Title |
Author |
| Progress made
in the Chemical Demilitarisation: Meeting Verification Challenges |
Jerzy Mazur |
| Optimisation
of the Verification of the Destruction of Chemical Weapons Part
1: Concept |
Per Runn |
| Optimisation
of the Verification Destruction of Chemical Weapons Part 2: Case
Study |
Gabriela Coman-Enescu |
| Statement from
Japan |
Hisashi Michigami |
| Actual Problems
of Chemical Disarmament: CW Convention after the first review conference |
Jiri Matousek |
| Actual Problems
of Chemical Disarmament: CW Convention after the first review conference |
Jiri Matousek |
| Pre-1946 Chemical
Weapons |
Jeffrey Osborne |
| Tracking the
Canadian CB Legacy - A two-year historical review |
Daniel Godbout |
| Tracking the
Canadian CB Legacy - A two-year historical review |
Daniel Godbout |
| Progress of ACW
Project in the Technical and Environmental Aspect |
Takayuki Matsuda |
| Chemical Weapons
Destruction in Russia: Participation of NGOs in building elements
of civil society |
Vladimir Leonov |
| Environmental
safety concerns at chemical stockpile and destruction sites in Russia |
Vladimir Kolodkin |
| Lessons learned
Facilitating US & RF CW Destruction |
Paul Walker |
| Disposal of Old
Chemical Weapons by Controlled Detonation - Performance Analysis
of the Kanda Port Campaign |
Michel Lefebvre |
| Feasibility Assessment
of Adsorption Based Treatment Approaches to Capture and Contain
Sulphur Mustard From Contaminated Soils |
Marc Halevy |
| Mitigating the
Possible Damaging Effects of 20th Century Ocean Dumping of Chemical
Weapons |
Emily Baine |
| Mitigating the
Possible Damaging Effects of 20th Century Ocean Dumping of Chemical
Weapons |
Emily Baine |
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| Tele-Robotic
Systems for Recovery of Buried Munitions in China |
Hiroshi Niho |
| Tele-Robotic
Systems for Recovery of Buried Munitions in China |
Hiroshi Niho |
|
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| Nationwide non-stockpile
chemical warefare materiel scoping and security study |
Joseph Cudney |
| Nationwide non-stockpile
chemical warefare materiel scoping and security study |
Joseph Cudney |
| Destruction of
OCW at Kanda Project |
Joseph Asahina Kiyoshi |
| Pre-inspection
Briefing Inspected State Party |
Tierry Carreres |
| International
Government Construction Contracting: How Better Planning Can Save
Time, Money, and Relationships |
Louis Antonacci |
| International
Government Construction Contracting: How Better Planning Can Save
Time, Money, and Relationships |
Louis Antonacci |
| A Cultural Approach
Toward Better Chemical Security |
Igor Khripunov |
| A Cultural Approach
Toward Better Chemical Security |
Igor Khripunov |
| Decontamination
of CW Contaminated Soil at Samukawa |
Yutaka Inada |
| Decontamination
of CW Contaminated Soil at Samukawa |
Yutaka Inada |
| The analysis
of free-VX nerve agent at low and Sub-Nanogram levels using a non-passivated
automated thermal desorption (TD) GC-FPD system |
Lara Kelly |
| The analysis
of free-VX nerve agent at low and Sub-Nanogram levels using a non-passivated
automated thermal desorption (TD) GC-FPD system |
Lara Kelly |
| Disposal of Old
Chemical Weapons by Controlled Detonation - Numerical and Experimental
Investigation of the Initiation and Fragmentation Processes |
Michel Lefebvre |
| Evaluation of
activated charcoals for removal of CWAs |
Peter Hudson |
| Evaluation of
activated charcoals for removal of CWAs |
Peter Hudson |
| Generation, Sampling
and Analysis for Low-Level GB (Sarin) and GF (Cyclo-Sarin) Vapor
for Inhalation Studies |
William Muse |
| Generation, Sampling
and Analysis for Low-Level GB (Sarin) and GF (Cyclo-Sarin) Vapor
for Inhalation Studies |
William Muse |
| Neutralization
of Chemical Warfare Agents found in German Traktor Rockets: Small
Scale Optimisation Study |
Kevin Morrissey |
| Destruction of
Organic and Explosive Compounds using the GeoMelt Process |
Brett Campbell |
| Destruction of
Organic and Explosive Compounds using the GeoMelt Process |
Brett Campbell |
| DAVINCH Controlled
Detonation Process Applied to Destroy 50kg Yellow Bombs and 15kg
Red Bombs |
Kenji Koide |
| DAVINCH Controlled
Detonation Process Applied to Destroy 50kg Yellow Bombs and 15kg
Red Bombs |
Kenji Koide |
| Portable Photocatalytic
Destruction system |
Iain Jarvies |
| Destruction of
OCW in Glass Beer Bottles at Samukawa |
Hisamitsu Shimoyama |
| Destruction of
OCW in Glass Beer Bottles at Samukawa |
Hisamitsu Shimoyama |
| Processing Lewisite
in the Explosive Destruction System (EDS) |
John Didlake |
| Processing Lewisite
in the Explosive Destruction System (EDS) |
John Didlake |
|
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| Controlled Detonation
of Chemical Munitions |
Brint Bixler |
| Demonstration/Validation
Testing of the TC-60 Controlled Detonation Chamber |
Raymond DiBerardo |
| Thermal Desorption
Technology from Markes International Ltd |
Gareth Roberts |
| Thermal Desorption
Technology from Markes International Ltd |
Gareth Roberts |
| Monitoring and
Analytical Method and Results of Kanda Port Project |
Tsuyoshi Imakita |
| Monitoring and
Analytical Method and Results of Kanda Port Project |
Tsuyoshi Imakita |
| Meeting the Challenges
of Post-911 Stockpile Elimination at the Aberdeen Chemical Agent
Disposal Facility at Aberdeen Proving Ground |
Daniel Taylor |
| CO2 Blast 5X
Decontamination System |
Alan Seitzinger |
| CO2 Blast 5X
Decontamination System |
Alan Seitzinger |
| Assembled Chemical
Weapons Alternatives: A Partnership for safe Chemical Weapons Destruction |
Joseph Novad |
| Semi-Mobile Plants
for the Advantageous Disposal of Chemical Weapons in Decentralised
Storage |
Birgit Fischer |
| Anniston Chemical
Agent Disposal Facility Leading the way to a safer future |
Tim Garrett |
| Statement from
US |
Paul Boren |
| Advancing science
and sustainability: Engaging Russian and Eurasian scientists with
chemical weapons expertise in peaceful and sustainable collaborative
efforts |
Beth Cameron |
| Advancing science
and sustainability: Engaging Russian and Eurasian scientists with
chemical weapons expertise in peaceful and sustainable collaborative
efforts |
Beth Cameron |
| Monitoring of
the Environmental Safety and Occupational Health during Chemical
Demilitarisation in Russia |
Evgeny Fokin |
| Monitoring of
the Environmental Safety and Occupational Health during Chemical
Demilitarisation in Russia |
Evgeny Fokin |
| Clinical picture
and pathogenesis of delayed neuroendocrinal toxicity of VX to be
destructed in Russia |
V Ya Shul'ga |
| Clinical picture
and pathogenesis of delayed neuroendocrinal toxicity of VX to be
destructed in Russia |
V Ya Shul'ga |
| The comparative
danger of chemical weapons, products of degradation and organophosphorus
pesticides for aquatic ecosystem health |
Valerii Tonkopii |
| The comparative
danger of chemical weapons, products of degradation and organophosphorus
pesticides for aquatic ecosystem health |
Valerii Tonkopii |
| Using Human Experimental
Data to Derive Acute Exposure Concentrations for HD, GB and VX |
Kathryn Kelly |
| Using Human Experimental
Data to Derive Acute Exposure Concentrations for HD, GB and VX |
Kathryn Kelly |
| Chemical Demilitarisation
Programme Management |
Kevin Flamm |
| Chemical Demilitarisation
Programme Management |
Kevin Flamm |
| Former disposal
methods provide present day exposure potential |
James Gerkin |
| Former disposal
methods provide present day exposure potential |
James Gerkin |
| Munster III facility
under final construction |
Holger Weigel |
