大功率整流器换流问题研究

理论上分析了大功率整流电路换流过渡过程，分析了换流过电压、关断功率与阻尼电路参数间的相互关系，提出换流过电压和关断功率的计算方法与计算公式，进一步探讨了如何合理配置阻尼保护电路参数。特别指出在大电流瞬时关断功率比换流过电压具有更大的危害性。为消除元件在换流过程中的关断损坏，还推荐一种改进型整流电路。     

用于卫星通信的透明转发器抗干扰技术分析

分析透明转发器的非线性特点,由于透明转发器存在“功率掠夺”现象,将星上处理同宽带跳频相结合己成为卫星抗干扰通信系统的发展趋势。军事卫星通信系统中,宽带跳频是一种应用广泛的抗干扰手段,有着十分重要的地位,这对于基于透明转发器的军事卫星通信系统抗干扰研究及商业卫星的军事应用都具有重要意义。     

市场催生新一代水浮莲收集处理船（装置）

针对水浮莲造成的危害,介绍三种水浮莲收集处理船和新一代收集处理船的性能特点,市场前景。     

大断面客专隧道在开挖过程中的测量

以客运专线合武三标长岭关铁路隧道在开挖中，采用无棱镜激光测距全站仪，代替先进的断面仪对隧道轮廊进行的测量放样为例，并从内业准备、开挖面放样、断面数据的采集与整理等几个方面进行了较为详细的阐述，该方法取得了较好的经济效果和较高的测量精度，为类似设备拓宽使用范围可提供较好的借鉴。     

VoIP中的丢帧补偿策略研究的概况

VoIP由于其分组交换方式及实时性特点,不能保证分组的可靠传输.阐述了造成VoIP质量不高的原因,比较了几种丢帧补偿策略的优缺点,介绍了G.723.1的插值补偿算法.     

曲线桥独柱墩点铰支座预偏心优化分析

在墩顶点铰支撑的曲线连续梁桥设计中,选择合理的支座预偏心距来改善结构的受力性能至关重要。该文以边跨梁正负扭矩绝对值相等且扭矩最小为目标函数,采用ANSYS通用软件提供的优化设计模块和参数化设计语言（ADPL）,对曲线梁桥支座预偏心的布置进行了优化设计计算。     

Prediction of fatigue life and estimation of its reliability on the parts of an air suspension system

Air suspension systems have been implemented in various commercial vehicles, such as buses and special purpose trucks, because of the comfortable ride and easy height control. An evaluation of the durability of vehicle parts has been required for service life and safety starting in the early stages of design. The cyclic load applied to the vehicle can cause fatigue failure of parts, such as the suspension frame. This paper presents a method to predict the fatigue life of the suspension frame at the design stage of the air suspension system used in a heavy-duty vehicle. To estimate the fatigue life using the SN method, the Dynamic Stress Time History (DSTH) is necessary for the part of interest. DSTH can be obtained from the results of the flexible body dynamic analysis using the Belgian road simulation and the Modal Stress Recovery (MSR) method. Furthermore, the reliability of the predicted fatigue life can be evaluated by considering the variations in material properties. The probability and distribution of the expected life cycle can be obtained using experimental design with a minimum number of simulations. The advantage of using statistical methods to evaluate the life cycle is the ability to predict replacement time and the probability of failure of mass-produced parts. This paper proposes a rapid and simple method that can be effectively applied to the design of vehicle parts.     

Development of an LIF image processing technique for measuring drop sizes in a pre-swirl spray

Depth of field effects in laser sheet imaging were considered for droplet sizing of a pre-swirl spray. A pre-swirl spray is formed before the hollow-cone type main-swirl spray from a D.I. gasoline injector, and shows transient characteristics with high axial velocity. A microscopic imaging technique was applied to obtain high spatial resolution LIF tomograms of the pre-swirl spray. A 1 mm thick Nd:YAG laser sheet was used as a light source to make the LIF tomograms that were imaged using a high-resolution CCD camera. The droplet sizing of the pre-swirl spray was carried out using an image processing technique. In the image processing procedure, the laser sheet-straddling large-sized droplets were carefully taken into account to remove the errors caused by the depth of field effects from the limited thickness and the energy distribution of the laser sheet. The mean intensity of the individual droplets and the line profile of the LIF signal around the droplet edge were inspected to screen the laser sheet-straddling large-sized droplets. In order to consider the effects of the size-dependent LIF signal intensity, the size-classified or ensemble-averaged mean intensity of the individual droplets was introduced. The mean droplet sizes such as AMD and SMD were calculated using only screened droplets, and they slightly increase before considering the depth of field effects.     

Thermal design of automobile exhaust based thermoelectric generators: Objectives and challenges

The potential for thermoelectric power generation (via waste heat recovery onboard automobiles) to displace alternators and/or provide additional charging to a vehicle battery pack has increased with recent advances in thermoelectric material processing. In gasoline fueled vehicles (GFVs), about 40% of fuel energy is wasted in exhaust heat, while a smaller amount of energy (30%) is ejected through the engine coolant. Therefore, exhaust-based thermoelectric generators (ETEG) have been a focus for GFV applications since the late 1980s. The conversion efficiency of modern thermoelectric materials has increased more than three-fold in the last two decades; however, disputes as to the thermal design of ETEG systems has kept their overall efficiency at limited and insufficient values. There are many challenges in the thermal design of ETEG systems, such as increasing the efficiency of the heat exchangers (hot box and cold plate), maintaining a sufficient temperature difference across the thermoelectric modules during different operating conditions, and reducing thermal losses through the system as a whole. This paper focuses on a review of the main aspects of thermal design of ETEG systems through various investigations performed over the past twenty years. This paper is organized as follows: first, the construction of a typical ETEG is described. The heat balance and efficiency of ETEG are then discussed. Then, the third section of this paper emphasizes the main objectives and challenges for designing efficient ETEG systems. Finally, a review of ETEG research activities over the last twenty years is presented to focus on methods used by the research community to address such challenges.     

基于有机朗肯循环的车用柴油机排气余热回收系统性能分析

利用设计的有机朗肯循环系统回收某重型车用柴油机的排气能量,通过台架试验,获得了变工况下柴油机排气余热能分布特性。分析了有机工质蒸发压力、过热度以及柴油机工况变化对有机朗肯循环系统性能的影响,以系统净输出功率和热效率为优化目标,确定了适用于有机朗肯循环系统的最佳蒸发压力。研究结果表明,当有机工质蒸发压力为1.8 MPa时,有机朗肯循环系统的净输出功率最大可以达到12.69kW,热效率可以达到11.19%;将有机工质加热至过热状态并不能明显提高有机朗肯循环系统的净输出功率。