催化剂+H_2O_2体系能协同降解MB,在初始MB质量浓度为20 mg/L、初始废水p H为5、废水体积为250 mL、g-C_3N_4加入量为0.10 g、H_2O_2浓度为0.4 mmol/L、反应温度为25℃的优化工艺条件下,紫外光照射70 min时MB脱色率达98.32%。g-C_3N_4催化剂具有较好的重复使用性能,使用5次后MB脱色率仍保持在95.10%。     

PW_(12)/g-C_3N_4光催化降解甲基橙

采用浸渍法制备了磷钨酸(PW12)/g-C3N4复合光催化剂,并将其用于溶液中甲基橙的光催化降解,运用IR技术对使用前后的光催化剂进行了表征。表征结果显示,PW12和g-C3N4的结构未在浸渍负载中发生改变,且PW12和g-C3N4结合牢固。实验结果表明:最佳的PW12负载量(光催化剂中PW12的质量分数)为50%;光催化降解甲基橙的优化反应条件为初始甲基橙质量浓度5 mg/L、光催化剂加入量0.6 g/L、初始溶液p H=7;在优化条件下,分别采用紫外光、模拟太阳光、可见光照射120 min后,甲基橙的降解率分别为96.59%,82.23%,42.78%;该光催化剂固载良好,使用中不易发生溶脱,稳定性好,可重复使用。     

UV/O3催化氧化法处理发酵废水中难降解有机物的研究

以UV／O3氧化法降解生化处理后的发酵有机废水为处理体系，研究了活性炭、二氧化钛对废水中难降解有机物的UV／O3催化活性，考察了催化剂用量以及活性炭和二氧化钛的协同催化效果。结果表明，活性炭与二氧化钛均能明显加快反应速率，提高CODcr去除率并缩短反应时间，且活性炭与TiO2协同催化效果更好，二者以最佳比例(6：1)作用，反应4h后，废水的CODcr去除率达到85％以上。     

氮掺杂活性炭催化湿式氧化—Ca(OH)_2沉淀工艺去除草甘膦废水中的磷

用30%(w)H_2O_2溶液氧化处理活性炭(AC),再以三聚氰胺为含氮前驱体经高温处理制得氮掺杂AC催化剂。采用催化湿式氧化(CWO)法去除草甘膦废水中的有机磷(OP),将其彻底氧化降解为PO_4~(3-),再利用Ca(OH)_2沉淀法去除总磷(TP)。表征结果显示:氮掺杂改性可在AC表面形成多种含氮碱性官能团,从而提高其对OP的催化氧化活性。实验结果表明:在温和的工艺条件下(130℃,1 MPa),该催化剂对不同来源废水的OP去除率均高于90%;当m(Ca(OH)_2)∶m(TP)为20时,Ca(OH)_2沉淀可有效去除CWO出水中的TP,最终出水TP质量浓度小于5 mg/L,可有效缓解后续生化系统除磷的压力。     

可见光催化剂BiVO_4 降解废水中直接耐酸大红4BS

以直接耐酸大红4BS模拟染料废水为目标污染物,研究了BiVO_4对直接耐酸大红4BS(简称4BS)的吸附效果以及废水初始质量浓度、废水pH和BiVO_4的加入量对光催化降解效果的影响.实验结果表明:当废水初始质量浓度为40 mg/L、废水pH为6.38、BiVO_4加入量为1.0 g/L时,4BS的降解率可达98.9%;BiVO_4重复使用5次后4BS的降解率可达80.0%以上;COD的变化趋势说明4BS被催化剂吸附和光催化降解的过程是循序渐进的.     

SBR工艺脱除苯胺废水中的总氮

采用SBR工艺脱除苯胺废水中的总氮。实验结果表明:在废水温度为30℃、废水pH为7.8、COD为513.6mg/L、ρ(NH3-N)为75.95mg/L、总氮质量浓度为521mg/L、m(C)∶m(N)为1∶1、不补充碳源的条件下,停曝搅拌时间需8h,废水的总氮去除率为22.0%。以甲醇作为补充碳源,当m(C)∶m(N)为3∶1时,总氮去除率较低,停曝搅拌时间需10h;当m(C)∶m(N)为5∶1时,总氮去除率较高,达46.5%,停曝搅拌时间需12h。补充碳源为甲醇时,所需停曝搅拌时间最短,总氮去除率最高,优于以葡萄糖和有机废水为碳源。     

微波诱导水解法制备纳米TiO_2及光催化降解盐酸四环素

采用微波诱导水解法快速制备了纳米TiO_2光催化剂,通过XRD、TEM、SEM、BET和EDS技术对其进行了表征。该方法可在10 min内制备出平均粒径约7.5 nm的锐钛矿相纳米TiO_2。采用该催化剂(加入量0.5 g/L)对盐酸四环素(TC,100 mg/L)进行紫外光催化降解,40 min时降解率高达92.9%,60 min时TOC去除率为81.7%,明显优于市售P25纳米TiO_2。这主要归功于所制备纳米TiO_2表面残留的有机物提高了光生电子-空穴对的分离能力,以及纳米粒子的小尺寸效应和较大的比表面积。溶液p H为9时TC的降解率更高。该催化剂具有较好的光催化稳定性。活性基团捕获实验表明,纳米TiO_2光催化降解TC过程中空穴起主要作用。     

Fe3O4-PTFE电极制备条件和双阴极电-Fenton反应条件的优化

制备了Fe₃O₄-聚四氟乙烯（PTFE）电极,优化了原料配比和焙烧温度。对比了Fe₃O₄-PTFE单阴极和Fe₃O₄-PTFE与乙炔碳黑-PTFE电极并联双阴极体系对模拟Rhb染料废水的处理效果。实验结果表明：在m（Fe₃O₄）∶m（PTFE）=3.0∶2.5、焙烧温度为300 ℃的条件下制备Fe₃O₄-PTFE电极,采用阴极电-Fenton法降解模拟Rhb废水的效果最佳,电解反应120 min时Rhb降解率达86.91%;Fe₃O₄-PTFE电极与乙炔碳黑-PTFE电极并联作为双阴极电解Rhb废水时,最佳电压为6 V,最佳初始废水pH为3,在此条件下电解反应120 min时Rhb降解率达91.65%。     

吸附—光催化氧化法处理模拟亚甲基蓝废水

以粉煤灰基沸石为载体制备TiO2/沸石光催化剂,采用SEM和XRD对产物进行表征,并考察其对模似废水中亚甲基蓝(MB)的光催化降解活性及再生后的催化性能.实验结果表明:光催化剂中的TiO2主要为锐钛矿晶型;MB降解过程遵循—级Langmuir-Hinshelwood动力学方程;当光照时间为3h、MB质量浓度为10 mg/L、废水pH为7、TiO2/沸石加入量为1.5 g/L时,MB废水的脱色率可达96.46％;经200 W超声波、450℃热再生处理40 min后,再生催化剂对废水的脱色率为73.04％;再生催化剂重复使用8次后,废水脱色率仍可达43.27％.     

纳米FeVO_4的制备及其可见光下降解甲苯的性能

以Fe(NO3)3或FeCl3作为铁源,采用水热法制备了纳米FeVO4光催化剂,通过XRD、SEM、DRS等手段表征了所合成FeVO4的物相、表面形貌及光学性质,研究了其可见光下光催化降解甲苯的性能。表征结果显示:FeVO4平均晶粒尺寸约为75 nm,为棒状;FeVO4在可见光区域(λ400 nm)表现出较高的吸光性,其吸光区域可红移至约600 nm;以FeCl3为铁源,水热反应3 h制备的FeVO4的禁带宽度为2.1 e V;以Fe(NO3)3为铁源制备的FeVO4的比表面积(74.70 m2/g)大于以FeCl3为铁源制备的FeVO4的比表面积(67.72 m2/g)。在初始甲苯质量浓度为494 mg/L、FeVO4为光催化剂、反应4 h的条件下,甲苯降解率达62%。甲苯降解最终产物为CO2和H2O。     

Determination of the Thermal Efficiency of Pre-boilover Burning of a Slick of Oil on Water

The burning rate of a slick of oil on a water bed is calculated by a simple expression derived from a one-dimensional heat conduction equation. Heat feedback from the flame to the surface is assumed to be a constant fraction of the total energy released by the combustion reaction. The constant fraction (χ) is named the burning efficiency and represents an important tool in assessing the potential of in situ burning as a counter-measure to an oil-spill. The total heat release, as a function of the pool diameter, is obtained from an existing correlation. It is assumed that radiative heat is absorbed close to the fuel surface, that conduction is the dominant mode of heat transfer in the liquid phase and that the fuel boiling temperature remains constant. By matching the characteristic thermal penetration length scale for the fuel/water system and an equivalent single layer system, a combined thermal diffusivity can be calculated and used to obtain an analytical solution for the burning rate. Theoretical expressions were correlated with crude oil and heating oil, for a number of pool diameters and initial fuel layer thickness. Experiments were also conducted with emulsified and weathered crude oil. The simple analytical expression describes well the effects of pool diameter and initial fuel layer thickness permitting a better observation of the effects of weathering, emulsification and net heat feedback to the fuel surface. Experiments showed that only a small fraction of the heat released by the flame is retained by the fuel layer and water bed (of the order of 1%). The effect of weathering on the burning rate decreases with the weathering period and that emulsification results in a linear decrease of the burning rate with water content.     

Calculation of carbon balances for evaluation of the biodegradability of polymers

Establishing carbon balances has been proven to be an applicable and powerful tool in testing biodegradability of polymers. In controlled degradation tests at a 4-L scale with the model polymer poly(-hydroxybutyrate) (PHB), it was shown that the degree of degradation could not be determined with satisfactory accuracy from CO₂ release alone. Instead, the course of degradation was characterized by means of establishing carbon balances for the degradation of PHB withAcidovorax facilis and a mixed culture derived from compost. Different analytical methods for determining the different carbon fractions were adapted to the particular test conditions and compared. Quantitative determination of biomass and residual polymer were the main problems in establishing carbon balances. Amounts of biomass derived from protein measurements depend strongly on assumptions of the protein content of the biomass. Selective oxidation of biomass with hypochlorite was used as alternative, but here problems arose from insoluble metabolic products. Determination of soluble components with the method of chemical oxygen demand (COD) also includes empirical assumptions but seems acceptable if the dissolved carbon fraction is in the range of some 10% total carbon. Results confirm both analytical assays and theoretical approaches, in ending up at values very close to 100%, within an acceptable standard deviation range under test conditions comparable to standard test practice.Paper presented at the Bio/Environmentally Degradable Polymer Society—Third National Meeting, June 6–8, 1994, Boston, Massachusetts.     

富拉尔基发电总厂200MW机组除尘器改造

对富拉尔基发电总厂5号炉的设计条件进行了分析，针对燃用低硫煤，飞灰比电阻高，场地较小，除尘效率要求高的情况，在电除尘器的设计上采取有效措施，达到了排放要求。     

Review of the kinetics of alkaline degradation of cellulose in view of its relevance for safety assessment of radioactive waste repositories

The degradation of cellulose (a substantial component of low- and intermediate-level radioactive waste) under alkaline conditions occurs via two main processes: a peeling-off reaction and a basecatalyzed cleavage of glycosidic bonds (hydrolysis). Both processes show pseudo-first-order kinetics. At ambient temperature, the peeling-off process is the dominant degradation mechanism, resulting in the formation of mainly isosaccharinic acid. The degradation depends strongly on the degree of polymerization (DP) and on the number of reducing end groups present in cellulose. Beyond pH 12.5, the OH^- concentration has only a minor effect on the degradation rate. It was estimated that under repository conditions (alkaline environment, pH 13.3-12.5) about 10% of the cellulosic materials (average DP = 1000-2000) will degrade in the first stage (up to 10⁵ years) by the peeling-off reaction and will cause an ingrowth of isosaccharinic acid in the interstitial cement pore water. In the second stage (10⁵-10⁶ years), alkaline hydrolysis will control the further degradation of the cellulose. The potential role of microorganisms in the degradation of cellulose under alkaline conditions could not be evaluated. Proper assessment of the effect of cellulose degradation on the mobilization of radionuclides basically requires knowing the concentration of isosaccharinic acid in the pore water. This concentration, however, depends on several factors such as the stability of ISA under alkaline conditions, sorption of ISA on cement, formation of sparingly soluble ISA-salts, etc. A discussion of all the relevant processes involved, however, is far beyond the scope of the presented overview.     

Study of Aging Characteristics of Ternary Blends of Polyethylenes—II

Six film samples of low-density polypropylene (LDPE)/linear LDPE (LLDPE)/high-density polypropylene (HDPE) with varying ratios of LDPE (20–45 ... wt%) and LLDPE (25–50 wt%) having a fixed amount of HDPE at 30 wt% were prepared by blown film extrusion technique. The samples were aged at four different temperatures, 55°, 70°, 85°, and 100°C, for four different time periods in the interval of between 150 hours and up to 600 hours. The change in the structure of various constituents and the formation of various oxygenated (peroxy and hydroperoxy) and unsaturated groups during thermo-oxidative degradation was discussed by infrared spectroscopy. The visiosity-average molecular weight was found to have decreased slowly in the initial aging hours and temperatures, whereas it decreased by 10% with its previous value tensile strength that is, 100°C when aged for 600 hours. The tensile strength of the sample first increased by 67% at 55°C and 89% at 70°C up to 450 hours, whereas the values increased by 52.5% at 85°C and 33.9% at 100°C when aged for 150 hours and then decreased. The percentage elongation at break increased by 2.7% at 55°C and 10.7% at 70°C for 150 and 300 hours of aging, respectively, whereas the percentage decreased when aged at 85°C and 100°C for up to 600 hours of aging. The values of gel content (percent) increased and initial degradation temperature decreased with aging time and temperature.     

Selection of adsorbents for treatment of leachate: batch studies of simultaneous adsorption of heavy metals

The simultaneous adsorption of copper (Cu), cadmium (Cd), nickel (Ni), and lead (Pb) ions from spiked deionized water and spiked leachate onto natural materials (peat A and B), by-product or waste materials (carbon-containing ash, paper pellets, pine bark, and semi-coke), and synthetic materials (based on urea-formaldehyde resins, called blue and red adsorbents) or mixtures thereof was investigated. The adsorbents that gave the highest metal removal efficiencies were peat A, a mixture of peat B and carbon-containing ash, and a mixture of peat A and blue. At an initial concentration of 5 mg/l for each metal, the removal of each species of metal ion from spiked water and spiked leachate solutions was very good (>90%) and good (>75%), respectively. When the initial concentration of each metal in the solutions was twenty times higher (100 mg/l), there was a noticeable decrease in the removal efficiency of Cu²⁺, Cd²⁺, and Ni²⁺, but not of Pb²⁺. Langmuir monolayer adsorption capacities, q_m, on peat A were found to be 0.57, 0.37, and 0.36 mmol/g for Pb²⁺, Cd²⁺, and Ni²⁺, respectively. The order of metal adsorption capacity on peat A was the same in the case of competitive multimetal adsorption conditions as it was for single-element adsorption, namely Pb²⁺ > Cd²⁺ ≥ Ni²⁺. The results show that peat alone (an inexpensive adsorbent) is a good adsorbent for heavy metal ions.     

袋式除尘器气流分布数值计算研究

采用结构化/非结构化混合网格技术、多孔介质模型及k-ε两方程湍流模型,对某袋式除尘器及进出口管道内的气体流场进行了数值计算.计算结果表明,合理布置导流板后,袋式除尘器两箱体流量偏差为1.8％;除尘器下游滤袋单元处理气量偏大,中游滤袋单元处理气量较小,最大流量与最小流量偏差为22.3％；靠近除尘器进口处灰斗内存在气流回流特性,易造成粉尘的二次附着现象.     

Effect of Degree of Substitution of Octenyl Succinate Starch on Enzymatic Degradation

Octenyl succinate starch of degree of substitution (ds) 0.03, 0.07, and 0.11 was synthesized in an aqueous medium. These compounds were then tested for the susceptibility to enzymatic degradation. The multiple-enzyme regime of -amylase, amyloglucosidase, and pullulanase was chosen for the evaluation. This combination of enzymes had been proven to degrade 99.5% of unmodified starch to glucose and hence was chosen for this study. It was found that even small amounts of subsituent caused a considerable decrease in the extent of degradation. The net extent of degradation decreased with increasing ds. Surprisingly, the amount of glucose from all three substituted substrates was quite similar, suggesting the effect small amounts of subtituent had on the enzymatic activity.     

Effects of temperature on the release of nutrient elements of solid organic materials under conditions of oversaturation

The effects of temperature on the release of chemical components of six solid organic materials under conditions of oversaturation were investigated in this paper. The six materials were peat moss (PM), weathered coals (WC), charred rice husks (CRH), sawdust (Sd), turfgrass clippings (TC), and chicken manure (CM). Significant differences were observed in the available nitrogen and phosphorus content of the aqueous extracts of organic materials at different temperatures. The available nitrogen content in aqueous extracts of PM and WC at 25 °C was higher than that registered at 15 °C and 35 °C. Available nitrogen content in the aqueous extracts of CRH, Sd, TC, and WC at 35 °C was higher than at 15 °C and 25 °C. The available phosphorus content in the aqueous extracts of organic materials at 35 °C was higher than that available at 15 °C and 25 °C, with the exception of Sd. In addition, the release of available phosphorus in the aqueous solution of organic materials at different temperatures varied constantly for 108 h. The release of potassium (K⁺) and sodium (Na⁺) ions in the aqueous extracts of organic materials was basically steady over time, with the exception of CM. High temperature (35 °C) may significantly hasten the release of K⁺ from organic substrates (except for WC) with low temperatures significantly inhibiting release of K⁺ in Sd and CRH. High temperatures (35 °C) might significantly facilitate the release of Na⁺ in CM and TC. However, no significant differences were manifested in the release of Na⁺ from organic substrates at different temperatures, with the exception of CM and TC. Moreover, no significant differences were observed in the release of calcium, magnesium and iron ions with time, nor were there any significant differences in the contents of iron ions in the aqueous extracts of organic materials at different temperatures. The results indicate that multiple mediums should be pretreated in water for a week before being used for planting. They should be used when all mineral elements of organic materials are steady and ignoring the effect of organic mediums.     

Kinetics of Hydrolytic Degradation of PLA

The chemical recycling of poly(lactic acid) (PLA) to its monomer is crucial to reduce both the consumption of renewable resources for the monomer synthesis and the environmental impact related to its production and disposal. In particular, the production of lactic acid from PLA wastes, rather than from virgin raw materials, it is also possible to achieve considerable primary energy savings. The focus of this work is to analyse deeply the PLA hydrolytic decomposition by means of a kinetic model based on two reactions mechanism. To this end, new experimental data have been gathered in order to investigate a wider temperature range (from 140 to 180 °C) and to extend the water/PLA ratio up to 50 % of PLA by weight. The reported results clearly highlight that more than 95 % of PLA is hydrolyzed to water-soluble lactic acid within 120 min, when it is hydrolyzed within 160–180 °C. Furthermore, the kinetic constant is highly influenced by reaction temperature. The proposed “two reactions” kinetic mechanism complies satisfactorily with the experimental data under analysis.