气提升交替循环流复合滤池的流体力学和氧传质特性研究

气提升交替流复合滤池（AALCF）在气提升循环流化床（ALR）和曝气生物滤池（BAF）研究基础上发明的一种新型生化反应器。通过该反应器,研究了其流体力学和氧传质特性以及它们的主要影响因素,即气体流量和颗粒滤料层高度。结果表明,气体流量对反应器内液体流速、循环时间、气含率以及氧传质系数均有线性的影响;而随着颗粒层高的增加,液体流速会减小从而循环时间延长,但其对气含率的影响并不明显,另外。氧传质系数随之呈现先增加后减小的趋势,且在颗粒层高为15cm时可达最大值。     

固相萃取—气相色谱法测定海水中的666、DDT

采用固相萃取技术富集海水中的666、DDT,并使用气相色谱进行测定。主要包括不同填料(C8、C18、C18-N)、SPE柱规格(500 mg/3 mL、500 mg/6 mL)、洗脱试剂、上样流速、水样pH和洗脱试剂体积6个因素对666、DDT富集效率的影响。最终确定最优条件为:采用500 mg/6 mL C18SPE小柱,调节海水pH=6,上样流速4~5mL/min,10 mL二氯甲烷洗脱。优化后的固相萃取-气相色谱方法测定海水中666、DDT加标10 ng/L回收率为75.7%~110.4%,精密度为1.16%~4.00%,方法检出限为0.19~1.20 ng/L。     

汽车尾气和大气中C1—C4烃类分析方法研究

采用熔融性Ａｌ２Ｏ３／ＫＣｌ大孔径毛细管柱，用气相色谱直接进样方式，对汽车尾气中的低碳烃类化合物进行了分析监测。在汽车尾气中检出了３２个色谱峰，对其中的１０种烃类化合物进行了定量测定。浓度在２５μｇ／Ｌ－２０ｍｇ／Ｌ范围内与峰面积有良好的线性关系，方法的相对标准偏差小于１０％；样品的回收率为８５．０％－１１５．０％；最低检出浓度为２５μｇ／Ｌ。     

气相色谱法同时测定制药企业废气中多种挥发性有机物

针对典型制药产品青霉素、阿莫西林、维生素C、对乙酰氨基酚生产过程的挥发性有机物(VOCs)排放特点,建立了吸附-解吸-气相色谱法同时检测制药企业废气中丙酮、乙酸乙酯、异丙醇、苯、甲苯、乙酸丁酯和正丁醇等7种特征VOCs的分析方法。采用活性炭采样管采样-二硫化碳解吸-毛细管色谱柱分离,在解吸时间30 min、柱温35℃保持6 min、30℃/min速率升温到200℃保持2 min的色谱分析条件下,各挥发性有机物可以实现良好的分离;7种物质标准曲线相关系数为0.999 8~0.999 9,相对标准偏差为1.1%~3.2%,检出限为0.004 mg/m3~0.014 mg/m3,7种物质的解吸效率为83.1%~105.1%。结果表明,该方法适用于典型制药企业固定污染源排放废气中特征VOCs的测定。     

气相色谱法测定人参中BHC残留量

本文研究了一种快速、简便、准确地测定人参中ＢＨＣ残留量的气相色谱法。人参样品经正己烷—丙酮冷浸泡,超声萃取,磺化法处理后,萃取液直接上机测定。本方法对人参中ＢＨＣ各异构体的回收率均在８５％以上。变异系数小于１０％。与其它方法相比,本法耗时少,价格廉,结果准确,适合批量样品测定。     

填充柱气相色谱法测定废水中的乙酸根

废水经蒸馏预处理,采用５％ＰＥＧ２０Ｍ＋０５％Ｈ３ＰＯ４ＣｈｒｏｍｏｓｏｒｂＨＰ８０～１００目,２ｍ×２ｍｍ玻璃填充柱,直接进预处理水样气相色谱法测定废水中的乙酸根,方法操作快速、简便,变异系数为４％和１０％,加标回收率８３％～１０５％,最小检出浓度为２ｍｇ／Ｌ     

Study on the characteristics of gas explosion affected by induction charged water mist in confined space

To investigate the suppression effect of charged water mist on gas explosion, a small charged water mist generator and a gas explosion simulation device were designed based on the principle of electrostatic induction. Experiments for testing characteristics of the gas explosion in a confined space under different charged polarities, charged voltages and mist fluxes were carried out. Experimental results indicated that, compared with the normal water mist, the explosion peak overpressure and the flame propagation speed could be more effectively reduced by the charged water mist. And this suppression effect could be promoted by increasing the charged voltage. To visualize the effect of the charged water mist's polarity on gas explosion, comparative experiments were conducted. The results showed that the explosion peak overpressure, the overpressure rising rate, and the propagation speed of the flame were reduced by 64.7%, 33.0% and 19.4%, respectively, when a +8 kV charged voltage was applied. In situation where a -8 kV charged voltage was applied, 64.1%, 26.5% and 16.0% reductions were achieved for the explosion peak overpressure, the overpressure rising rate, and the flame propagation speed respectively. Comparison of this data leads to the conclusion that the gas explosion could be more efficiently suppressed by the positively charged water mist.     

Analysis and assessment of a critical event during an underground coal gasification experiment

The main goal of the study presented in this paper was to analyse the mechanisms affecting an Underground Coal Gasification (UCG) process and to identify possible deviations of the system from normal work to limit, or even avoid, losses. The UCG process is one of the most innovative technologies connected with the exploitation of coal deposits that are currently being tested and developed all around the world. It allows the conversion of a coal seam into gas under in situ conditions of high temperature with the use of gasifying agents such as air, oxygen, steam or with a mixture of them.The paper presents the results of the analysis and assessment of a critical event during the process: a dangerous gas accumulation that occurred during an underground coal gasification experiment in the Experimental Mine “Barbara” of the Central Mining Institute (Poland). The UCG experiment using the shaft method is described, together with its monitoring system and the problems that appeared during the process. The application of the Fault Tree Methodology allowed the establishment of the main factors that may lead to the explosion and to present possible scenarios of its occurrence.Moreover, calculations were carried out to evaluate the risk level of explosion for the gas mixture and the minimum level of oxygen in the mixture that is necessary to initiate an explosion. These calculations were based on a modification of the formula proposed by Le Chatelier. During the course of the underground experiment, original information of the process behaviour has been acquired that can be used in the preparation of other UCG experiments in operational mines to guarantee the safety and the stability of the process.     

顶空气相色谱法测定饮水中氰化物

采用顶空气相色谱法，测定饮水中氰化物。对水样保存特殊性的影响，色谱柱的选择及实验条件进行研究。结果表明，CN^-浓度在1-18ug/l呈线性关系，最低检出限为0．35ug/l，高、中、低三浓度测定相对标准偏差分别为2．68％、6．69％、6．98％，回收率范围83．4-119．2％，满足卫生检验要求。是一种简便快速、实用性强的分析方法。     

燃烧过程的气体取样及燃烧产物的组分分析

介绍燃烧过程中气体取样时常用的两种方法：微探针取样法和分子束取样法,详细论述了燃烧产物中的气体组分、自由基以及离子的分析方法,并对各咱分析方法优缺点进行了比较。