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Transport of Dangerous Goods
ST/SG/AC.10/1/Rev.16 (Vol.I) Recommendations on the TRANSPORT OF DANGEROUS GOODS Model Regulations Volume I Sixteenth revised edition UNITED NATIONS New York and Geneva, 2009 NOTE The designations employed and the presentation of the material in this publication do not imply the expression of any opinion whatsoever on the part of the Secretariat of the United Nations concerning the legal status of any country, territory, city or area, or of its authorities, or concerning the delimitation of its frontiers or boundaries. ST/SG/AC.10/1/Rev.16 (Vol.I) Copyright © United Nations, 2009 All rights reserved. No part of this publication may, for sales purposes, be reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, electrostatic, magnetic tape, mechanical, photocopying or otherwise, without prior permission in writing from the United Nations. UNITED NATIONS Sales No. E.09.VIII.2 ISBN 978-92-1-139136-7 (complete set of two volumes) ISSN 1014-5753 Volumes I and II not to be sold separately FOREWORD The Recommendations on the Transport of Dangerous Goods are addressed to governments and to the international organizations concerned with safety in the transport of dangerous goods. The first version, prepared by the United Nations Economic and Social Council's Committee of Experts on the Transport of Dangerous Goods, was published in 1956 (ST/ECA/43-E/CN.2/170). In response to developments in technology and the changing needs of users, they have been regularly amended and updated at succeeding sessions of the Committee of Experts pursuant to Resolution 645 G (XXIII) of 26 April 1957 of the Economic and Social Council and subsequent resolutions. -
Immediately Dangerous to Life Or Health (Idlh) Value Profile for Chlorine Pentafluoride [Cas No. 13637-63-3] and Bromine Pentafl
External Review Draft March 2015 1 2 3 4 5 6 7 IMMEDIATELY DANGEROUS TO LIFE OR HEALTH (IDLH) VALUE PROFILE 8 9 10 11 FOR 12 13 14 15 CHLORINE PENTAFLUORIDE [CAS NO. 13637-63-3] 16 17 AND 18 19 BROMINE PENTAFLUORIDE [CAS NO. 7789-30-2] 20 21 22 23 24 25 26 Department of Health and Human Services 27 Centers for Disease Control and Prevention 28 National Institute for Occupational Safety and Health This information is distributed solely for the purpose of pre-dissemination peer review under applicable information quality guidelines. It has not been formally disseminated by the National Institute for Occupational Safety and Health. It does not represent and should not be construed to represent any agency determination or policy. i External Review Draft March 2015 1 DISCLAIMER 2 Mention of any company or product does not constitute endorsement by the National Institute for Occupational 3 Safety and Health (NIOSH). In addition, citations of Web sites external to NIOSH do not constitute NIOSH 4 endorsement of the sponsoring organizations or their programs or products. Furthermore, NIOSH is not 5 responsible for the content of these Web sites. 6 7 ORDERING INFORMATION 8 This document is in the public domain and may be freely copied or reprinted. To receive NIOSH documents or 9 other information about occupational safety and health topics, contact NIOSH at 10 Telephone: 1-800-CDC-INFO (1-800-232-4636) 11 TTY: 1-888-232-6348 12 E-mail: [email protected] 13 14 or visit the NIOSH Web site at www.cdc.gov/niosh. -
Copyrighted Material
1 Historical Milieu 1.1 Organophosphorus Nerve Agents 2 1.2 Blister Agents 5 1.3 Sternutator Agents 11 1.4 Chemical Weapons Convention (CWC) 13 1.4.1 Schedule of Chemicals 14 1.4.2 Destruction of Chemical Weapons 14 References 16 COPYRIGHTED MATERIAL Analysis of Chemical Warfare Degradation Products, First Edition. Karolin K. Kroening, Renee N. Easter, Douglas D. Richardson, Stuart A. Willison and Joseph A. Caruso. © 2011 John Wiley & Sons, Ltd. Published 2011 by John Wiley & Sons, Ltd. 2 ANALYSIS OF CHEMICAL WARFARE DEGRADATION PRODUCTS 1.1 ORGANOPHOSPHORUS NERVE AGENTS Organophosphorus (OP) type compounds, that is, deriva- tives containing the P=O moiety, were first discovered in the 1800s when researchers were investigating useful applica- tions for insecticides/rodenticides. There are many derivatives of organophosphorus compounds, however, the OP deriva- tives that are typically known as ‘nerve agents’ were discov- ered accidentally in Germany in 1936 by a research team led by Dr. Gerhard Schrader at IG Farben [1–4]. Schrader had noticed the effects and lethality of these organophosphorus compounds towards insects and began developing a new class of insecticides. While working towards the goal of an improved insecticide, Schrader experimented with numerous phosphorus-containing compounds, leading to the discovery of the first nerve agent, Tabun (or GA) (Figure 1.1). The potency of these insecticides towards humans was not realized until there was yet another accident, which involved a Tabun spill. Schrader and coworkers began experiencing symptoms, such as miosis (constriction of the pupils of the eyes), dizziness and severe shortness of breath, with numerous effects lasting several weeks [1, 4, 5]. -
Downloads/DL Praevention/Fachwissen/Gefahrstoffe/TOXIKOLOGI SCHE BEWERTUNGEN/Bewertungen/Toxbew072-L.Pdf
Distribution Agreement In presenting this thesis or dissertation as a partial fulfillment of the requirements for an advanced degree from Emory University, I hereby grant to Emory University and its agents the non-exclusive license to archive, make accessible, and display my thesis or dissertation in whole or in part in all forms of media, now or hereafter known, including display on the world wide web. I understand that I may select some access restrictions as part of the online submission of this thesis or dissertation. I retain all ownership rights to the copyright of the thesis or dissertation. I also retain the right to use in future works (such as articles or books) all or part of this thesis or dissertation. Signature: _____________________________ ______________ Jedidiah Samuel Snyder Date Statistical analysis of concentration-time extrapolation factors for acute inhalation exposures to hazardous substances By Jedidiah S. Snyder Master of Public Health Global Environmental Health _________________________________________ P. Barry Ryan, Ph.D. Committee Chair _________________________________________ Eugene Demchuk, Ph.D. Committee Member _________________________________________ Paige Tolbert, Ph.D. Committee Member Statistical analysis of concentration-time extrapolation factors for acute inhalation exposures to hazardous substances By Jedidiah S. Snyder Bachelor of Science in Engineering, B.S.E. The University of Iowa 2010 Thesis Committee Chair: P. Barry Ryan, Ph.D. An abstract of A thesis submitted to the Faculty of the Rollins School of Public Health of Emory University in partial fulfillment of the requirements for the degree of Master of Public Health in Global Environmental Health 2015 Abstract Statistical analysis of concentration-time extrapolation factors for acute inhalation exposures to hazardous substances By Jedidiah S. -
US EPA Inert (Other) Pesticide Ingredients
U.S. Environmental Protection Agency Office of Pesticide Programs List of Inert Pesticide Ingredients List 3 - Inerts of unknown toxicity - By Chemical Name UpdatedAugust 2004 Inert Ingredients Ordered Alphabetically by Chemical Name - List 3 Updated August 2004 CAS PREFIX NAME List No. 6798-76-1 Abietic acid, zinc salt 3 14351-66-7 Abietic acids, sodium salts 3 123-86-4 Acetic acid, butyl ester 3 108419-35-8 Acetic acid, C11-14 branched, alkyl ester 3 90438-79-2 Acetic acid, C6-8-branched alkyl esters 3 108419-32-5 Acetic acid, C7-9 branched, alkyl ester C8-rich 3 2016-56-0 Acetic acid, dodecylamine salt 3 110-19-0 Acetic acid, isobutyl ester 3 141-97-9 Acetoacetic acid, ethyl ester 3 93-08-3 2'- Acetonaphthone 3 67-64-1 Acetone 3 828-00-2 6- Acetoxy-2,4-dimethyl-m-dioxane 3 32388-55-9 Acetyl cedrene 3 1506-02-1 6- Acetyl-1,1,2,4,4,7-hexamethyl tetralin 3 21145-77-7 Acetyl-1,1,3,4,4,6-hexamethyltetralin 3 61788-48-5 Acetylated lanolin 3 74-86-2 Acetylene 3 141754-64-5 Acrylic acid, isopropanol telomer, ammonium salt 3 25136-75-8 Acrylic acid, polymer with acrylamide and diallyldimethylam 3 25084-90-6 Acrylic acid, t-butyl ester, polymer with ethylene 3 25036-25-3 Acrylonitrile-methyl methacrylate-vinylidene chloride copoly 3 1406-16-2 Activated ergosterol 3 124-04-9 Adipic acid 3 9010-89-3 Adipic acid, polymer with diethylene glycol 3 9002-18-0 Agar 3 61791-56-8 beta- Alanine, N-(2-carboxyethyl)-, N-tallow alkyl derivs., disodium3 14960-06-6 beta- Alanine, N-(2-carboxyethyl)-N-dodecyl-, monosodium salt 3 Alanine, N-coco alkyl derivs. -
2018 Annual Survey of Biological and Chemical Agents Regulated by Homeland Security (And Carcinogens Regulated by OSHA)
Name: Dept: Date: 2018 Annual Survey of Biological and Chemical Agents regulated by Homeland Security (and carcinogens regulated by OSHA) Due (date) All labs that do not have a current chemical inventory in Chematix MUST complete this survey. The University is required to make an annual report of all chemicals on the Chemical Facility Anti-Terrorism Standards (CFATS) lists. Additional information regarding the regulations is available on the EH&S website at http://www.safety.rochester.edu/restricted/occsafe/chemicalagent.html and https://www.selectagents.gov. 1. Please review the lists on the following pages and indicate if any are possessed by your lab. The CAS# has been added to the list for ease of searching databases. The CAS# is a Chemical Abstract Service numbering system which assigns a unique number to every chemical substance based on structure; this helps avoid confusion by use of synonyms or different naming conventions. a. If yes for possession, place an X in the applicable box and if requested, include the quantity held in your lab. b. If no, leave blank. 2. After reviewing the list, please complete the information box below (or on last page for possession), then sign, date and return to EH&S. 3. Please call Donna Douglass at 275-2402 if you have any questions. Thank you for your cooperation in collecting data required by the Department of Homeland Security! Possession: 1) Fill in applicable boxes, 2) have PI sign last page, 3) return all pages to Donna Douglass OR Non-possession: 1) Check only one box on the left, 2) sign, 3) return just this page to Donna Douglass I do not have a lab, do not work in a lab, nor do I possess any of the agents in this survey. -
SAPRC07T Mechanism Species Definition Molecular Weight ACETONE Acetone 58.08 ACETYLENE Acetylene 26.04 ACROLEIN Acrolein 56.06 A
SAPRC07T Mechanism Species Molecular Species Definition weight ACETONE Acetone 58.08 ACETYLENE Acetylene 26.04 ACROLEIN Acrolein 56.06 ACROLEIN_PRIMARY Acrolein emissions tracer 56.06 Lumped photoreactive monounsaturated dicarbonyl aromatic AFG1 fragmentation products that photolyze to form radicals 98.10 Lumped photoreactive monounsaturated dicarbonyl aromatic fragmentation products that photolyze to form non-radical AFG2 products 98.10 Lumped diunsaturatred dicarbonyl aromatic fragmentation AFG3 product. 124.14 Alkanes and other non-aromatic compounds that react only with OH, and have kOH between 2 and 5 x 102 ppm-1 min-1. ALK1 (Primarily ethane) 30.07 Alkanes and other non-aromatic compounds that react only with OH, and have kOH between 5 x 102 and 2.5 x 103 ppm-1 ALK2 min-1. (Primarily propane and acetylene) 36.73 Alkanes and other non-aromatic compounds that react only with OH, and have kOH between 2.5 x 103 and 5 x 103 ppm-1 ALK3 min-1. 58.61 Alkanes and other non-aromatic compounds that react only with OH, and have kOH between 5 x 103 and 1 x 104 ppm-1 ALK4 min-1. 77.6 Alkanes and other non-aromatic compounds that react only ALK5 with OH, and have kOH greater than 1 x 104 ppm-1 min-1. 118.89 SAPRC07T Mechanism Species Molecular Species Definition weight SOA precursor compounds products from largest alkanes ALK5RXN (ALK5) 118.9 APIN -pinene 136.23 ARO1 Aromatics with kOH < 2x104 ppm-1 min-1. 95.16 ARO2 Aromatics with kOH > 2x104 ppm-1 min-1. 118.72 BACL Biacetyl 86.09 BALD Aromatic aldehydes (e.g., benzaldehyde) 106.13 BENZENE Benzene 78.11 SOA precursor compounds from benzene via peroxy radical BNZHRXN reaction with HO2 127 SOA precursor compounds from benzene via peroxy radical BNZNRXN reaction with NO 127 BNZRO2 SOA precursor surrogate from benzene 127 BUTADIENE13 1,3-butadiene 54.09 BZCO3 Peroxyacyl radical formed from Aromatic Aldehydes 137.11 BZO Phenoxy Radicals 93 CCHO Acetaldehyde 44.05 CCHO_PRIMARY Acetaldehyde Emissions Tracer 44.05 CCOOH Acetic Acid. -
Lonza's Chemical Network Diketene and HCN Derivatives, Heterocycles
Lonza’s chemical network Diketene and HCN derivatives, heterocycles and basic chemicals catalog Pharma&Biotech Nutrition Agriculture MaterialsScience PersonalCare Diketene and HCN derivatives, heterocycles and basic chemicals catalog Content About Lonza 3 Introduction 4 Diketene / ketene derivatives 6 Esters 6 Arylides 7 Alkylamides 8 Pyrazolones 9 Dehydroacetic acid 9 Lonzamon monomers 10 Other diketene derivatives 10 HCN derivatives 12 Heterocycles 14 Basic chemicals 16 Others 17 Alphabetical index 18 About Lonza Lonza is the global leader in the production and support of active phar- From 1897 to the present day combining Swiss tradition with global maceutical ingredients both chemically and biotechnologically. Biophar- experience, the company has had an enterprising character, adapting maceuticals are one of the key growth drivers of the pharmaceutical and its offerings and services to the needs of customers and to changing biotechnology industries. technologies. Throughout our history, we have maintained a strong culture of performance, results and dependability that is valued by all Lonza has strong capabilities in large and small molecules, peptides, of our customers. amino acids and niche bioproducts which play an important role in the development of novel medicines and healthcare products. In addition, Lonza’s cracker in Visp is the back bone of a comprehensive fully back- Lonza is a leader in cell-based research, endotoxin detection and cell ward integrated chemical network. Our product portfolio consists of therapy manufacturing. Furthermore, the company is a leading provider HCN- and diketene derivatives as well as basic chemicals which are key of chemical and biotech ingredients to the nutrition, hygiene, preserva- raw materials and intermediates for many sophisticated applications. -
Assessment of Portable HAZMAT Sensors for First Responders
The author(s) shown below used Federal funds provided by the U.S. Department of Justice and prepared the following final report: Document Title: Assessment of Portable HAZMAT Sensors for First Responders Author(s): Chad Huffman, Ph.D., Lars Ericson, Ph.D. Document No.: 246708 Date Received: May 2014 Award Number: 2010-IJ-CX-K024 This report has not been published by the U.S. Department of Justice. To provide better customer service, NCJRS has made this Federally- funded grant report available electronically. Opinions or points of view expressed are those of the author(s) and do not necessarily reflect the official position or policies of the U.S. Department of Justice. Assessment of Portable HAZMAT Sensors for First Responders DOJ Office of Justice Programs National Institute of Justice Sensor, Surveillance, and Biometric Technologies (SSBT) Center of Excellence (CoE) March 1, 2012 Submitted by ManTech Advanced Systems International 1000 Technology Drive, Suite 3310 Fairmont, West Virginia 26554 Telephone: (304) 368-4120 Fax: (304) 366-8096 Dr. Chad Huffman, Senior Scientist Dr. Lars Ericson, Director UNCLASSIFIED This project was supported by Award No. 2010-IJ-CX-K024, awarded by the National Institute of Justice, Office of Justice Programs, U.S. Department of Justice. The opinions, findings, and conclusions or recommendations expressed in this publication are those of the author(s) and do not necessarily reflect those of the Department of Justice. This document is a research report submitted to the U.S. Department of Justice. This report has not been published by the Department. Opinions or points of view expressed are those of the author(s) and do not necessarily reflect the official position or policies of the U.S. -
Kinetic Modeling of the Thermal Destruction of Nitrogen Mustard
Kinetic Modeling of the Thermal Destruction of Nitrogen Mustard Gas Juan-Carlos Lizardo-Huerta, Baptiste Sirjean, Laurent Verdier, René Fournet, Pierre-Alexandre Glaude To cite this version: Juan-Carlos Lizardo-Huerta, Baptiste Sirjean, Laurent Verdier, René Fournet, Pierre-Alexandre Glaude. Kinetic Modeling of the Thermal Destruction of Nitrogen Mustard Gas. Journal of Physical Chemistry A, American Chemical Society, 2017, 121 (17), pp.3254-3262. 10.1021/acs.jpca.7b01238. hal-01708219 HAL Id: hal-01708219 https://hal.archives-ouvertes.fr/hal-01708219 Submitted on 13 Feb 2018 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Kinetic Modeling of the Thermal Destruction of Nitrogen Mustard Gas Juan-Carlos Lizardo-Huerta†, Baptiste Sirjean†, Laurent Verdier‡, René Fournet†, Pierre-Alexandre Glaude†,* †Laboratoire Réactions et Génie des Procédés, CNRS, Université de Lorraine, 1 rue Grandville BP 20451 54001 Nancy Cedex, France ‡DGA Maîtrise NRBC, Site du Bouchet, 5 rue Lavoisier, BP n°3, 91710 Vert le Petit, France *corresponding author: [email protected] Abstract The destruction of stockpiles or unexploded ammunitions of nitrogen mustard (tris (2- chloroethyl) amine, HN-3) requires the development of safe processes. -
Nerve Agent - Lntellipedia Page 1 Of9 Doc ID : 6637155 (U) Nerve Agent
This document is made available through the declassification efforts and research of John Greenewald, Jr., creator of: The Black Vault The Black Vault is the largest online Freedom of Information Act (FOIA) document clearinghouse in the world. The research efforts here are responsible for the declassification of MILLIONS of pages released by the U.S. Government & Military. Discover the Truth at: http://www.theblackvault.com Nerve Agent - lntellipedia Page 1 of9 Doc ID : 6637155 (U) Nerve Agent UNCLASSIFIED From lntellipedia Nerve Agents (also known as nerve gases, though these chemicals are liquid at room temperature) are a class of phosphorus-containing organic chemicals (organophosphates) that disrupt the mechanism by which nerves transfer messages to organs. The disruption is caused by blocking acetylcholinesterase, an enzyme that normally relaxes the activity of acetylcholine, a neurotransmitter. ...--------- --- -·---- - --- -·-- --- --- Contents • 1 Overview • 2 Biological Effects • 2.1 Mechanism of Action • 2.2 Antidotes • 3 Classes • 3.1 G-Series • 3.2 V-Series • 3.3 Novichok Agents • 3.4 Insecticides • 4 History • 4.1 The Discovery ofNerve Agents • 4.2 The Nazi Mass Production ofTabun • 4.3 Nerve Agents in Nazi Germany • 4.4 The Secret Gets Out • 4.5 Since World War II • 4.6 Ocean Disposal of Chemical Weapons • 5 Popular Culture • 6 References and External Links --------------- ----·-- - Overview As chemical weapons, they are classified as weapons of mass destruction by the United Nations according to UN Resolution 687, and their production and stockpiling was outlawed by the Chemical Weapons Convention of 1993; the Chemical Weapons Convention officially took effect on April 291997. Poisoning by a nerve agent leads to contraction of pupils, profuse salivation, convulsions, involuntary urination and defecation, and eventual death by asphyxiation as control is lost over respiratory muscles. -
Aegls Brochure
4.85 5 5 About the Board on Environmental Studies and Toxicology The Board on Environmental Studies and Toxicology addresses Types of Chemicals Covered in the AEGLs Series environmental pollution problems affecting human health, human impacts on the environment, and the assessment and management of risks to AEGLs values for the chemicals listed below were published in the first human health and the environment. The board’s reports answer questions six volumes of the AEGLs series. AEGLs for additional chemicals will about air and water pollution; solid and hazardous waste; toxicology; continue to be published in subsequent volumes. epidemiology; risk assessment; applied ecology; natural resources; and environmental engineering, economics, law, and policy. Allylamine Hydrogen fluoride Ammonia Iron pentacarbonyl Aniline Methyl hydrazine Arsine Methyl isocyanate About NRC Reports from the National Academies Protecting Chlorine Nerve agents GA [tabun], The National Academies, through its National Research Council reports, Chlorine dioxide GB [sarin], GD [soman], GF, provides a unique public service by working outside the framework of Chlorine trifluoride and VX the Public and government to ensure independent, expert advice on matters of science, Crotonaldehyde Nickel carbonyl technology, and medicine. Today, the National Academies include three Cyclohexylamine Phosgene honorary societies that elect new members to their ranks each year- Diborane Phosphine Emergency the National Academy of Sciences, the National Academy of Engineering, 1,1-Dichloro-1-fluoroethane Propylene glycol dinitrate and the Institute of Medicine-and the National Research Council, the (HCFC-141B) Sulfur mustard operating arm that conducts the bulk of the institution’s Dimethylhydrazine 1,1,1,2-Tetrafluoroethane Workers science-policy and technical work.