磁场对酪氨酸酶活性及其催化降解酚类有机物影响的研究

研究了恒磁场对酪氨酸酶(TYR)活性及其催化降解酚类有机物的影响.结果显示,不同磁场强度(10～350 mT)处理下TYR酶活性均有提高,最佳磁场强度150mT下酶活力提高了27.1%.不同磁化时间下TYR酶活都有上升,但磁化60min后酶活上升幅度有所下降.酶经磁场处理后对温度、pH值稳定性增强,在温度为20～35 ℃、pH为5.0～10.0时均能保持较高活性,最佳温度为25℃,最佳pH为7.0;磁化后TYR酶的Michaelis常数Km为3.83 mmol·L-1,未磁化的Michaelis常数Km为2.65 mmol·L-1.磁场作用可促进TYR对酚类有机物邻苯二酚、苯酚、2,4-二氯酚的转化,反应速度依次递减,磁化处理对邻苯二酚反应的促进作用尤其明显;磁化处理后的酶对不同浓度苯酚和2,4-二氯酚的去除率均明显高于未磁化处理的酶,且随着酶用量增加,酚去除率提高.荧光发射光谱分析表明,磁化酪氨酸酶的荧光强度增强,构像发生了变化.     

酚类化合物在矿化垃圾中的吸附性能与结构相关性研究

采用静态吸附方法,对8种酚类化合物在矿化垃圾中的吸附行为进行了研究,并用Langmuir和Fieundlish等温吸附方程对其进行了拟合.研究结果表明,8种代酚的吸附能力大小顺序为3-甲基酚＞4-甲氧基酚＞4-氯酚＞2,4-二氯酚＞3-硝基酚＞4-硝基酚＞2-氯酚＞苯酚.对8种酚类化合物Langmuir和Frendlich等温吸附方程常数和18个量子化学参数采用PLS进行逐步回归分析,得到了以Frendlich方程参数lnκ为因变量的数学模型.该模型表明,有机酚在矿化垃圾中的吸附性能主要与有机酚分子的疏水性和极性有关.而且该模型得到的预测值与实测值接近,说明利用PLS进行回归处理得到的模型较为合理、能有效地预测有机酚类化合物在矿化垃圾中的吸附行为.     

复合催化氧化技术对油气田压裂返排液的处理研究

酸化压裂作业废水是石油天然气生产过程中的主要污染源,它的污染成份复杂,有害物质浓度高,特别是含有胍胶和表面活性剂等高分子物质,具有高COD、高稳定度、高粘度的特点.本文通过对压裂液的来源、水质特征、治理现状等常用方法的分析,确定了物理化学脱稳,过滤、O3/H2O2复合催化氧化、深度氧化的达标治理工艺路线.经过处理后的压裂液澄清透明,达到国家二级排放标准(GB8978-96).     

植物油脂废水处理工艺经济性分析

分析了植物油废水处理工艺，从工艺流程选择、预处理单元组合，絮凝剂优选、生物处理、污泥处理几方面讨论了提高植物油废水处理经济性的措施。     

油种指示物（指标）的研究

从油种、实验误差以及风化的影响对中国常见油种鉴别进行了探讨，确定了油种GC-FID指标物。结果表明，油种指示物在环境中保持着本身的一些固有特性，受实验误差和风化的影响较小。     

油气田开发与炼化企业硫化氢危害分析与预防

分析了油田开发和炼油化工生产过程中H2S的分布区域、特点及危害.通过对66起H2S中毒事故的分析,指出在设备及管线的吹扫、堵漏、拆卸、安装作业过程中较易发生H2S中毒事故;事故主要是由于违章及误操作以及对H2S的毒害认识不够、安全意识差引起的.从管理措施、技术支持、人员培训、应急救援等方面提出了预防H2S中毒的措施.     

动态斜面(DIP)式溢油回收技术

:JBF环境技术公司生产的高效溢油回收设备的成功之处来自于独特的动态斜面的技术。可连续移动的皮带 (斜面 )可以产生水动力路径 ,可以迫使遭遇到斜面的油随之流动。因此 ,JBF设计生产的收油系统能以最高的效率在最大可能的操作环境下回收水面的各种油类。     

Utilization of Bagasse Energy in Thailand

Bagasse, a biomass fuel, is the waste generated by the sugar-making process from sugar cane. Sugar making is one of the most important agricultural-produce processing industries for developing countries in Southeast Asia, Latin America and Africa. As sugar producing plants need electric power and process steam, co-generation using bagasse as an alternate fuel for petroleum has been in use for some time. Thailand recently became one of the largest sugar exporters by enlarging plant capacities and improving equipment, thus reducing its production cost. In addition, the Thai government promotes power generation using bagasse as a means to combat global warming by raising the purchase price of the surplus power. The industry is in the process of further raising the plant capacity, and improving the power-generating efficiency. This will enable a plant to generate more electric power than its in-plant need so that the surplus power can be sold to the commercial grid. It also plans to become a local power supplier during off-season of sugar making by adding a condensing turbine generator. A typical Thai sugar plant of the latest design generates steam of 4Mpa at the bagasse boiler outlet with the temperature of 400°C at 84% boiler efficiency. With the bagasse LHV of 7,540 kJ/kg and that of fuel oil 41, 840 kJ/kg, and taking 90%as oil-burning boiler efficiency, 5.95 kg of bagasse would replace 1 kg of oil. The Kyoto Mechanism defines CO₂ generation by fuel oil as 2.65 kg per liter. Using 0.85for the specific gravity of fuel oil, the amount of CO₂ generation will be 3.12 kg-CO₂/kg. Therefore, CO₂reduction per ton of bagasse in terms of fuel oil will be: 3.12/5.95 =0.524 kg-CO₂/kg-bagasse. As 1 kg of bagasse generates 2 kg of steam, the CO₂reduction of a 100t/h steam boiler will be112,660 ton/year for an annual operation of4,300 hours, as follows. 0.524 × 100/2 = 26.2 t-CO₂/h, 26.2 × 4,300 =112,660 t-CO₂/year. This revised version was published online in August 2006 with corrections to the Cover Date.     

Analysis of the hydrocyclone stock cleaning process for wasted fibre in a paper mill

The main objective of this project was to evaluate the possibility of reducing the quantity of fibre wasted at one of many hydrocyclone (centrifugal) cleaning processes in a paper mill. It was found that the application of elutriation water to both the tertiary and quaternary cleaners was essential to minimise the fibre discharged to the sewer, and the pressure of this elutriation water had a dramatic effect of reducing the fibre wastage. Accordingly, it has been shown that 150–160 kPa as the optimum pressure range to apply elutriation water to minimise the product grade fibre wasted whilst sending undesired shive fibre to the sewer. Also, monitoring of the press uhle box wastewater revealed that the paper mill has the potential to make substantial cost savings by reducing the waste stream. Further investigation is necessary to determine the types of fibre that are being wasted, and the viability of a screen to recycle the wasted fibre to the process. However, these fibres may be unsuitable to reuse in the process and alternative uses must be found.     

大庆油田落地原油对土壤污染的研究

大庆油田是中国最重要的原油生产基地,开发建设50多年来,已累计生产原油18.2亿吨.不可避免地在油田生产过程中产生大量的落地原油,对土壤造成了严重的污染.落地原油在土壤中的迁移主要有横向迁移和纵向迁移:横向迁移对土壤的污染成辐射状分布,污染强度随污染源的距离增加而迅速降低,污染源周围污染最重的区域在0 m～40 m范围内,占总量90%以上,横向迁移范围确定在150 m以内;落地原油纵向迁移绝大部分集中在距土壤表面0 cm～10 cm范围内,竖向迁移一般不超过70 cm.落地原油污染土壤中主要污染物包括总烃、芳烃、酚、苯并[a]芘和硫化物,通过落地原油污染土壤的模拟实验可知总烃、芳烃、苯并[a]芘和硫化物含量,随原油浓度增加而明显增加,呈明显正相关性;其一元线性回归方程分别为Y=0.470X-17.88、Y=0.119X-6.13、Y=0.0076X-0.30、Y=0.000055X 0.089.