Real-time numerical simulations and experimental research for the propagation characteristics of shock waves and gas flow during coal and gas outburst

When coal and gas outburst occurs, high-speed gas flow and air shock wave with high kinetic energy could be created. In this paper, the formation process of outburst shock waves and gas flow has been analyzed firstly. Afterwards, the numerical simulation models of the roadways with right-angled intersection have been established, by which real-time simulation of the propagation of outburst gas flow and the process of gas transport has been conducted. Gas pressure, gas velocity and gas concentration can be simulated and shown. From analyzing the simulation results, qualitative and quantitative conclusions that the characteristics and patterns of the propagation and attenuation of outburst shock waves and gas flow can be arrived at. Finally, experimental models have been carried out to investigate the outburst shock waves and gas flow at the roadways with the similar shapes as the simulated ones. The results indicate that when shock wave and gas flow passes the intersection, most of the shock wave and gas flow will flow into the roadway of section opposite the intersection, and a little of it would flow into the roadway below the intersection. And turbulence will appear, shock wave reflects and diffracts at branches with more influence on the roadway below the intersection.     

冲击载荷下螺栓预紧力对应力波影响分析

目的 研究拉伸冲击载荷作用下螺栓预紧力对应力波的影响.方法 针对螺栓弹性变形、塑性变形和冲击破坏3种情形,对螺栓未施加预紧力及施加不同预紧力下的连接结构进行冲击数值模拟,对比分析连接结构的测点应变及螺栓响应,并与霍普金森拉伸实验结果进行对比.结果 螺栓达到断裂或塑性变形时,预紧力对测点应变及螺栓最大应力影响较小;螺栓弹...     

Numerical study of medium to large scale BLEVE for blast wave prediction

So far, the prediction of blast wave generated from the Boiling Liquid Expanding Vapour Explosion (BLEVE) has been already broadly investigated. However, only a few validations of these blast wave prediction models have been made, and some well-established methods are available to predict BLEVE overpressure in the open space only. This paper presents numerical study on the estimation of the near-field and far-field blast waves from BLEVEs. The scale effect is taken into account by conducting two different scale BLEVE simulations. The expansion of pressurized vapour and evaporation of liquid in BLEVE are both modelled by using CFD method. Two approaches are proposed to determine the initial pressure of BLEVE source. The vapour evaporation and liquid flashing are simulated separately in these two approaches. Satisfactory agreement between the CFD simulation results and experimental data is achieved. With the validated CFD model, the results predicted by the proposed approaches can be used to predict explosion loads for better assessment of explosion effects on structures.     

倏逝波荧光免疫传感器在环境检测中的研究进展

倏逝波荧光免疫传感器是利用光波在波导内,以全反射方式传输时在波导界面产生倏逝波,结合荧光免疫分析原理进行检测的一类新型传感器.该类传感器具有特异性强、灵敏度高、检测速度快、费用低、操作简便等优点,在环境检测、医学临床、食品卫生等领域具有广泛的应用前景.在介绍倏逝波荧光免疫传感器原理、结构及其特点的基础上,综述了该类传感器在环境检测领域的研究进展.     

Wave Processes in Forest Ant Communities

Mechanisms of interspecific territorial interactions have been studied in multispecific communities of forest ants. These interactions occur through the superposition of high-activity waves traveling over the foraging areas of the influents on the intervals between the waves of dominant species. This allows the foraging ants of both species to search their territory in turn. The role of wave processes in communities is discussed.     

重力波冰雹预警系统应用研究

利用重力波冰雹预警系统对1994—2004年预警范围内出现的冰雹等强对流天气过程及其他相关天气过程进行了监测。经过对所获得的部分大气重力波周期-振幅谱实时资料与对应天气资料的对比分析，发现了一些天气过程与大气重力波特征，特别是雹云发展不同阶段大气重力波的演变特征之间的联系。     

原油储罐火灾扬沸形成时间预测模型研究

扬沸火灾是一种突变性火害现象,其发生能导致巨大的人员伤亡和财产损失,其形成时间预测问题一直备受关注。根据能量守恒定律,把原油层内的热量传递看作无内热源、常物性的非稳态传热问题,建晓热量传递模型,通过预测油层内的温度分布,结合小尺度油罐扬沸火灾实验结果,推导出扬沸形成时间预测模型。并对其可靠性进行了案例验证,结果表明模型准确,误筹较小。实验发现随着罐径的增大,水层厚度对扬沸形成时间的影响逐渐减小。通过预测模型计算得到：扬沸形成时间与初始油层厚度和罐径的比值存在正比例关系。     

电离辐射防护涂料的研究

针对电离辐射的危害及防护,重点介绍了具有吸收、屏蔽射线功能的防辐射涂料的构成及要求。报导了一种对χ—射线(γ—射线)具有良好的屏蔽、吸收功能的涂料的研制过程和测试结果。该涂料由一种单相、均匀、化学性质稳定、分散性能优良、有较优的屏蔽能力的无机固熔体填料,配以经改性的耐高温骨架材料而构成。该涂料施工方便、涂膜光亮、无公害,可望在广泛的领域内有大的应用前景。     

Integrated leakage detection and localization model for gas pipelines based on the acoustic wave method

With the development of natural gas transportation systems, major accidents can result from internal gas leaks in pipelines that transport high-pressure gases. Leaks in pipelines that carry natural gas result in enormous financial loss to the industry and affect public health. Hence, leak detection and localization is a major concern for researchers studying pipeline systems. To ensure the safety and improve the efficiency of pipeline emergency repair, a high-pressure and long-distance circular pipe leakage simulation platform is designed and established by similarity analysis with a field transmission pipeline, and an integrated leakage detection and localization model for gas pipelines is proposed. Given that the spread velocity of acoustic waves in pipelines is related to the properties of the medium, such as pressure, density, specific heat, and so on, this paper proposes a modified acoustic velocity and location formula. An improved wavelet double-threshold de-noising optimization method is also proposed to address the original acoustic wave signal collected by the test platform. Finally, the least squares support vector machine (LS-SVM) method is applied to determine the leakage degree and operation condition. Experimental results show that the integrated model can enhance the accuracy and precision of pipeline leakage detection and localization.