废食用油活性炭脱色工艺的研究

脱色处理是提高废食用油油品质量、利用其生产生物柴油的关键环节之一.研究餐饮废食用油活性炭吸附脱色工艺,考察典型木质活性炭和煤基活性炭对脱色效果的影响,并将活性炭结构、性能指标与其脱色能力进行关联.结果表明,以弱粘性煤和褐煤为原料制备的活性炭对废食用油脱色效果较好;活性炭的总孔容积、总比表面积、微孔比表面积、微孔容积、碘值和亚甲基蓝值等性能指标与脱色效果关联度不大,而活性炭的孔径和中孔容积是决定活性炭脱色效果的主要指标.优化后废食用油活性炭脱色工艺的主要参数是:活性炭用量7%,炭粒度100～300目,脱色温度90～120℃,吸附时间为30 min,搅拌速度为10 r/min,废食用油的脱色率在50%～65%.     

复合式静电除尘器脱除电厂排放PM2.5研究

控制燃煤电厂的小颗粒PM2.5排放是控制大气可吸人颗粒物污染的重要途径之一.传统静电除尘器对亚微米级颗粒脱除效率较低,为提高脱除效率,建立了一种脉冲预荷电直流收尘的复合式除尘系统,采用较低能耗的高压窄脉冲放电对颗粒物预荷电,大大提高了亚微米级颗粒的荷电量.结合传统的直流静电除尘器可以大幅提高对亚微米级颗粒的脱除效率,对小于1μm的颗粒脱除效率可以达到90%以上.并分析了脉冲荷电的电源形式和电压等因素对脱除效率的影响,为改造传统静电除尘器提供了理论支持.     

Worldwide effects of non-native species on species–area relationships

Non-native species have invaded most parts of the world, and the invasion process is expected to continue and accelerate. Because many invading non-native species are likely to become permanent inhabitants, future consideration of species-area relationships (SARs) should account for non-native species, either separately or jointly with native species. If non-native species occupy unused niches and space in invaded areas and extinction rate of native species remains low (especially for plants), the resultant SARs (with both native and non-native species) will likely be stronger. We used published and newly compiled data (35 data sets worldwide) to examine how species invasions affect SARs across selected taxonomic groups and diverse ecosystems around the world. We first examined the SARs for native, non-native, and all species. We then investigated with linear regression analyses and paired or unpaired t tests how degree of invasion (proportion of non-native species) affected postinvasion SARs. Postinvasion SARs for all species (native plus non-native) became significantly stronger as degree of invasion increased (r² = 0.31, p = 0.0006), thus, reshaping SARs worldwide. Overall, native species still showed stronger and less variable SARs. Also, slopes for native species were steeper than for non-native species (0.298 vs. 0.153). There were some differences among non-native taxonomic groups in filling new niches (especially for birds) and between islands and mainland ecosystems. We also found evidence that invasions may increase equilibrial diversity. Study of such changing species–area curves may help determine the probability of future invasions and have practical implications for conservation.     

炉内喷钙脱硫的模拟

煤粉炉内喷钙脱硫是应用较为广泛的脱硫技术，运用逾渗理论建立氧化钙脱硫模型，用来模拟煤粉炉喷钙脱硫过程，并对脱硫影响因素：ＳＯ２浓度、温度、Ｃａ／Ｓ比等进行了研究，模拟计算显示了这些因素对脱硫效果的影响，其结果与试验数据相一致。通过该模型计算可以优化脱硫过程，对煤粉炉内喷钙脱硫有重要的指导意义。     

工业废弃物在煤燃烧过程中脱硫行为的研究

提出了采用工业废弃物作为煤燃烧高温脱硫剂和催化促进剂的思路，对催化促进脱硫的机理进行试验研究，在此基础上提出几种不同配方的脱硫添加剂，并进行详细的试验研究，最终在6t/h工业链条上取得50％左右脱硫率的结果。     

空调生产有机废气治理工艺设计

简单介绍了化学吸收法处理空调生产有机废气的工艺流程、主要单元设备和工艺设计参数以及该工艺系统的运行效果     

偏转二次风系统600MW燃煤锅炉NO_x排放特性及数值模拟

某 6 0 0MW四角切圆燃烧锅炉 ,采用顶部燃尽风系统并配合使用偏转二次风系统 ,炉膛下部二次风大角度正切 ,上部二次风和OFA风反切消旋 ,在炉膛截面水平方向和炉膛高度方向形成分级燃烧 .运行结果表明 ,该燃烧器布置方式能抑制炉内结渣 ,减轻炉膛出口扭转残余并能降低NOx 排放量 .通过工况试验 ,将锅炉的氮氧化物排放水平降低到国家标准限定值以下 .采用数值计算对该炉炉内流动、传热、燃烧和氮氧化物生成过程进行模拟     

污泥的热解动力学特性研究

采用差示热天平获得造纸污泥和污水处理厂污泥的ＴＧ，ＤＴＧ，ＤＴＡ曲线，对污泥燃烧的物理化学过程进行了详细分析．差热曲线的计算分析表明，污泥热解反应是一个一级反应过程，据此获得了污泥的动力学参数———频率因子和活化能，最后得到污泥的热解动力学方程．     

城市生活垃圾典型组分的热解动力学模型研究

对城市生活垃圾中的典型组分进行热重特性试验，根据热失重曲线得出了反应力学参数及反应速率控制方程，进而提出了一个通用的反应速率函数式，提出热解指数这个指标来表征垃圾的热解特性。结果表明：１．垃圾组分中，塑料、橡胶、植物类厨余热解符合三段模型，其余组分符合二段热解模型，在不同的温度范围内，热解的反应机理是不同的，且反应动力学参数也不相同。２．同一种组分，影响其反应速率的主要因素是反应动力学常数，升温速     

Land Use-related Chemical Composition of Street Sediments in Beijing

BACKGROUND: More than 10 million people are currently living in Beijing. This city faces severe anthropogenic air pollution caused by an intense vehicle increase (11% per year in China), coal combusting power plants, heavy industry, huge numbers of household and restaurant cookers, and domestic heating stoves. Additionally, each year dust storms are carrying particulate matter from the deserts of Gobi and Takla Makan towards Beijing, especially in spring. Other geogenic sources of particulate matter which contribute to the air pollution are bare soils, coal heaps and construction sites occurring in and around Beijing. Streets function as receptor surfaces for atmospheric dusts. Thus, street sediments consist of particles of different chemical compositions from many different sources, such as traffic, road side soils and industry. METHODS: Distributions and concentrations of various chemical elements in street sediments were investigated along a rural-urban transect in Beijing, China. Chemical elements were determined with X-ray fluorescence analysis. Factor analysis was used to extract most important element sources contributing to particulate pollution along a main arterial route of the Chinese capital. RESULTS AND DISCUSSION: The statistical evaluation of the data by factor analysis identifies three main anthropogenic sources responsible for the contamination of Beijing street sediments. The first source is a steel factory in the western part of Beijing. From this source, Mn, Fe, and Ti were emitted into the atmosphere through chimneys and by wind from coal heaps used as the primary energy source for the factory. The second source is a combination of traffic, domestic heating and some small factories in the center of Beijing discharging Cu, Pb, Zn and Sn. Calcium and Cr characterize a third anthropogenic element source of construction materials such as concrete and mortar. Beside the anthropogenic contamination, some elements like Y, Zr, Nb, Ce, and Rb are mainly derived from natural soils and from the deserts. This is supported by mineral phase analysis, which showed a clear imprint of material in road dusts coming from the West-China deserts. CONCLUSIONS: Our results clearly show that the chemical composition of urban road dusts can be used to identify distinct sources responsible for their contamination. The study demonstrates that the chemistry of road dusts is an important monitor to assess the contamination in the urban environment. Chemical composition of street sediments in Beijing comprises the information of different sources of atmospheric particles. RECOMMENDATIONS AND OUTLOOK: This study is only a small contribution to the understanding of substance fluxes related to Beijing's dust. More effort is required to assess Beijing's dust fluxes, since the dust harms the living quality of the inhabitants. Especially the measurable superimposing of long scale transported dust from dry regions with the anthropogenic polluted urban dust makes investigations of Beijing's dust scientifically valuable.