离子迁移谱法作为有毒化学物质快速检测系统的一部分

W. Harmata
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引用次数: 1

摘要

目的:本文的目的是介绍离子迁移率光谱法作为一种局部检测化学污染物的方法。导论:根据目前在波兰共和国军事力量中生效的学说,污染侦察是旨在确定化学、生物、放射性和核(CBRN)事件的发生或环境中存在CBRN剂的行动。它包括观察、检测和特定污染侦察。观测是对空域、地面区域、人、动物和物质的系统跟踪。为此目的使用了视觉、声音、电子和摄影观察装置或其他能够识别CBRN事件或环境中是否存在CBRN剂的装置。探测是确认环境中发生了CBRN事件或存在了CBRN试剂的行动,而特定侦察是在确认环境中发生了CBRN事件或存在了CBRN试剂后,为确定该地区污染物的类型和水平而采取的行动。应根据威胁程度准备和执行污染侦察。此外,为此目的所使用的设备和操作程序应确保对CBRN代理人的存在立即发出警报。消防队使用的设备目前的技术进步要求消防和救援行动考虑到在行动期间可能存在的威胁的仔细识别。进行侦察的必要性是由于受到攻击的建筑物的性质。在制定扑灭某一地点存在的危险化学品火灾的措施及其性质时,应考虑到化学武器剂、有毒工业化学品、爆炸物、产生易燃或自燃混合物的气体、放射源等。结论:波兰共和国境内的污染威胁呈上升趋势。列入国家污染探测和警报系统的实体应在技术和程序方面作好准备,以便在污染物发生的地方进行侦察和初步查明污染物。该系统配备了使用离子迁移谱(IMS)的设备。根据全球趋势,这些装置应陆续被灵敏度和选择性更好的溶液所取代。新的装置可以基于差分迁移度光谱(DMS)。该解决方案应适用于便携式和可运输的仪器。在应用新的技术解决办法的同时,应统一污染侦察领域的系统和制定合作计划,这将对人民和基础设施的安全产生重大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ion Mobility Spectrometry as a Part of a System for Rapid Detection of Toxic Chemicals
Aim: The aim of this paper is to present ion mobility spectrometry as a method for the local detection of chemical contaminants. Introduction: According to the doctrine currently in force in the Military Forces of the Republic of Poland, contamination reconnaissance is the action aimed at identifying the occurrence of chemical, biological, radiological and nuclear (CBRN) incidents or the presence of a CBRN agent in the environment. It involves observation, detection and specific contamination reconnaissance. Observation is the systematic tracking of the airspace, ground areas, people, animals and materials. Devices of visual, sound, electronic and photographic observation or other devices enabling the identification of a CBRN incident or the presence of a CBRN agent in the environment are used for that purpose. Detection is the action aimed at confirming the occurrence of a CBRN incident or the presence of a CBRN agent in the environment while specific reconnaissance is the action taken to specify the type and level of contaminants in the area once the occurrence of a CBRN incident or the presence of a CBRN agent in the environment is confirmed. Contamination reconnaissance should be prepared and performed as appropriate to the threat level. Moreover, the equipment and operating procedures employed to that end should ensure immediate alerts on the presence of CBRN agents. The current technological advancement of equipment used by fire brigades requires that fire and rescue operations take into account the careful identification of threats which may be present during the operation. The necessity for carrying out reconnaissance results from the nature of buildings under fire. While preparing measures for fighting fires of dangerous chemicals present at a given location and their properties, one should take into account chemical weapon agents (CWAs), toxic industrial chemicals (TICs), explosives, gases creating flammable or self-igniting mixtures, radioactive sources, etc. Conclusions: Contamination threats in the territory of the Republic of Poland are on an upward trend. The entities included in the National System of Contamination Detection and Alerting should be prepared, in both technical and procedural terms, for conducting reconnaissance and initial identification of contaminants at the place of their occurrence. The system is equipped with devices using ion mobility spectrometry (IMS). According to global trends, these devices should be successively replaced with solutions characterised by better sensitivity and selectivity. New devices could be based on differential mobility spectrometry (DMS). This solution should apply to portable and transportable instruments. The application of new technical solutions should be accompanied by the unification of the system in the area of contamination reconnaissance and the creation of cooperation plans, and this would have a significant impact on the safety of people and infrastructure.
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