铜/海泡石催化氧化CO和催化还原NOx性能的研究

采用浸渍法制备铜/海泡石催化剂,考察其催化氧化CO和催化还原NOx性能以及预处理条件和掺加稀土元素对其性能的影响,并用XRD、BET技术对其进行表征.盐酸和硝酸改性的海泡石载体都能使铜/海泡石在190℃左右将CO完全转化;稀土元素的添加对铜/海泡石催化氧化CO的活性没有显著影响;铜/海泡石对NOx有一定的催化还原性能,添加稀土后对其催化还原活性有明显促进作用.     

粉煤灰合成分子筛及处理含氟废水的研究

实验利用工业废渣——循环流化床粉煤灰合成出较高结晶度的X型和P型分子筛,合成过程无须高温焙烧预处理.通过XRD分析表征,发现该法合成分子筛结晶度较高,X型和P型分子筛相对结晶度分别达68%～75%和55%.实验应用合成分子筛进行载铁改性,并对NaF模拟的工业含氟废水进行了除氟实验.结果表明,载铁X型分子筛处理工业含氟废水效果良好,除氟率可达74%～98%,除氟容量达25.0～30.0 mg/g.在处理含氟废水过程中,载铁合成分子筛与其他除氟剂相比较,具有除氟率高、除氟容量大、反应迅速的特点.     

水中微量弱极性内分泌干扰物测定方法的研究

使用ENVITM Chrom P固相萃取小柱、双(三甲基硅烷基)三氟乙酰胺(BSTFA)衍生剂及气质联机,系统研究了水中弱极性内分泌干扰物(EDCs)的测定方法.通过正交试验,得到最佳固相萃取条件为:水样流速5 mL/min,洗脱剂为二氯甲烷,洗脱速率0.5 mL/min,洗脱剂体积6 mL.最佳衍生化条件为:BSTFA 100 μL,60 ℃,反应时间30 min.结果表明,双酚A、五氯酚、2,4-二氯苯酚、4-壬基酚、雌二醇、雌三醇、雌酮、炔雌二醇的回收率在82.4%～101.9%,检出限为0.01～0.06 μg/L.     

倒置A2/O工艺氮平衡与脱氮效率的分析

研究了倒置A^2／O工艺中的氮平衡和脱氮效率，并对影响脱氮效率的回流比和碳氮质量比进行分析。根据广州某城市污水处理厂水质特点，设计总回流比为3．0，其中污泥回流比为1．0，混合液回流比为2．0，理论总氮去除率为78．75％，实际运行总氮去除率达64．42％。     

钢铁工业含铁尘泥的资源化利用现状与发展方向

含铁尘泥是钢铁生产过程中从不同工艺流程的除尘系统中排出的含铁粉尘。这些尘泥回收后利用不当，不仅会造成环境污染，也是对含铁资源的巨大浪费。本文概述了钢铁工业含铁尘泥的综合利用现状，对瓦斯泥、转炉污泥、轧钢污泥、高锌含铁污泥、电炉粉尘等几类重点尘泥，提出了未来高附加值利用的方向。     

Analysis on Temporal and Spatial Changes and Driving Forces of Poverty-Stricken Areas in Hebei Province

1 INTRODUCTIONPoverty is a social phenomenon accompanying the processof human development (Shen Hong, 2000),it is also oneof the Three Ps problems (poverty, pollution andpopulation),alleviating and eliminating poverty has beenone of the major concerns in many countries. Since Chinesegovernment has implemented the anti-poverty programin a planned way in 1986, the number of impoverishedpopulation has decreased year by year, especially after theimplementation of National Seven-Year Anti-p…     

江苏土地资源存在的问题及其对策

一、扼要叙述土地资源利用现状、变化趋势和后备土地资源状况,二、说明江苏土地资源利用存在的问题。三、重点阐述人地矛盾突出和环境污染发展趋势严峻两大问题。四、指出必须把治理保护土地资源和生态环境作为一项重大任务加以落实。提出加强综合管理、综合治理,加强资源保护,控制人口增长,加速农业资源开发的对策。     

石羊河流域生态灌溉制度中的数学模型

本文从水利生态学的角度出发,研究分析了与水利有关的生态问题和与生态有关的水利问题。首次提出了生态灌溉制度的概念,为水利生态学的建立、水资源的高效利用打下了基础。建立了三级数学模型,用系统工程的方法,通过计算机求解,能够得到高效低耗的生态灌溉制度,为发展节水型的高效生态农业提供可靠的科学依据。     

Seismic monitoring and modelling of supercritical CO2 injection into a water-saturated sandstone: Interpretation of P-wave velocity data

This paper reports on an integrated laboratory and numerical simulation study of ultrasonic P-wave velocity response to supercritical CO₂ displacement of pore water in Tako sandstone. The analysis of dynamic velocity data recorded using an array of piezoelectric transducers mounted on a core sample showed that the P-wave velocities at different positions displayed a similar trend in time, i.e., an initial sharp fall followed by a more gradual decline. Considerable variations observed in the measured P-wave velocity reductions across the sandstone core could largely be attributed to the final state of saturation (e.g. uniform, patchy or in-between) attained by the two-phase fluids. Numerical simulation of the injection test using a simple 1D model was carried out to provide an estimation of the phase saturation changes underlying the measured P-wave velocity reductions. A second order polynomial correlation between the measured ultrasonic P-wave velocity reductions and the estimated CO₂ saturation was established. Comparison with the Gassmann velocities showed that the empirically established relationship marks a clear deviation from both the patchy and uniform saturation velocity curves.