含油污泥制备高比表面积活性炭

以含油污泥为原料,氢氧化钠为活化剂,在氮气保护下,通过室内静态热解炉制备高比表面积活性炭。研究炭化温度、活化升温方式、活化温度、活化时间和碱碳质量比m(NaOH)／m(C)对高比表面活性炭的影响。采用全自动比表面与孔隙度分析仪、钨灯丝环境扫描电子显微镜等测试设备,分别对产品的比表面积与孔径分布、组成及微观形貌进行定性或定量分析。研究结果表明,含油污泥制备高比表面积活性炭的较佳条件为:炭化温度500℃,活化升温方式(c),活化温度800℃,活化时间1h, m(NaOH)／m(C)=2。采用本方法制备的活性炭比表面积大于2000m2/g,平均孔径小于2nm,总孔容大于2cm3/g,性能优于普通活性炭,可作为能源储存介质、电极材料、高效吸附剂的基础材料,为含油污泥的资源化利用提供了一条新途径。     

单极性SPWM逆变桥驱动方式研究

在工程实践中,单极性正弦脉宽调制（SPWM）逆变桥路具有多种驱动方式。理论分析、样机实验及软件仿真发现,不同的驱动方式造成了逆变桥臂单端输出波形、双端输出谐波上的差异。单臂斩波驱动时,桥臂中点的响应Ua为正半波不变、负半波抬高一个幅值的变异正弦波形,Ub为调制波频率的方波波形。双臂斩波驱动时,Ua和Ub呈现互差调制波半周期的正弦半波波形。就总的谐波系数（THD）而言,带同臂互补的驱动方式要优于不带同臂互补的驱动方式。通过研究这些差异,对在工程上正确合理地选择桥路的驱动方式无疑是有益的。     

煤化工废水中油泥的聚结分离与水中有机物的去除效果

针对煤化工废水中存在的高浓度油及油泥的问题,本研究制备了高电荷、低聚合度的无机复合材料和低电荷、高聚合度的有机复合材料,探究无机、有机复合材料协同作用下对煤化工废水中油及油泥的聚结分离效果以及对废水中有机物的去除特性。结果表明,无机、有机复合材料在复合比例为500∶1的条件下,废水中油和固体悬浮物（SS）去除率分别达到55%和98%;现场试验发现,无机、有机复合材料对油含量1700～2000mg/L,SS含量为1500～2000mg/L的废水,油和SS的去除率一直稳定于50%和95%左右,表现出较好的稳定性;进一步对废水中典型有机物的去除效果研究可知,该复合材料同时也对废水中各类有机物有较好的去除效果,多环芳烃（PAHs）、苯系物和酚类物质的去除率可达到82.85%、41.9%和37.56%。可以发现,无机、有机复合材料可有效解决煤化工废水中油及油泥的去除问题,具有广阔的产业化应用前景。     

V-notched rail shear test applied to geopolymer composites

This work presents a systematic study of the shear properties of a potassium-based geopolymer reinforced with distinct types of fibers. Chopped basalt reinforcements in lengths from 3 mm up to 50 mm and 13 μm in diameter were compared with thicker 20-mm length, basalt mini bars, sand-coated basalt mini rods, and steel fibers. The samples were tested under a V-notched rail shear tests (ASTM D7078), coupled with optical measurements, namely, digital image correlation, allowing a novel study of their crack patterns and failure modes under shear loading. In general, the use of chopped fibers resulted in shear strengths of up to 9 MPa and shear moduli of 4.3 GPa, with no significant variation with fiber length increments, neither in shear stress nor strain at peak load (0.1%). Mini bars and steel fiber reinforcements resulted in slightly lower shear stresses of 7.1 and 8.4 MPa, respectively. They exhibited greater strain values at peak loads, up to 2.1% which were attributed to fiber-matrix enhanced adhesions, thereby allowing gradual debonding and increased ductility. This effect was also recorded for mini rods, but at much lower strength levels, which did not contribute to their multiple cracking capacities. The alignment of the mini rods in 45° directions resulted in a 50% increase in shear stress, showing the feasibility of tailoring the manufacturing process to attend to distinct demands.     

邯钢二冷轧废水处理工程实践

介绍了邯钢二冷轧厂废水处理系统的工艺设计、特点与运行效果.废水处理系统根据分质处理原则,设计4条主处理流程协同处理,以电气浮、涡凹气浮、超滤、MBR、A/O生化工艺为核心工艺.经系统调试合格后正常投产,其运行效果稳定,出水水质达标,运行费用较低.     

Biochemistry and Molecular Biology of Carotenoid Biosynthesis in Chili Peppers (Capsicum spp.)

Capsicum species produce fruits that synthesize and accumulate carotenoid pigments, which are responsible for the fruits’ yellow, orange and red colors. Chili peppers have been used as an experimental model for studying the biochemical and molecular aspects of carotenoid biosynthesis. Most reports refer to the characterization of carotenoids and content determination in chili pepper fruits from different species, cultivars, varieties or genotypes. The types and levels of carotenoids differ between different chili pepper fruits, and they are also influenced by environmental conditions. Yellow-orange colors of chili pepper fruits are mainly due to the accumulation of α- and β-carotene, zeaxanthin, lutein and β-cryptoxanthin. Carotenoids such as capsanthin, capsorubin and capsanthin-5,6-epoxide confer the red colors. Chromoplasts are the sites of carotenoid pigment synthesis and storage. According to the most accepted theory, the synthesis of carotenoids in chili peppers is controlled by three loci: c1, c2 and y. Several enzymes participating in carotenoid biosynthesis in chili pepper fruits have been isolated and characterized, and the corresponding gene sequences have been reported. However, there is currently limited information on the molecular mechanisms that regulate this biosynthetic pathway. Approaches to gain more knowledge of the regulation of carotenoid biosynthesis are discussed.     

含油废水处理技术进展

本文阐述了各种含油废水处理的方法，其中对最常用的如气浮法、电化学法、絮凝法、生化法等的原理、应用及改进作了详细论述，并介绍了含油废水处理的最新研究成果，对各种方法的优缺点进行了比较。     

油田含油污水过滤器滤料原位清洗再生

通过分析发现滤料污染物主要成分为原油、硫化物等。针对污染物成分研制了有效的滤料再生剂,很好地解决了致密的混合污染物层难以清除的问题。研制了加药装置,确定了滤料原位再生工艺,现场应用取得了良好的效果。     

加压溶气浮选改为喷射溶气浮选技术小结

本文对含油废水浮选工艺的改造进行了总结,并介绍了喷射器的设计及喷射溶气浮选与加压溶气浮选的技术经济分析。