Vapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] /

Vapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] /

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The fast detection of explosives from the vapor phase would be one way to enhance the protection of society against terrorist attacks. Up to now the problem of detection of explosives, especially the location of explosives whether at large areas e. g. station halls, theaters or hidden in cars, aircraft cargo, baggage or explosives hidden in crowds e. g. suicide bombers or bombs in bags has not been solved. Smelling of explosives like dogs do seems to be a valuable tool for a security chain. In general different strategies can be adopt to the basic problem of explosive detection: • bulk detection • vapor detection Normally meetings cover both aspects and applications of the detection. Even though both methods might fulfill special aspects of a general security chain the underlying scientific questions differ strongly. Because of that the discussions of the scientists and practitioners from the different main directions are sometimes only less specific. Therefore the NATO Advisory Panel in Security-Related Civil Science and Technology proposed a small series of NATO ARW's which focuses on the different scientific aspects of explosives detection methods. This book is based on material presented at the first NATO ARW of this series in Moscow which covered the topic: Vapor and trace detection of explosives. The second ARW was held in St. Petersburg and treated the topic Bulk detection methods. The third workshop was held in Warwick and focused on electronic noses which cover a somewhat different aspect of vapor detection.

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Bibliographic Details
Main Authors: Krausa, Michael. editor., Reznev, Aleksey Alekseyvitch. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Dordrecht : Springer Netherlands : Imprint: Springer, 2004
Subjects:Chemistry., Analytical chemistry., Physical chemistry., Chemical engineering., Analytical Chemistry., Physical Chemistry., Safety in Chemistry, Dangerous Goods., Industrial Chemistry/Chemical Engineering.,
Online Access:http://dx.doi.org/10.1007/978-1-4020-2716-1
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id KOHA-OAI-TEST:214664
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Chemistry.
Analytical chemistry.
Physical chemistry.
Chemical engineering.
Chemistry.
Analytical Chemistry.
Physical Chemistry.
Safety in Chemistry, Dangerous Goods.
Industrial Chemistry/Chemical Engineering.
Chemistry.
Analytical chemistry.
Physical chemistry.
Chemical engineering.
Chemistry.
Analytical Chemistry.
Physical Chemistry.
Safety in Chemistry, Dangerous Goods.
Industrial Chemistry/Chemical Engineering.
spellingShingle Chemistry.
Analytical chemistry.
Physical chemistry.
Chemical engineering.
Chemistry.
Analytical Chemistry.
Physical Chemistry.
Safety in Chemistry, Dangerous Goods.
Industrial Chemistry/Chemical Engineering.
Chemistry.
Analytical chemistry.
Physical chemistry.
Chemical engineering.
Chemistry.
Analytical Chemistry.
Physical Chemistry.
Safety in Chemistry, Dangerous Goods.
Industrial Chemistry/Chemical Engineering.
Krausa, Michael. editor.
Reznev, Aleksey Alekseyvitch. editor.
SpringerLink (Online service)
Vapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] /
description The fast detection of explosives from the vapor phase would be one way to enhance the protection of society against terrorist attacks. Up to now the problem of detection of explosives, especially the location of explosives whether at large areas e. g. station halls, theaters or hidden in cars, aircraft cargo, baggage or explosives hidden in crowds e. g. suicide bombers or bombs in bags has not been solved. Smelling of explosives like dogs do seems to be a valuable tool for a security chain. In general different strategies can be adopt to the basic problem of explosive detection: • bulk detection • vapor detection Normally meetings cover both aspects and applications of the detection. Even though both methods might fulfill special aspects of a general security chain the underlying scientific questions differ strongly. Because of that the discussions of the scientists and practitioners from the different main directions are sometimes only less specific. Therefore the NATO Advisory Panel in Security-Related Civil Science and Technology proposed a small series of NATO ARW's which focuses on the different scientific aspects of explosives detection methods. This book is based on material presented at the first NATO ARW of this series in Moscow which covered the topic: Vapor and trace detection of explosives. The second ARW was held in St. Petersburg and treated the topic Bulk detection methods. The third workshop was held in Warwick and focused on electronic noses which cover a somewhat different aspect of vapor detection.
format Texto
topic_facet Chemistry.
Analytical chemistry.
Physical chemistry.
Chemical engineering.
Chemistry.
Analytical Chemistry.
Physical Chemistry.
Safety in Chemistry, Dangerous Goods.
Industrial Chemistry/Chemical Engineering.
author Krausa, Michael. editor.
Reznev, Aleksey Alekseyvitch. editor.
SpringerLink (Online service)
author_facet Krausa, Michael. editor.
Reznev, Aleksey Alekseyvitch. editor.
SpringerLink (Online service)
author_sort Krausa, Michael. editor.
title Vapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] /
title_short Vapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] /
title_full Vapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] /
title_fullStr Vapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] /
title_full_unstemmed Vapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] /
title_sort vapour and trace detection of explosives for anti-terrorism purposes [electronic resource] /
publisher Dordrecht : Springer Netherlands : Imprint: Springer,
publishDate 2004
url http://dx.doi.org/10.1007/978-1-4020-2716-1
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spelling KOHA-OAI-TEST:2146642018-07-30T23:49:14ZVapour and Trace Detection of Explosives for Anti-Terrorism Purposes [electronic resource] / Krausa, Michael. editor. Reznev, Aleksey Alekseyvitch. editor. SpringerLink (Online service) textDordrecht : Springer Netherlands : Imprint: Springer,2004.engThe fast detection of explosives from the vapor phase would be one way to enhance the protection of society against terrorist attacks. Up to now the problem of detection of explosives, especially the location of explosives whether at large areas e. g. station halls, theaters or hidden in cars, aircraft cargo, baggage or explosives hidden in crowds e. g. suicide bombers or bombs in bags has not been solved. Smelling of explosives like dogs do seems to be a valuable tool for a security chain. In general different strategies can be adopt to the basic problem of explosive detection: • bulk detection • vapor detection Normally meetings cover both aspects and applications of the detection. Even though both methods might fulfill special aspects of a general security chain the underlying scientific questions differ strongly. Because of that the discussions of the scientists and practitioners from the different main directions are sometimes only less specific. Therefore the NATO Advisory Panel in Security-Related Civil Science and Technology proposed a small series of NATO ARW's which focuses on the different scientific aspects of explosives detection methods. This book is based on material presented at the first NATO ARW of this series in Moscow which covered the topic: Vapor and trace detection of explosives. The second ARW was held in St. Petersburg and treated the topic Bulk detection methods. The third workshop was held in Warwick and focused on electronic noses which cover a somewhat different aspect of vapor detection.1 Vapor Detection of Explosives for Countfr-Terrorism -- 2 Methods of Detection of Vapors and Traces of Explosives: A Modern Condition and Perspectives of Researches and Development -- 3 Detection of Explosives for Terrorist-Bombs and Landmine Clearance Different Applications of Similar Methods -- 4 Vapour and Trace Detection of Explosives -- 5 Analysis of Explosive Vapour Emission to Guide the Development of Vapour Detectors -- 6 Development and Characterization of Explosive Standards for Training and Testing of Vapor-Phase-Detectors -- 7 Tracking the Terrorists: Identification of Explosive Residues in Post-Explosion Debris by Lc/Ms Methods -- 8 Remote Explosive Scent Tracing — a method for detection of explosive and chemical substances -- 9 Detection of Traces of Explosives by Means of Sniffing Dogs -- 10 New Drift Spectrometer With the Surfase Ionization of the Organic Molecules -- 11 High-Speed Gas Analysis for Explosives Detection -- 12 Novel Technique for Ultra Sensitive Detection of Organic Compunds -- 13 The Analytical Characteristics of Ion Mobility Increment Spectrometer During the Detection of Explosive Vapours and Products of Their Degradation -- 14 Potentials and Requirements of an Electronic Nose for Use as a Vapor-Based Detector of Explosive Packages -- 15 Detection of Explosives Residues on Aircraft Boarding Passes -- 16 Freight Screening — Trace Detection.The fast detection of explosives from the vapor phase would be one way to enhance the protection of society against terrorist attacks. Up to now the problem of detection of explosives, especially the location of explosives whether at large areas e. g. station halls, theaters or hidden in cars, aircraft cargo, baggage or explosives hidden in crowds e. g. suicide bombers or bombs in bags has not been solved. Smelling of explosives like dogs do seems to be a valuable tool for a security chain. In general different strategies can be adopt to the basic problem of explosive detection: • bulk detection • vapor detection Normally meetings cover both aspects and applications of the detection. Even though both methods might fulfill special aspects of a general security chain the underlying scientific questions differ strongly. Because of that the discussions of the scientists and practitioners from the different main directions are sometimes only less specific. Therefore the NATO Advisory Panel in Security-Related Civil Science and Technology proposed a small series of NATO ARW's which focuses on the different scientific aspects of explosives detection methods. This book is based on material presented at the first NATO ARW of this series in Moscow which covered the topic: Vapor and trace detection of explosives. The second ARW was held in St. Petersburg and treated the topic Bulk detection methods. The third workshop was held in Warwick and focused on electronic noses which cover a somewhat different aspect of vapor detection.Chemistry.Analytical chemistry.Physical chemistry.Chemical engineering.Chemistry.Analytical Chemistry.Physical Chemistry.Safety in Chemistry, Dangerous Goods.Industrial Chemistry/Chemical Engineering.Springer eBookshttp://dx.doi.org/10.1007/978-1-4020-2716-1URN:ISBN:9781402027161

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