磁悬浮列车事故仿真分析

总结磁悬浮列车可能发生的各种事故．蚰结为两大类：失去悬浮事故和与异物碰撞事故，针对这两类事故，用ADAMS进行仿真分析，得出事故形态及后果，为事故颅防并减小事故后果提供依据。     

烟花爆竹生产安全问题探析

烟花爆竹生产由于行业的特殊性，危险性很大。近年来，烟花爆竹安全生产形势严峻，事故频发，危害严重。笔者在调查研究的基础上，分析了烟花爆竹生产的危险性以及引发事故的主要原因。着重讨论了烟花爆竹安全生产的可行性途径，强调提高准入门槛，严格安全生产许可证的核发；加大监督管理力度，严格规章制度的落实；发展地方经济，从根本上防止非法生产；并通过对湖南浏阳花炮生产安全管理的分析，探讨安全文化建设在烟花爆竹这一高危行业的作用，认为烟花爆竹行业要发展，要尽可能减少事故的发生，一定要注重安全管理，注重企业安全文化建设，注重提高从业人员的安全文化素质。     

可移动危险源动态安全监控的探索与展望

简述近年来可移动危险源的严重事故及惨痛教训,究其重要原因之一就是缺乏对可移动危险源的动态安全监控,指出开展可移动危险源动态安全监控的迫切性;从而对建立可移动危险源动态安全监控体系的指导思想与功能设计进行了比较深入的探索,利用全球移动通信系统(GSM),全球定位系统(GPS),地理信息系统(GIS)和计算机网络技术相结合,对可移动危险源实施动态安全监控,以实现对其严重事故的有效控制,并对完善可移动危险源动态安全监控体系作了进一步的展望。     

森工企业伐木作业事故成因分析与预防措施

以森工企业伐木作业三起事故为案例,对造成事故的原因进行了分析,根据事故成因提出了相对应的事故预防措施.     

基于模糊评价法的建筑安全事故预测模型

针对建筑工程安全领域中许多对象具有"内涵明确,外延不明确"的特点,本文利用模糊数学对建筑安全事故影响因素进行度量,通过层次分析法确定各影响因素权重,提出了一种基于模糊评价法的建筑安全事故预测模型,解决了建筑生产中安全事故的即时预测,并通过实例给予说明,说明了模型在建筑安全事故预测中的有效性和实用性.     

重大危险源辨识与监控是企业建立事故应急体系的基础

本文简要介绍了重大工业事故预防控制体系要素和国家法律、法规与政策对企业重大危险源监控与应急体系建设的要求,论述了重大危险源辨识、监控是企业建立事故应急体系和重大事故预防控制体系的基础和前提,对企业重大危险源监控和应急预案编制要求提出了建议.     

City hazardous gas monitoring network

In our today's societies, many dangerous chemicals are produced and transported. Due to the vast use of chemicals, more chemical accidents are taking place with huge losses. In this study a city hazardous gas monitoring network was designed to detect the dispersion of toxic and combustible gases in the primary stages. The network could cover hazardous chemical facilities, important hazardous chemical routes, warehouses and special locations which may be the targets of terrorist attacks. The network is consisted of several local networks and a central control panel complex. Each local network has a local control panel in the center and many detectors and sounders around it at distances less than 3000 m that communicate with the local control panels wirelessly. In each location there are two types of gas detectors, toxic and combustible, and a sounder which are equipped with a wireless, radio frequency modem allowing the units to communicate readings and other information on a real-time basis with a remotely located local control panel. High sensitive Photo Ionization Detectors, PIDs, are used to provide fast and low-level on-site screening for chemicals contamination. Combustible gas detectors are the second choice to sense the combustible gas and verify the readings of PIDs in this regard. The central panel consists of several connected control panels work uniquely helping a computer set and the appropriate software and communicate with local control panels via telephone lines. All of the network components are shown on the monitor of central panel with special symbols by geographical information system program. The system is fully addressable so that the high level detection of a detector produces a blinking color double-circle around its symbol in GIS plan. In case of high level gas detection, a team of experts who are fully equipped with different portable detectors depart to the site to test the field to identify the chemicals. All readings of detectors are saved in a data bank and then analyzed to find any chemicals spills and leakages. The network was simulated by a special program so that the components of local networks and the central panel are shown in separate windows. By clicking on one detector on environmental window the formerly designed responses will be activated in central panel window.     

The indirect involvement of buses in traffic accident processes

The involvement of buses in accidents usually is assessed implicitly on the basis of the direct involvement of the bus in the collision or in injury production. This paper deals with the scope and forms of indirect involvement of buses (as a sight obstruction, for example). Accidents were selected by identifying the presence of the term ‘bus’ or synonyms in the text parts of complete police reports (testimonies, statements by the persons involved, etc.) available in electronic form, then analysed in detail. Direct or indirect involvement of a bus is found in 3.6% of traffic injury accidents reported by the police in the community studied (direct involvement: 1.4%; indirect involvement: 2.2%). The different forms of indirect involvement are then described, and some possibilities of preventive measures are discussed.     

2016—2020年全国化工和危险化学品事故分析研究*

为分析“十三五”期间（2016—2020年）我国化工和危险化学品事故发生情况，统计“十三五”期间化工和危险化学品事故数量及死亡人数，从发生月份、发生区域、行业分布等方面分析事故特征，从事故类别、事故环节、关键作业等方面分析事故原因，总结2011—2020年我国化工和危险化学品事故发展趋势，按照全国4大经济区域研究2013—2020年事故特征。结果表明:“十三五”期间我国化工和危险化学品事故数量呈下降趋势，死亡人数出现波动，总体形势较为平稳。2011—2020年化工和危险化学品事故风险向中西部转移趋势明显，东北、西部地区事故死亡率普遍高于东部地区。研究结果可为相关行业从业者及监管部门提供决策参考。     

北京市铺装道路降尘污染特征及来源

为研究北京市道路降尘在不同季节的污染特征及来源,选取北京市4条典型道路得到64个采样点的道路尘样品,采集的道路尘样品经过预处理得到75 μm以下的颗粒物,经过再悬浮及实验室分析得到PM_2.5的粒径分布和化学成分谱.结果表明:不同采样高度及不同道路类型的颗粒物粒径大体分布规律一致,颗粒物质量频率存在三个峰值,分别为0.75 μm（微粒径）、2.50 μm（小粒径）、4.50 μm（大粒径）;各季节的降尘颗粒物的化学组分中质量分数最大的是元素,主要元素（含量>1%）季节变化为冬季>春季>秋季>夏季,元素富集因子法得到污染元素为Cr、Cd、Sn、Cu、Zn、Pb、As,双重元素为Bi、Ti、Ni、W、Mg、Ca、TI、Mo、V、Fe、Zr、Ba,其余16种为非富集元素;颗粒物中离子质量分数在夏季最大为9.31%,春季、秋季、冬季的离子质量分数相差不大,其中Ca2+、NO₃-、Cl-、SO₄2-占总离子质量的80%左右;碳素中w（OC）和w（EC）的季节变化均为夏季>秋季>春季>冬季,OC/EC[w（OC）/w（EC）]的季节变化规律为冬季>春季>秋季>夏季.不同季节w（OC）和w（EC）的相关性大小为夏季>秋季>春季>冬季.对PM_2.5中化学组分来源分析表明,污染元素受机动车和建筑尘影响较大,与机动车尾气相比,机动车磨损造成的污染也不容小视;燃煤影响一直存在,但供暖期污染有所改善.机动车尾气、建筑尘及土壤尘对离子均有贡献,在夏季土壤尘、建筑尘、二次反应的综合影响较大,春季土壤尘影响更为突出.碳在夏秋季节受汽车尾气和建筑尘的影响较大,夏季二次反应影响不大;冬季除气象因素外,燃煤和生物质燃烧也不可忽视;春季土壤尘影响较为突出.