Workplace safety of nanostructured nanomaterials
|
|
- Dwain Caldwell
- 5 years ago
- Views:
Transcription
1 Workplace safety of nanostructured nanomaterials Dr. Markus Pridöhl Coordinator Nanotechnology 2 nd VCI stakeholder dialog Apr 19 th
2 Aggregation during gas phase synthesis Paticle formation Particle Growth Aggregation/agglomeration Precursor Product Energy
3 Formation of aggregates in the gas phase Aggregation
4 Formation of aggregates and agglomerates already in the reactor average primary particle size / nm residence time / ms 100 primary particles number n / #
5 Nanomaterials Nanoparticles Aggregates Agglomerates Chemically bonded Van der Waals forces Size determines surface area Fused primary particles Adhering aggregates/ primary particles Half life time of isolated 20 nm particles above 1 mg/m³ < 3,8 s* * Preining (1998) The physical nature of very, very small particles and its impact on their behaviour. J. Aerosol Sci. 29,
6 Agglomerates Particles strongly interact due to Van-der-Waals forces The smaller the particles the stronger the interaction, the more energy is needed for disintegration
7 Disintegration needs high energy Agglomerated aggregates Aggregates Strong shear forces Re-Agglomeration No disintegration without strong shear forces Immediate re-agglomeration without stabilizing surfactants
8 Nanostructured powders as delivered consist of microscale agglomerates
9 Take home message Nanoparticles strongly tend to form microscale fine particles Well-tried exposure control measures for fine particles are therefore meaningful for nanoparticles as well
10 Manufactured Nanomaterial Tentative ISO definition delivered to OECD Material Nanomaterial (one or more external dimensions or an internal or surface structure on the nanoscale) Other Materials Nano-object (one or more external dimensions on the nanoscale) Nano-structured material (internal or surface structure on the nanoscale) Nanorod Nanoplate Nanoparticle Nanocomposite Nanocrystalline Agglomerate Aggregate Manufactured nanomaterials: Nanomaterials intentionally produced to have specific properties or specific composition. Nanomaterial: material which is either a nano-object or is nanostructured Nano-object: material confined in one, two or three dimensions at the nanoscale Nanostructured: having an internal or surface structure on the nanoscale Nanoscale: The size range between 1 nm and 100 nm. Note: Products containing nanomaterials (e.g., tires, electronic equipment, coated DVDs) are not nanomaterials.
11 Workplace Safety Basis for risk management Investigation of hazard Determination of exposure Risk = Hazard x Exposure Risk reduction measures
12 Workplace measurement program for ultrafine particles launched First experiences made during measurements in different carbon black plants of 3 companies Number Size Distribution, Mass Concentration, and Particle Composition of PM1, PM2.5 and PM10 in Bag Filling Areas of Carbon Black Production, Kuhlbusch, Neumann, Fissan, Journal of Occupational and Environmental Hygiene, Oct. 2004, Degussa launched systematic measurement program in 2006 Measurements at different workplaces in 31Degussa sites worldwide Using same equipment and staff Expected duration about 3 years, depending on learning curve
13 Workplace exposure monitoring Since more than 20 years regular workplace exposure measurements take place at the Rheinfelden AEROSIL -plant : Result: on the long term average* - Inhalable dust < 2 mg/m³ (WEL Germany : 10 mg/m³) - Respirable dust < 0,5 mg/m³ (WEL Germany : 3 mg/m³) Determination of ultrafine particles (< 0,1 µm) at the workplaces of different carbon black plants** and current measurements in the AEROSIL plant Rheinfelden indicate at failure-free operation the number concentration of ultrafine particulates is comparable to the environmental atmosphere There are unexpected non-process related particle sources * During failure-free operation ** Number Size Distribution, Mass Concentration, and Particle Composition of PM1, PM2,5 and PM10 in Bag Filling Areas of Carbon Black Production, Kuhlbusch, Neumann, Fissan, Journal of Occupational and Environmental Hygiene, Oct. 2004,
14 Measures for workplace safety Technical measures Organizational measures
15 Workplace safety Technical measures I O 2 H 2 S i C l 4 T e m p e r a t u r e C C H 2 O P r o d u c t S i C l 4 V a r io u s M e t a l H a lid e s : T i C l 4 A l C l 3 H C l A E R O S I L 9 0, 2 0 0, 3 0 0, e t c. T i t a n i u m D io x i d e P 2 5, P 9 0 A l u m i n u m O x id e A l u 6 5, A l u C Process Avoid release of dust by use of closed systems Process runs below atmospheric pressure Local suction Room air ventilation
16 Workplace Safety Technical measures II Minimization of exposed employees Use of automatic bagging equipments Bagging area
17 Workplace safety Organizational measures I Good workplace hygiene Individual protection equipment Training and instruction Personal hygiene (bathrooms) Skin care
18 Workplace safety Organizational measures II Cleanliness Minimize dust in workplace
19 Occupational medical survey at the Rheinfelden AEROSIL -plant Examination: every 3 years Content of examination: case history, medical talk physical examination, Lung Function test, blood examination, urinal test, eye and hearing test, ECG Since 33 years: regular occupational medical examinations at the Rheinfelden AEROSIL -plant Result: these examinations did not show any sign of a increased number of respiratory disease cases
20 Information and dialog with customers and creating employees essentials IARC (WHO) alters classification of TiO 2 Information of employees by medical doctors and toxicologists Brochure for employees and customers Adapted safety data sheet See
21 Summary Nanoparticles strongly tend to form microscale fine particles Well-tried exposure control measures for fine particles are therefore meaningful for nanoparticles as well Systematic workplace measurement program for nanoparticles launched First published workplace measurements in different carbon black plants and current measurements in the Degussa Aerosil plant Rheinfelden indicate that the number concentration of ultrafine particulates is comparable to the environmental background atmosphere
22
Towards a responsible development of Nanomaterials
Towards a responsible development of Nanomaterials EVONIK Occupational Health Policy Dr. Hans-Jürgen Wiegand, Global Coordination Product Stewardship Evonik Degussa GmbH February 2009 CASG Workshop Responsible
More informationNANOTECHNOLOGY: AN INDUSTRIAL HYGIENE PERSPECTIVE. Loren Anderson, CIH, ROH
NANOTECHNOLOGY: AN INDUSTRIAL HYGIENE PERSPECTIVE Loren Anderson, CIH, ROH Agenda Hazard Identification: (Recognition) Defining Nanotechnology Identification of new nanotechnology in process Communication
More informationExposure to nanomaterials in Germany
Exposure to nanomaterials in Germany Results of the corporate survey of the Federal Institute for Occupational Health and Safety (BAuA) and the Association of the Chemical Industry (VCI) using questionnaires
More informationCommunicating business-to-business product information Dr. Markus Pridöhl
Communicating business-to-business product information Dr. Markus Pridöhl Brussels, Oct 2 nd 2008 Manufactured nanomaterials according to OECD Elemental nanomaterials Fullerenes (C 60 ) Multi-walled carbon
More informationInformation gathering
Photo: drops on nanostructured surface, FOX / Uwe Völkner Occupational safety and health in practice - Example new technologies: nanomaterials Dr. Miriam Baron, Federal Institute for Occupational Safety
More informationExposure to Nanomaterials:
Exposure to Nanomaterials: Challenges and Lessons form the Workplace Charles L. Geraci, Ph.D., CIH Centers for Disease Control and Prevention National Institute for Occupational Safety and Health Toward
More informationSafe use of nanomaterials Good examples from Finland
Safe use of nanomaterials Good examples from Finland SweNanoSafe Fokusmöte Nanomaterial i arbetsmiljön, World Trade Center, October 24, 2017; Kai Savolainen, MD, Research Professor, Finnish Institute of
More informationNanomaterials: Why risk assessment is so difficult
Nanomaterials: Why risk assessment is so difficult DL-18813-2014 The production of nanomaterials is booming worldwide. At the same time, they are suspected of having serious health effects. Drägerwerk
More informationNON-FUNCTIONALISED AND FUNCTIONALISED SILICA NANOSPHERES 1. Case metadata
NON-FUNCTIONALISED AND FUNCTIONALISED SILICA NANOSPHERES 1. Case metadata Country/ies of origin: Poland Year of publication by agency: 2011 Sector: NACE-Code: M 72.1 Research and experimental development
More informationCase Study Nanoparticle Containment
Case Study Nanoparticle Containment Dennis Ford Staff Engineer / Laser Safety Officer Abbott Vascular 1 Agenda Background Toxicology Measurement Systems Data Analysis Mitigation End Results 2 Agenda Background
More informationWorkplace exposure to nanoparticles Literature survey
Workplace exposure to nanoparticles Literature survey Chemical substances at work: facing up to the challenges Brussels 2-3 March 2009 Joanna Kosk-Bienko Project Manager Work Environment Information Unit
More informationSafe Use of Nanoparticles Standard Operating Procedure
Safe Use of Nanoparticles Standard Operating Procedure Augusta University - Environmental Health and Safety Division PURPOSE To provide health and safety guidance to faculty, staff, students and visitors
More informationDefinition and regulation in terms of mechanism of action and intended use
Definition and regulation in terms of mechanism of action and intended use 1 - Nanomaterial-containing medical devices 2 - (Ingestible) medical devices composed of substances IMDRF-3 / 20 March 2013 /
More information(manufactured) nano aerosols
Assessment of exposure to (manufactured) nano aerosols Derk Brouwer 2 Content Needs and relevance nano particles exposure measurements Measurement and sampling methods Observations in workplace practice
More informationHazard Communication Policy
Hazard Communication Policy University of Wisconsin-Platteville Reviewed 4/2016 The goal of this Hazard Communication Program is to be sure employers and employees are aware of work hazards and how to
More informationResponsibilities: Effective Date: November Revision Date: February 8, VP, Facilities and Construction Management. Issuing Authority:
Title: Chemical Hygiene Written Program Effective Date: November 2005 Revision Date: February 8, 2017 Issuing Authority: Responsible Officer: VP, Facilities and Construction Management Director Environmental
More informationProtecting Workers A NIOSH Nanomaterials Update
Protecting Workers A NIOSH Nanomaterials Update Alex Lindquist, CSP NREL ESH&Q Programs Group RMS SESHA Annual Mini Conference 10/29/2018 CONTENTS 1 2 3 4 A Quick Intro to Small Things News from NIOSH
More informationPeter Kearns, PhD OECD, ENV/EHS BIPM, April 2015
EXPOSURE MEASUREMENT AND EXPOSURE MITIGATION: ACTIVITIES OF OECD S WORKING PARTY ON MANUFACTURED NANOMATERIALS Peter Kearns, PhD OECD, ENV/EHS BIPM, April 2015 Areas covered by the OECD Programme Testing
More informationHAZARD COMMUNICATION SAFETY PROGRAM
Hazard Communication Program HAZARD COMMUNICATION SAFETY PROGRAM 1. Purpose. To provide an effective, written hazard communication program in compliance with company, State and Federal regulatory requirements.
More informationReport of. Nanomaterials Health and Safety Updates. Prepared for The Refractories Institute
Report of Nanomaterials Health and Safety Updates Prepared for February 26, 2018 1 Introduction Nanomaterials are materials with at least one dimension smaller than 100 nanometers (1 nanometer is 1 millionth
More informationNanoparticle Safety Program
Environmental Health & Safety 1314 Kinnear Rd. Columbus, Ohio 43212 Phone (614) 292-1284 Fax (614) 292-6404 http://www.ehs.osu.edu/ Nanoparticle Safety Program Prepared by: The Ohio State University Environmental
More informationNanotechnology & Respiratory Protection Issues
Background One of the emerging topics in industrial hygiene today is nanotechnology and the nanoparticles (i.e. less than 100 nanometers in diameter) it may produce - one million nanometres make up one
More informationNanoparticles : a security guide
Nanoparticles : a security guide For work at LTP (EPFL) From the 1st January 2005 Version 14.03.2007 H. Hofmann 1. Introduction and legal basis The Laboratory of Powder Technology has to provide a biosecurity
More informationNanoparticles in Research A Health and Safety Overview. October 2016
Nanoparticles in Research A Health and Safety Overview October 2016 About SLR: Nathan Redfern Employee owned International Company with 1,000 staff 200 staff & 13 Offices in Australia and New Zealand Established
More informationDefinitions. Dimensions
: Benefits and Risks A Challenge for Occupational Safety Definitions the ability to measure, see, manipulate and manufacture things between 1 and 100 nanometers (1 billionth of a meter) is seen as the
More informationDominick Fazarro, Ph.D., CSTM University of Texas at Tyler Webinar August 20, 2014
Dominick Fazarro, Ph.D., CSTM University of Texas at Tyler Webinar August 20, 2014 The future of nanotechnology The potential hazards of nanoparticles Behaving Safely Laboratory practices for workers Resources
More informationSodium Hypochlorite Solution, 10-16%
Chemical Identity Product Safety Summary for Sodium Hypochlorite Solution, 10-16% Name: Sodium Hypochlorite CAS number: 7681-52-9 Synonyms: Bleach, Hypo Chemical Formula: NaOCl Product Uses Trinity Manufacturing,
More informationLaboratory Chemical Safety. Pathology Training
Laboratory Chemical Safety Pathology Training Objectives Explain the OSHA standard for chemical safety as it relates to laboratory workers Explain Chemical labeling requirements Explain the NFPA diamond
More informationHazard Communication & Chemical Safety. Based on OSHA Standard
Hazard Communication & Chemical Safety Based on OSHA Standard 1910.1200 We use many chemicals We want you to know how to use them safely You will learn about The Hazards of Chemicals Our Written Program
More informationInternational publications on measuring nanoparticles with the portable testo DiSCmini particle counter.
Testo Book of Abstracts International publications on measuring nanoparticles with the portable testo DiSCmini particle counter. www.testo-particle.com testo DiSCmini Great insights into the world of the
More informationArt, Science or Voodoo?
Industrial Hygiene Art, Science or Voodoo? Presented by: Ed Parsons Outreach Program Coordinator Gulf Coast Safety Institute Objectives At the completion of this session, the participants will: Know what
More informationSafety research for a responsible use of nanomaterials
BASF Research Press Conference on May 27, 2014 Safety research for a responsible use of nanomaterials Dr. Robert Landsiedel Head of Short-Term Toxicology, BASF SE, Ludwigshafen Safety concerns with nanomaterials
More informationCharacterization Methods of Manufactured Nanomaterials for EHS Studies
Characterization Methods of Manufactured Nanomaterials for EHS Studies Steven W Brown, MS, CIH International Standards Organization Technical Committee #229 on Nanotechnologies Convener Work Group #3 Environmental
More informationEnvironmental and IH Considerations in Nanomaterial Production and Use
Environmental and IH Considerations in Nanomaterial Production and Use Elizabeth McMeekin, PE PPG Industries, Inc. emcmeekin@ppg.com Commercialization of NanoMaterials Conference Nov. 12, 2007 NanoMaterials
More informationMEASURING NANOPARTICLE EXPOSURE
MEASURING NANOPARTICLE EXPOSURE APPLICATION NOTE NSAM-001 The Nanoparticle Surface Area Monitor reports the surface area of inhaled particles deposited in the lung Nanoparticle Exposure There is increasing
More informationEUROPEAN COMMISSION ENTERPRISE AND INDUSTRY DIRECTORATE-GENERAL
EUROPEAN COMMISSION ENTERPRISE AND INDUSTRY DIRECTORATE-GENERAL Consumer goods Brussels, 2 nd February 2010 M/461 EN MANDATE ADDRESSED TO CEN, CENELEC AND ETSI FOR STANDARDIZATION ACTIVITIES REGARDING
More informationProtocol. Indranil Chowdhury Chemical and Environmental Engineering, University of California, Riverside
Protocol Project Title PI Theme Version Number: 2.0 Production Start Date: Version 2.0 Date: 01/10/12 Authors: Email: Department: Contact Phone # s: 951-827-6094 Reviewed/Revised by: Zhaoxia (Ivy) Ji Aqueous
More informationChemical Hygiene Plan for Laboratories
SAFETY POLICIES AND PROCEDURES MANUAL LABORATORY SAFETY 4.12.1 OVERVIEW Washington State University has developed the chemical hygiene plan to aid units in promoting a high standard of health and safety.
More information1. Employees need to be trained in understanding Material Safety Data Sheets. A. True B. False
Hazard Communication Quiz 1. Employees need to be trained in understanding Material Safety Data Sheets. 2. All workers should participate in HazCom training. 3. Proper labeling a. must identify the chemical
More informationNanomaterials in the Laboratory
Expert Chemistry Committee Laboratories Workgroup of the German Statutory Accident Insurance Association (DGUV) Nanomaterials in the Laboratory Tips and handling information Small structures with special
More informationCompact Orifice FlowMeter
Steam Data Reference Tables IM/OM/SDT Issue 1 Compact Orifice FlowMeter ABB The Company We are an established world force in the design and manufacture of instrumentation for industrial process control,
More informationNanotechnology. G. Schmid, H. Krug, R. Waser, V. Vogel, H. Fuchs, M. Grätzel, K. Kalyanasundaram, L Chi (Eds.) Volume 2: Environmental Aspects
G. Schmid, H. Krug, R. Waser, V. Vogel, H. Fuchs, M. Grätzel, K. Kalyanasundaram, L Chi (Eds.) Nanotechnology Volume 2: Environmental Aspects Edited by Harald Krug WILEY- VCH WILEY-VCH Verlag GmbH & Co.
More informationMarquette University Effective: 5/21/02 Hazard Communication Program Updated: 03/11/09 Revision No.: 1 Page: 1
Marquette University Effective: 5/21/02 Hazard Communication Program Updated: 03/11/09 Revision No.: 1 Page: 1 Introduction: The Occupational Safety & Health Administration (OSHA) Hazard Communication
More informationHazard Banding of Nanomaterials The experience of Solvay
Hazard Banding of Nanomaterials The experience of Solvay 26 April 2018 - Brussels J-A Sergent, PhD ERT Toxicological and Environmental Risk Assessment Unit HSE/PRA-PS Tel + 32 2 264 34 04 @: jacques-aurelien.sergent@solvay.com
More informationSafe Operating Procedure
Safe Operating Procedure (Revised 12/13) NANOPARTICLE SAFETY (For assistance, please contact EHS at (402) 472-4925, or visit our web site at http://ehs.unl.edu/) Purpose This SOP summarizes current National
More information11/7/2011. How are we exposed? How serious the exposure can be? Working with nanomaterials!? Dr. Candace SJ Tsai. November 9, 2011 TURI CE Workshop
Dr. Candace SJ Tsai November 9, 2011 TURI CE Workshop How are we exposed? How serious the exposure can be? Working with nanomaterials!? How do we be exposed? Airborne or Liquid? 2 3 1 TSI Aerodynamic Particle
More informationInterim Guidelines on the Safe Use of Engineered Nanomaterials
香港大學 The University of Hong Kong 安全事務處 Safety Office To: Heads of Departments/Centres/Units January 18, 2011 Interim Guidelines on the Safe Use of Engineered Nanomaterials Nanotechnology is finding its
More informationEuropean Chemicals Agency (ECHA)Topical Scientific Workshop: Regulatory Challenges in Risk Assessment of Nanomaterials
European Chemicals Agency (ECHA)Topical Scientific Workshop: Regulatory Challenges in Risk Assessment of Nanomaterials Jim Alwood - Office of Pollution Prevention and Toxics October 23, 2014 Legislation
More informationGUIDELINES FOR WORKING WITH NANOMATERIALS
GUIDELINES FOR WORKING 27/03/2017 prevencio@uv.es Page 1 of 19 INDEX 1. WHAT ARE NONOMATERIALS...3 2. HEALTH EFFECTS...6 3. SAFETY...8 4. ENVIRONMENTAL LIMIT VALUES...8 5. RISK EVALUATION...8 5.1. Hazard
More informationBasic Hazard Communication
Basic Hazard Communication IH & Containment Conference Rome, May 14-16, 2013 Janssen Campus Belgium Michel Vangeel Principal Expert Industrial Hygiene & Ergonomics mvangeel@its.jnj.com Why Chemical Hazard
More informationMaterial Safety Data Sheet. ACS Material Graphene Nanoplatelets
Health 1 Flammability 1 Reactivity 0 Personal Protection E Material Safety Data Sheet ACS Material Graphene Nanoplatelets Table of contents 1 Product and Company Identification 9 Physical and Chemical
More informationHazard Communication. University of Southern Maine Environmental Health and Safety
Hazard Communication University of Southern Maine Environmental Health and Safety Training Outline Federal Laboratory Standards Hazards at USM Material Safety Data Sheets (MSDS) Chemical Toxicology Personal
More information11/25/2013 LET S TALK ABOUT TRAINING! WHEN AND HOW OFTEN? CHEMICAL SAFETY SERIES WITH KRISTY 2 Kristy Main December 4, 2013
CHEMICAL SAFETY SERIES WITH KRISTY 2 Kristy Main December 4, 2013 LET S TALK ABOUT TRAINING! WHEN AND HOW OFTEN? When employee is initially assigned to a work area where hazardous chemicals are present
More informationPerspectives on Mitigating Exposures to Engineered Nanomaterials in the Workplace
Perspectives on Mitigating Exposures to Engineered Nanomaterials in the Workplace Pat Rasmussen Exposure & Biomonitoring Division, Healthy Environments and Consumer Safety Branch, Health Canada Adjunct
More informationNanotechnology and Exposure: The Pathway to a Safe and Healthy Environment. Professor Candace Tsai Colorado State University
Nanotechnology and Exposure: The Pathway to a Safe and Healthy Environment Professor Candace Tsai Colorado State University Bogotá, 14-15 FEB 2017 Nanotechnology and Nanomaterials Engineered Nanoparticles-
More informationMATERIAL SAFETY DATA SHEET
MATERIAL SAFETY DATA SHEET S E C T I O N 1 - I D E N T I F I C A T I O N O F P R O D U C T A N D C O M P A N Y Pfizer Inc Pfizer Animal Health 2 3 5 E a s t 4 2 n d S t r e e t N e w Y o r k, N Y 1 0 0
More informationHazard Communication Policy
Table of Contents I. Purpose... 2 II. Scope... 2 III. Policy... 2 III.A. Responsibilities... 2 III.A.1. Management... 2 III.A.2. Environmental Health and Safety Department (EH&S)... 3 III.A.3. Supervisors...
More information开原亨泰精细化工厂. Kaiyuan Hengtai Fine Chemicals Factory. Material Safety Data Sheet. 4-Aminobutyric acid. Approved By IATA Regulation
Material Safety Data Sheet Approved By IATA Regulation SECTION 1 - CHEMICAL PRODUCT AND COMPANY IDENTIFICATION Product name Company information manufacturer No.18,YiheRoad,Kaiyuan City, Liaoning Province,
More informationMATERIAL SAFETY DATA SHEET Graphene nanoplatelets
MATERIAL SAFETY DATA SHEET Graphene nanoplatelets 1. Identification of the substance/mixture and of the company/undertaking 1.1. Product Details Product Code : M941 Name : Graphene nanoplatelets REACH
More informationRegulating Nanotechnologies in the EU and US: Towards Effectiveness and Convergence
the EU and US: Towards Effectiveness and Convergence Project Consortium: London School of Economics (LSE) Chatham House Environmental Law Institute (ELI) Project on Emerging Nanotechnologies (PEN) Project
More informationDerivation of control strategies. Occupational safety and health in practice Example new technologies: nanomaterials.
Developing Reference Methods for Nanomaterials Occupational safety and health in practice Example new technologies: nanomaterials Presentation No 5 Imprint This presentation is a final product of the project
More informationSAFTY DATA SHEET. Revised Date 1/30/2017
Carbon Nanotubes (CNTs), Carbon Nanofibers, Metal Carbon Nanotubes, Carbon Nanotube Alloys, SWNTs, SWCNTs, DWNTs, DWCNTs, MWNTs, MWCNTs, Short MWNTs, Short MWCNTs, Graphitized MWNTs, Aligned MWNTs, Graphene,
More informationUnilever s approach to assuring the safety of novel nanomaterials - supporting the risk assessment science
Unilever s approach to assuring the safety of novel nanomaterials - supporting the risk assessment science Bobbie Bradford Safety & Environmental Assurance Centre Unilever s brands Unilever s Mission is
More informationEXPOSURE ASSESSMENT TO NOAA AT WORKPLACE AN OPPORTUNITY TOWARDS A SAFER AND MORE RESPONSIBLE DEVELOPMENT OF NANOCOMPOSITES: NANOLEAP PROJECT
EXPOSURE ASSESSMENT TO NOAA AT WORKPLACE AN OPPORTUNITY TOWARDS A SAFER AND MORE RESPONSIBLE DEVELOPMENT OF NANOCOMPOSITES: NANOLEAP PROJECT Cécile DUCROS 8 novembre 2016 Univ. Grenoble Alpes, CEA Tech
More informationMaterial Safety Data Sheet. ACS Material Graphene Quantum Dots (GQDs)
* Health 1 * Flammability 1 * Reactivity 0 * Personal Protection E * Estimated from Experimental Data and Experience Material Safety Data Sheet ACS Material Graphene Quantum Dots (GQDs) Table of Contents
More informationToday we re going to talk about understanding chemical labels. Each one of us works with chemicals, whether at work or at home. You need to know how
Today we re going to talk about understanding chemical labels. Each one of us works with chemicals, whether at work or at home. You need to know how to determine their hazards to protect yourself against
More informationManufactured nanomaterials
Safety and health at work is everyone s concern. It s good for you. It s good for business. Healthy Workplaces MANAGE DANGEROUS SUBSTANCES Manufactured nanomaterials in the workplace Key Points Manufactured
More informationWHAT S WRONG WITH THIS PICTURE?
1606 WHAT S WRONG WITH THIS PICTURE? Hazard Communication & GHS Leader s Guide Aurora Pictures Program Synopsis WHAT S WRONG WITH THIS PICTURE? Hazard Communication & GHS This video holds the viewer's
More informationGlobally Harmonized System Update
OSHA Hosts Public Meeting to Discuss Preparations for December UN Meetings Beveridge & Diamond, P.C., December 7, 2010 On November 30, 2010, the Occupational Safety and Health Administration ( OSHA ) held
More informationExperience Sharing of an Evolving Nanosafety Program at a Research University. Dr Samuel Yu, DEnv,, CIH Dr Joseph Kwan, DEnv,, CIH SEPO HKUST
Experience Sharing of an Evolving Nanosafety Program at a Research University Dr Samuel Yu, DEnv,, CIH Dr Joseph Kwan, DEnv,, CIH SEPO HKUST Hong Kong University of Science and Technology (HKUST) started
More informationA standardized non-instrumental tool for characterizing workstations concerned with exposure to engineered nanomaterials
Journal of Physics: Conference Series PAPER OPEN ACCESS A standardized non-instrumental tool for characterizing workstations concerned with exposure to engineered nanomaterials Recent citations - Assessing
More informationEngineered Nanomaterials and Occupational Health
Engineered Nanomaterials and Occupational Health Andrew D. Maynard Chief Science Advisor Society of Toxicology, National Area Chapter. Novemb er 2nd 2005, Washington DC Woodrow Wilson Center, Project on
More informationCharacterisation of nanomaterials for REACH dossiers - best practice 30 October 2012
Characterisation of nanomaterials for REACH dossiers - best practice 30 October 2012 Abdelqader Sumrein Evaluation Directorate ECHA Outline Nanomaterials under REACH: reflections from 2010 registrations
More informationNanoparticle Exposure in the Workplace
Nanoparticle Exposure in the Workplace Michele. L. Ostraat, Ph.D. RTI International September 11, 2012 Practical Workplace Issues Related to Setting & Using Engineered Nanomaterial OELs Lack of instrumentation/characterization
More informationCompliance with occupational limit values by applying workplace measurements
Occupational Limit Values for Hazardous Substances - Healthy working conditions in a global economy Conference under the German Presidency of the European Council, Dortmund, Germany, 7-8 May 2007 Compliance
More informationHazard Communication Program
Hazard Communication Program The Meriden Board of Education school district is complying with the requirements of OSHA's Hazard Communication Standard for construction by compiling a list of hazardous
More informationMaterial Safety Data Sheet acc. to ISO/DIS 11014
Page 1/5 1 Identification of substance: Catalog number: 248810 Manufacturer/Supplier: BD Diagnostic Systems 7 Loveton Circle Sparks, MD 21152 Tel: (410) 771-0100 or (800) 638-8663 Information department:
More informationReaction mass of dimethyl adipate and dimethyl glutarate and dimethyl succinate
GPS Safety Summary This Product Safety Summary is intended to provide a general overview of the chemical substance in the context of ICCA Global Product Strategy. The information on the Summary is basic
More informationHAZCOM Hazard Communication Standard The Right-to-Know
HAZCOM Hazard Communication Standard The Right-to-Know Hazard Communication Standard The hazard communication standard requires: The hazards of chemicals to be evaluated The hazard information is given
More information36. Hazard Communication
36. Hazard Communication 36.01. Hazard communication addresses the health and physical hazards associated with essentially all the chemical and chemical products found on the job site. This hazard communication
More informationLABORATORY CHEMICAL HYGIENE PLAN
Page 1 LABORATORY CHEMICAL HYGIENE PLAN What is not a poison? All things are poison and nothing is without poison. It is the dose only that makes a thing not a poison - Paracelsus (15 th Century) As part
More informationSAMPLE PAGES. Hazard Communication Program. [Company name]
The safety and health of our employees are our top priority. Everyone goes home safe and healthy everyday. Hazard Communication Program [Company name] [Date Authorized] [Version} Page 0 Table of Contents
More informationDr. PUJA CHAWLA. * - ASSISTANT PROFESSOR (PHYSICS) JMIT, RADAUR, HARYANA, INDIA.
Dr. PUJA CHAWLA *E-mail- dr.poojachawla@jmit.ac.in ASSISTANT PROFESSOR (PHYSICS) JMIT, RADAUR, HARYANA, INDIA. NANOTECHNOLOGY & NANOMATERIALS Introduction Nanotechnology & Nanomaterials Synthesis of nanomaterials:
More informationHAZARD COMMUNICATION PROGRAM 2015 UPDATE GHS AWARENESS TRAINING CSULB COE
HAZARD COMMUNICATION PROGRAM 2015 UPDATE GHS AWARENESS TRAINING CSULB COE HAZARD COMMUNICATION 2015 UPDATE GHS Globally Harmonized System of Classification and Labeling of Chemicals GHS WHAT IT IS OR IS
More information8. Are current risk assessment methodologies for nanoparticles adequate?...11
page 1/16 Source document: Nanotechnologies SCENIHR (2006) Summary & Details: GreenFacts Level 2 - Details on Nanotechnologies 1. What is nanotechnology?...3 2. What is the current state of nanoscience
More informationChanges to Materials Data Safety Sheets (MSDS)
Changes to Materials Data Safety Sheets (MSDS) Globally Harmonized System (GHS) of Classification and Labeling of Chemicals Training Program Gwinnett Hospital System Right-to-Know Training Objectives After
More informationCounty of Cortland HAZARD COMUNICATION POLICY
County of Cortland HAZARD COMUNICATION POLICY Section 1.1: HAZARD COMMUNICATION RIGHT TO KNOW Written: January 03, 2013 Required by: PESH/OSHA and County Policy Reference: OSHA Standard 1910.1200 Coordination:
More informationHAZARD COMMUNICATION PROGRAM
HAZARD COMMUNICATION PROGRAM August 2016 Hazard Communication Program Table of Contents I. Purpose and Scope II. III. IV. Responsibilities Hazard Identification and Evaluation Labeling V. Food or Beverage
More informationMaterial Safety Data Sheet acc. to ISO/DIS 11014
Page 1/5 1 Identification of substance: Catalog number: 212185 Manufacturer/Supplier: BD Diagnostic Systems 7 Loveton Circle Sparks, MD 21152 Tel: (410) 771-0100 or (800) 638-8663 Information department:
More information1. The Supervisor and/or the Section Safety Officer must be notified of all accidents and injuries which may occur within the section.
SECTION 02 SAFE WORK PRACTICES The following safe work practices are adopted from the Chemical Hygiene Plan in effect within the laboratory. Analyst should be familiar with the procedures when mixing,
More informationSTANDARD PROCEDURE: NWSP R2 (15) Polyacrylate Superabsorbent Powders Determination of the Particle Size Distribution by Sieve Fractionation
1. Scope STANDARD PROCEDURE: Polyacrylate Superabsorbent Powders Determination of the Particle Size Distribution by Sieve Fractionation This test method specifies a method for measuring particle size distributions
More informationHow to address health hazards of nanomaterials?
How to address health hazards of nanomaterials? Tom Gebel Toxicologist DGPT, Senior Scientist, Scientific Director, Prof. Dr. Federal Institute for Occupational Safety and Health Division 4 "Safety and
More informationStandard Operating Procedure
Standard Operating Procedure A Standard Operating Procedure (SOP) is a written set of instructions that document how to safely perform work involving hazardous materials or hazardous operations. SOPs may
More informationFate, Transport, and Toxicity of Nanoparticles in the Environment
Fate, Transport, and Toxicity of Nanoparticles in the Environment Steven J. OIdenburg, Thomas K. Darlington nanocomposix, Inc., San Diego, CA Tonya Savage and Mitch Bogle AFOSR, Eglin AFB, FL Talk Outline
More informationLaboratory Guidelines for Nanomaterials Research
Environmental, Health and Safety Services 459 Tech Center Drive (0423) Blacksburg, Virginia 24061 540/231-2509 Fax: 540/231-3944 E-mail: nanosafety@vt.edu www.ehss.vt.edu Laboratory Guidelines for Nanomaterials
More informationMATERIAL SAFETY DATA SHEET according to Regulation (EC) No. 1907/2006
MATERIAL SAFETY DATA SHEET according to Regulation (EC) No. 1907/2006 Revision number: 2 Revision date: 27/11/2017 1. Identification of the substance/mixture and of the company/undertaking 1.1. Product
More informationUpdate of current activities
Update of current activities Zuzana Klöslová ECHA: Dir E & Task force on NMs 25 th - 27 th September, 2013 Chémia 2013, Liptovský Ján, Slovakia *Some slides are courtesy of ECHA 24 September 2013 1 1 Content
More informationAerosol Generation and Characterisation for Nanotoxicology
Aerosol Generation and Characterisation for Nanotoxicology Alison Buckley Airborne Radioactivity Monitoring Users Group Meeting, NPL, Teddington 16 th November 2011 Introduction HPA Role The Health Protection
More informationRisk assessment of nanomaterials further considerations
Risk assessment of nanomaterials further considerations The risks of nanomaterials and how to assess them has been given a lot of attention over the past years. Efforts by scientists, regulators and industry
More informationHAZARD COMMUNICATION PROGRAM
HAZARD COMMUNICATION PROGRAM 5460 Created 1/30/10 Contents 1.0 SCOPE AND APPLICATION... 1 2.0 PURPOSE... 2 3.0 SAFETY DATA SHEETS (SDS)... 2 4.0 CONTAINER LABELS... 3 5.0 RECEIPT OF CHEMICALS... 6 6.0
More information