A型导流片在静电除尘器中的应用

静电除尘器内气流分布是影响其脱尘效率的主要因素之一。为提高静电除尘器的除尘效率,国内外学者及工程师利用试验与计算机模拟的方式对如何调节除尘器内的气流分布进行了大量的研究。无论是早期提到的均匀气流法,还是近年来提到的斜气流理论,都提及了使用多孔板调节静电除尘器内气流的方法。但是针对某些静电除尘器及其设计要求来说,单纯的使用孔板进行调节气流已无法满足设计方提出的气流分布指标。在这里A型导流板结合孔板被用来调节静电除尘器气流进口罩内的气流,用以达到优化集尘区气流分布的目的。通过使用数值模拟的方法计算了静电除尘器内三维气流分布状况,对比了针对某静电除尘器项目单独使用多孔板调节气流的分布与使用多孔板与A型导流片相结合调节气流的方法,提出A型导流片在调节静电除尘器气流的优势,及较好的工程应用前景。     

汽车尾气催化转化器模拟研究评述

对汽车尾气催化转化器模拟进行评述.列出了影响汽车尾气催化转化器性能的因素;评述了催化剂温度特性的模拟、空速影响的模拟、催化转化器气流分布的模拟、3元催化转化器的模拟.     

660MW机组烟气循环流化床干法脱硫塔入口气流分布的试验研究

以某火电厂2×660MW机组循环流化床干法脱硫气流模拟试验为研究对象，采用速度分布不均匀度的概念，详细研究各种工况下入口烟道导流形式对脱硫塔文丘里速度场分布的影响。研究表明。通过合理设置入口烟道的导流装置，可满足各种工况下CFB-FGD脱硫塔的文丘里管段和反应器段的气流均布，为干法脱硫大型化的气流分布试验研究提供借鉴。     

斜气流技术的试验研究与工程应用

针对电除尘器运行过程中出现的除尘效率下降问题,进行了斜气流技术模拟试验.试验中采用不同的调节装置,将气流调整到预定的斜气流廓线模式.分析了不同气流调节装置对流速分布的影响,将优化后的斜气流方案运用到实际工程中,取得了良好的效果.     

脱硫石膏气流烘干工艺的改进

介绍了脱硫石膏气流烘干改进工艺，该工艺可以解决烘干筒内水分聚集影响烘干效果和浪费燃料的问题。     

燃油加热炉布袋除尘器工艺设计及袋室气流分布研究

针对燃油加热炉的冒黑烟问题,开展烟气除尘技术研究.在分析燃油烟气特性的基础上,进行加热炉的袋式除尘器工艺设计.使用计算流体力学软件对除尘器内流场均匀性进行模拟分析,计算出袋室内截面的压力和气流速度分布.结果显示,除尘器内的压力和速度在不同部位显示出明显的非均匀性,袋室内布袋的排列方式和灰斗的结构是影响气流均匀性的重要因素.提出改善袋室内气流分布均匀性的措施.     

干法烟气脱硫电除尘器进口喇叭的设计与应用

电除尘器进口喇叭的设计直接影响其气流均布。针对CFB—FGD干法烟气脱硫后的烟气特点，分析了处理脱硫后烟气的电除尘器进口喇叭设计，进行了气流分布试验，为高烟尘电除尘器进口喇叭的设计提供参考。     

二次扬尘,气流分布与电除尘器性能

现场观测表明,电除尘器出口气流均匀分布不一定获得最佳效果。为此对二次扬尘和气流分布的变化对电除尘器性能的影响进行了研究。用研制的计算机模型预测,结果表明,有控制的电除尘器进出口气流的非均匀分布,可能比均匀分布时性能更好。用此模型研究了除尘器侧视几何形状的变化对性能的影响并对电除器尺寸增大时收尘常数降低的原因提出解释。     

泡沫分离法去除废水中微量钴离子

采用泡沫分离法对水中微量钻离子的去除进行了研究,考察了表面活性剂种类及浓度、pH、气流量等因素对钴离子去除率的影响。实验结果表明：当水中钴离子初始质量浓度为10mg／L、采用十二烷基硫酸钠（SLS）做表面活性剂且质量浓度为10mg／L、pH为11．0、气流量为300L／h时,钴离子去除率达97．61％。根据泡沫分离过程与化学反应过程在物理行为上的类似性,引入等效的化学反应常数,对泡沫分离法去除水中钴离子进行了宏观动力学研究。结果表明,该泡沫分离过程可等效为一级反应。     

电除尘器斜气流状态下粉尘沉降试验研究

针对电除尘器在实际运行过程中出现的除尘效率下降问题,提出斜气流这一新型技术,对均匀气流与斜气流分布状态进行可视化研究;在两种气流状态下进行粉尘沉降试验,对试验结果进行对比分析、总结相应规律;对我国电除尘器气流技术的发展提出了建议。     

Geophysical and Hydrologic Monitoring of Air Sparging Flow Behavior: Comparison of Two Extreme Sites

The distribution of air around injection wells is an important determinant of the effectiveness, design, and cost of air sparging remediation systems. High-level air sparging field tests were conducted at two sites for the purpose of determining the pattern of airflow under widely different subsurface conditions. One site consisted of relatively homogeneous dune sand (Site A). The other consisted of highly heterogeneous glacial till (Site B). At both sites, cross-borehole electrical resistance tomography (ERT) was used to image the principal region of airflow in the saturated zone. The response of conventional monitoring data was compared with the ERT results. At Site A, the principal region of airflow was approximately symmetric about the sparge well and only 2.4 m in radius. At Site B, the pattern of airflow was much more complex and had a major horizontal component. In both site studies, conventional monitoring data provided a much more ambiguous indication of the region of airflow in the saturated zone than did ERT. The investigations at these two sites demonstrate that, while the exact distribution of injected air is not readily discernible by conventional monitoring, the character of the airflow pattern can be recognized when appropriate physical response data are collected. Such response data can be used to evaluate site suitability for air sparging and to improve the system design and operation.     

Application of a simplified mathematical model to estimate the effect of forced aeration on composting in a closed system

The aeration rate is a key process control parameter in the forced aeration composting process because it greatly affects different physico-chemical parameters such as temperature and moisture content, and indirectly influences the biological degradation rate. In this study, the effect of a constant airflow rate on vertical temperature distribution and organic waste degradation in the composting mass is analyzed using a previously developed mathematical model of the composting process. The model was applied to analyze the effect of two different ambient conditions, namely, hot and cold ambient condition, and four different airflow rates such as 1.5, 3.0, 4.5, and 6.0m(3)m(-2)h(-1), respectively, on the temperature distribution and organic waste degradation in a given waste mixture. The typical waste mixture had 59% moisture content and 96% volatile solids, however, the proportion could be varied as required. The results suggested that the model could be efficiently used to analyze composting under variable ambient and operating conditions. A lower airflow rate around 1.5-3.0m(3)m(-2)h(-1) was found to be suitable for cold ambient condition while a higher airflow rate around 4.5-6.0m(3)m(-2)h(-1) was preferable for hot ambient condition. The engineered way of application of this model is flexible which allows the changes in any input parameters within the realistic range. It can be widely used for conceptual process design, studies on the effect of ambient conditions, optimization studies in existing composting plants, and process control.     

Characteristics of mercury emission from linear type of spent fluorescent lamp

In order to recycle the linear type of SFL (spent fluorescent lamp), mercury from SFL should be controlled to prevent leaking into the environment. For mercury emission from SFL, mercury concentration is estimated in the parts of SFL such as glass tube, phosphor powder, and base cap using the end-cutting unit. It is also evaluated mercury emission in the effluent gas in the end-cutting unit with changing flow rate. From the results of mercury emission from SFLs, phosphor powder has greater than 80% of mercury amount in SFL and about 15% of mercury amount contained in glass tube. The initial mercury concentration in vapor phase is almost decreased linearly with increasing airflow rate from 0.7 L/min to 1.3 L/min. It is desirable that airflow rate should be high until the concentration of mercury vapor will be stable because the stabilized concentration becomes to be low and the stabilized time goes to be short as increased airflow rate. From KET and TCLP results, finally, phosphor powder should be managed as a hazardous waste but base-cap and glass are not classified as hazardous wastes.     

The determination of biological stability of composts using the Dynamic Respiration Index: the results of experience after two years

Biological stability was ascertained by using the Dynamic Respiration Index (DRI) on 144 samples of compost during the years 2003 and 2004, as a routine service for private subjects. Data obtained were collected and are critically discussed in this paper by using other parameters registered during tests, i.e., biomass temperature (T), specific airflow rate (Qs) and biomass analytical data (pH). Good linear correlations were obtained for DRI vs. T, DRI vs. Q(s) and DRI vs. pH, confirming expected results based on the theoretical discussion. Consequently, using the analytical method proposed in this paper means both T and Q can be used as additional parameters for measurement of the biological stability of compost. As a result, T values of 25.8 and 30.5 degrees C, and specific airflow rate of 8.6 and 13.4 m3 Mg(-1) VS h(-1) were found corresponding to 500 and 1000 mg O2 kgVS(-1) h(-1), which, respectively, indicate a high and a medium degree of biological stability.     

超细颗粒物凝聚中试试验均匀给料方案研究

给料的均匀性对PM2.5团聚试验至关重要,运用数值方法,采用LES模型计算湍流流场,采用DPM模型计算颗粒运动轨迹,分析PM2.5团聚中试试验台烟道内加设钝体后颗粒的均匀分布,得到了水平烟道各截面处颗粒浓度分布及数值的均方差曲线,发现在试验台圆方管处加设钝体,能有效改善烟道内煤灰颗粒的均匀分布。     

Field trial of a new aeration system for enhancing biodegradation in a biopile

The influence of a new aeration system on the biopile performance was investigated. The purpose was to increase biodegradation efficiency by optimising airflow through the pile. During a 1-month field trial, the performance of a new system using two perforated vertical pipes with wind-driven turbines was compared with that of a standard pile configuration with two horizontal perforated pipes. Both piles were composed of a similar mix of diesel-contaminated soils, woodchips, compost and NPK fertiliser. Hydrocarbons were recovered using solvent extraction, and determined both gravimetrically and by gas chromatography. Total heterotrophs, pH and moisture content were also assessed. Air pressure measurements were made to compare the efficiency of suction in the pipes. Results at the end of the experiment showed that there was no significant difference between the two piles in the total amount of hydrocarbon biodegradation. The normalised degradation rate was, however, considerably higher in the new system than in the standard one, suggesting that the vertical venting method may have improved the efficiency of the biological reactions in the pile. The pressure measurements showed a significant improvement in the suction produced by the new aeration system. However, many factors other than the airflow (oxygen supply) may influence and limit the biodegradation rates, including moisture content, age of contaminants and the climatic conditions. Additional experiments and modelling need to be carried out to explore further the new aeration method and to develop criteria and guidelines for engineering design of optimal aeration schemes in order to achieve maximum biodegradation in biopiles.     

固硫剂制备工艺探讨

探讨了循环流化床锅炉脱硫方法中固硫剂的制备工艺，对几种石灰石破碎设备及工艺进行了分析比较，通过柱磨机粉磨石灰石的工业试验，了解其产品粒度分布，从而择优确定固硫剂制备工艺流程。     

Thermal Effects on the Airflow in a Street Canyon – Nantes'99 Experimental Results and Model Simulations

The thermal effects on the airflow within a street canyon, which are produced by the variation of direct solar heating of the street sides and ground, are examined in this article. The investigation is based on the experimental results of the Nantes'99 campaign and numerical simulations performed with the Computational Fluid Dynamics (CFD) code CHENSI using the standard k- model. The Nantes'99 experimental campaign was performed in a North-to-South oriented central street canyon of Nantes, France. It was observed that a thin thermal layer develops locally within a few centimetres from the heated wall. It is anticipated that, the convective flow close to the windward wall, which was visualised during the experiment, carries air masses from the street level upwards, where normally cleaner air is transported. Consequently, thermal effects may be important for the air quality in the street.Based on the temperature and wind flow measurements, the flow and temperature fields were simulated first in two dimensions with the CFD code CHENSI. It was found that CHENSI overestimates the thermal effects on the canyon airflow showing the main re-circulation simulated in the isothermal case to change into two counter-rotating vortices after the inclusion of the heating of the windward wall. A reason for this overestimation is possibly the temperature wall function implemented for such thin thermal boundary layers in conjunction with the limitations in grid resolution.     

电除尘器前端预荷电技术研究

电除尘器前端主要是指进口喇叭及进气烟道,在进口喇叭内设置预荷电电场,可以保证气流均匀进入电场的同时,对粉尘进行荷电、凝并,起到一级预收尘的作用,以增加收尘面积,提高除尘器的除尘效率。通过分析Indigo烟道凝聚器、进口喇叭内置电场技术、电除尘器中粉尘预荷电试验研究及国内专利技术成果基础上,提出电除尘器进口喇叭内预置电场技术,并取得比较好的应用效果。