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进行了介质阻挡放电低温等离子体脱除伴有SO2的烟气中NO的研究,分别进行了直接等离子体脱硫脱硝和间接等离子体脱硫脱硝实验.在直接等离子体脱硫脱硝中,模拟烟气等混合气直接通入等离子体发生器,在反应器中电离分解NO以及和生成的高能电子、离子和自由基等离子体相互反应而进行脱除NO;间接等离子体脱硫脱硝中,模拟烟气连接在等离子体发生器出口与从反应器中产生出的等离子体发生氧化反应而进行脱除NO.结果表明,无论直接形式还是间接形式,脱硝效率都要比脱硫效率高,间接脱硫脱硝能够大大降低功率输入,节省能耗,具有重要的实际应用价值和意义.氨气的加入,有利于脱除效率的提升.     

滚压强化的残余应力的数值仿真及工艺分析

表面滚压强化,由于在表层引起加工硬化和残余压应力,可以十分有效地提高构件、零件疲劳强度,而滚压强化的有限元数值仿真,将成为分析优化滚压强化工艺的重要手段.本文建立了连续多、圈滚压工艺的有限元数值仿真模型,获得了比较合理的滚压变形与残余应力结果.在此基础上对滚压工艺做了进一步分析.结果表明,滚压变形的进给量太大.滚压的转速太快都容易造成工件表层残余应力分布的不均匀甚至形成残余拉应力;在滚压与未滚压的过度区域,从表面到心部的近1mm范围内,均未出现人们通常所担心的残余拉应力.这将在工程生产实践中,为滚压工艺制订提供重要的依据.     

Thermogravimetric study of alcohol adsorption on active charcoal

Interest of using the Mac Bain thermogravimetric balance in order to characterize alcohol adsorption or desorption on various active charcoal is developed. Precautions and peculiarities of proposed method are indicated. They result from very good precision and reproducibility in the thermal range of 273.15 to 313.5 K, and in the pressure range of 666.6 Nm⁻² to 26664 Nm⁻².Some results are given to illustrate the statics, and kinetics of adsorption desorption process of alcohol on various active charcoals.These results are important to develop and optimize refrigerating machines, or heat pumps, or physico-chemical storage using these systems.     

散斑图像相关数字技术在薄壁钢管混凝土长柱变形测量中的应用

薄壁钢管混凝土构件作为新发展的组合构件,对其研究具有非常重要的意义。文中首先介绍了散斑图像相关数字技术的基本原理,然后给出了变形计算公式。为弥补传统测量方法的不足,在薄壁钢管混凝土长柱偏压破坏实验中,引入了散斑图像相关数字技术,对长柱跨中截面的全过程变形(位移)进行了测量,并对测量结果进行了分析与讨论,同时还与传统测量方法所得结果进行了对比分析。实验结果与分析表明:该方法具有较高的精度和工程可用性,可克服传统测量方法中的一些弊端,且对实验设备和测量环境要求不高,很适合现场非接触测量。     

青藏铁路片石护坡路堤温度特性分析

通过对青藏铁路清水河段片石护坡路堤和普通路堤实体工程进行的地温监测,对比分析了两种路堤体内及基底的温度特性,分析结果表明采用片石护坡措施的路堤,与普通路堤相比,降温效果好,负积温量值大,最大融化深度抬升幅度也较大,因此,片石护坡能够有效发挥降低地温、保护多年冻土的作用。     

双材料单伸臂叠合梁的界面滑移与自振特性分析

将叠合梁划分为接触区和分离区,接触区界面间的摩擦作用会对叠合梁的滑移、刚度和自振频率产生影响。本文给出了单伸臂叠合梁在均布荷载和集中力作用下,考虑叠合界面摩擦作用的滑移应变和滑移分布的表达式;推导了考虑叠合界面间摩擦力及摩擦力产生的抵抗弯矩共同作用下的截面刚度。假设梁按等波长和等刚度两种形式自由振动,运用传递矩阵法推导出了单伸臂叠合梁自振频率的计算公式。最后,基于一个钢-混凝土组合与叠合试验梁的算例分析了滑移沿梁长的分布及自振频率。结果表明:随界面间摩擦系数的增大,接触区界面的滑移值逐渐减小;摩擦效应对叠合梁自振频率的影响随阶次的升高越来越明显。     

Calibration of geometrical systematic error in high-precision spherical surface measurement

Geometric aberrations in interferometric testing system can significantly influence the measurement results in the case of high-numerical-aperture test spherical surface, in which obvious high-order aberrations introduced by wavefront defocus could be observed and they cannot be removed with the traditional calibration method. A technique based on the rigorous model for the analysis of geometric aberrations introduced by wavefront tilt and defocus, is presented for the calibration of the corresponding geometrical systematic error. The calibration method can be carried out either with or without a prior knowledge of the spherical surface under test. The feasibility of the proposed method has been demonstrated by computer simulation, and the residual error less than 0.001λ is obtained. Experimental validation is carried out by testing a high-numerical-aperture spherical surface with the ZYGO interferometer, and an accuracy RMS about 0.003λ with the proposed calibration technique is achieved. The effect of geometric aberrations on the measurement is discussed in detail. The proposed calibration method provides a feasible way to lower the requirement on the adjusting precision of mechanical device, and is of great practicality for the high-precision measurement of high-numerical-aperture spherical surface.     

Analysis of volumetric unfrozen water contents in freezing soils

In this study, a series of freezing experiments were carried out to investigate the changes of volumetric unfrozen water contents in freezing soils. The experimental results show that the soil type and the initial volumetric water content have significant effect on the freezing point and volumetric unfrozen water content of freezing soils. On the base of the experimental results and the previous researches, a new model was developed to describe the changes of the volumetric unfrozen water contents in freezing soils. The developed model was validated by comparing the calculated results against the experimental ones.     

Computation of wind-induced vibrations of flexible shells and membranous structures

A partitioned coupling approach for time-dependent fluid–structure interactions is applied to thin shells and membranous structures with large displacements. The frame algorithm connects a three-dimensional, finite volume-based multi-block flow solver for incompressible fluids with a finite element code for geometrically nonlinear structural problems using a commercial coupling interface. Thus a high modularity is achieved and the whole range of opportunities with these two powerful codes — each of them highly adapted to its specific field of application — can be used also for coupled simulations.Two completely different configurations were investigated. First, the coupling algorithm was applied to an academic test configuration consisting of one, two, and three flexible L-shaped plates being loaded by a steady far-field flow. Various investigations were carried out at different Reynolds numbers (Re=50,200, and 500) in order to study phenomena such as vortex shedding, resonance, influence of the interaction between several flexible plates, whereas the second and third plates were placed in the wake of the first.The second part of the paper shows that in principle the coupling procedure can also deal with real-life structures as they occur in civil engineering. A membranous roof of glass-fiber synthetics with a complex shape was exposed to a time-dependent wind gust from diagonally above which was superimposed on a constant basic wind flow parallel to the ground. The structural model contains the pre-stressed textile roof including the taut cables at its circumference which are fastened at the pylons. As a structural response, the wind gust led to a displacement of the textile roof which disappeared again when the gust subsided. With the coupled algorithm proposed in the paper it is possible to study dynamic interactions for engineering applications.     

Sensor materials for the future: Intelligent materials

Recently, there has been a renewed interest in the development of sensor materials. Four major trends can be discerned in this new research, i.e., (1) single crystal to poly crystal to amorphous material; (2) static material to dynamic material; (3) simple material to composite material; (4) atomic (molecular) synthesis of sensor material. These trends are an approach to obtaining ‘intelligent materials’.Up to now, sensor devices have been made using materials with given characteristics. In future, however, sensor materials should be designed to give the desired characteristics of sensor devices. These trends towards intelligent materials will be discussed here.