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Part XVII. Services and Trade
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Health Care Facilities and Services
- The Hospital Environment
Abbreviations and Acronyms
The following abbreviations and acronyms are used in this Encyclopaedia, but the list is not exhaustive. Chemical abbreviations, for example, are not given here. Standard abbreviations for journal names are not listed. The international system of units of measurements and its abbreviations are outlined in a separate section of this chapter.
A - B - C - D - E - F - G - H - I - J - K - L - M - N - O - P - Q - R - S - T - U - V - W - X - Y - Z
A
AA Alcoholics Anonymous
AAA Academics and Workers Action in Denmark
AAAS American Association for the Advancement of Science
AAO American Academy of Otolaryngology
AARP American Association of Retired Persons
AAS Atom absorption spectroscopy
ABP Androgen binding protein
ABRIE General Business Investigation and Risk Inventory and Evaluation
ABS Acrylonitrile-butadiene-styrene
AC Alternating current
ACE Angiotensin converting enzyme
ACFTU All-China Confederation of Trade Unions
ACGIH American Conference of Governmental Industrial Hygienists
ACHE Acetylcholinesterase
ACOG American College of Obstetricians and Gynecologists
ACS American Cancer Society
ACS American Chemical Society
ACTH Adrenocorticotropic hormones
ACTU Australian Council of Trade Unions
ADA Americans with Disabilities Act
ADH Anti-diuretic hormone
ADI Acceptable daily intake
ADR European Agreement Concerning the International Carriage of Dangerous Goods by Road
AEC Atomic Energy Commission (US)
AEL Accessible emission limits
AFA Association of Flight Attendants
AFB Acid-fast bacilli
AFFF Aqueous film-forming foam
AFL-CIO American Federation of Labor and Congress of Industrial Organizations
AFNOR Association française de normalisation
AFSCME American Federation of State, County and Municipal Employees
AGI All-glass impingers
AGR Advanced gas-cooled reactors
AHA American Hospital Association
AHCPR Agency for Health Care Policy and Research
AI Alveolar-interstitial
AI Artificial insemination
AIA Asbestos International Association
AIA Aerospace Industries Association
AIChE American Institute of Chemical Engineers
AIDS Acquired Immune Deficiency Syndrome
AISI American Iron and Steel Institute
ALA Aminolaevulinic acid
ALA-D Aminolaevulinic acid dehydratase
ALARA As low as reasonably achievable
ALASEHT Latino-American Association of Occupational Safety and Hygiene
ALA-U Delta-aminolaevulinic acid in urine
ALI Annual limits on intake
ALL Acute lymphocytic leukaemia
ALM Acral lentiginous me
AM Amplitude modulation
AMD Occupational Medical Service
AML Acute myelocytic leukaemia
AMS Acute mountain sickness
ANA Antinuclear antibodies
ANFO Ammonium nitrate fuel oil
ANLL Acute non-lymphocytic leukaemia
ANSI American National Standards Institute
AOEC Association of Occupational and Environmental Clinics
APA American Psychiatric Association
APA American Psychological Association
APEC Asian Pacific Economic Cooperation
APELL Awareness and preparedness for emergencies at local level
APF Association des paralysés de France
APF Assigned protection factor
APHA American Public Health Association
APHIS Animal and Plant Health Inspection Service
API American Petroleum Institute
APPR Army package power reactor
APR Accident prevention regulation
ARDS Acute respiratory distress syndrome
ARET Accelerated Reduction/ Elimination of Toxics
AS Australian Standard
ASA American Society of Anesthetists
ASEAN Association of Southeast Asian Nations
ASHRAE American Society of Heating, Refrigerating and Air-conditioning Engineers
ASL Angiosarcoma of the liver
ASP Amnesic shellfish poisoning
ASSE American Society of Safety Engineers
ASSTAS Association pour la santé et la sécurité du travail, secteur affaires sociales
AST Above-ground storage tankage
ASTM American Society for Testing and Materials
ATA Alaska Trappers Association
ATBC Alpha-Tocopherol, Beta-Carotene
ATM Automatic teller machines
ATS American Thoracic Society
ATSDR Agency for Toxic Substances and Disease Registry
ATV All-terrain vehicle
AUC Area under the curve
AUDIT Alcohol Use Disorders Identification Test
AWT Computer’s feedback on the average time workers take processing each customer call
B
BACT Best available control technology
BAD Occupational Medical Service of the Berufsgenossenschaften
BAEP Brainstem auditory potentials
BAL British anti-Lewisite
BAL Bronchoalveolar lavage
BAT Biological tolerance value
BAU German federal safety institute
BBP Bloodborne pathogens
BC Before Christ
BCF Bulked continuous filament
BCG Bacille of Calmette and Guérin
BEI Biological exposure index
BEIR Biological Effects of Ionizing Radiation
BG The German Berufsgenossenschaften
BGMG Berufsgenossenschaften Measuring System Hazardous Substances
BGW Berufsgenossenschaft für Gesundheitsdienst und Wohlfahrtspflege
BIA Berufsgenossenschaften Association and their Institute for Occupational Safety
BL Biosafety Level
BLDSC British Library Document Supply Centre
BLEVE Boiling liquid expanding vapour explosion
BLS Bureau of Labor Statistics (US)
BM Behaviour modification
BMD Benchmark dose
BMI Body mass index
BMP Best Management Practice
BMRC British Medical Research Council
BNA Bureau of National Affairs (US)
BOD Biochemical oxygen demand
BOF Basic oxygen furnace
BP British Petroleum
BPPV Benign positional paroxysmal vertigo
BPR Business process reengineering
BRF Basic risk factors
BRI Building-related illness
BRS Bortner Rating Scale
BS British Standard
BSE Bovine spongiform encephalopathy
BSI British Standards Institute
BTPS Body temperature and ambient pressure
BUPA British United Provident Association
C
CAD Computer-aided design
CAL Chronic airflow limitation
CAM Continuous air monitors
CAM Chorioallantoic membrane
CAM Computer-aided manufacturing
CAMAC Computer Assisted Measurement and Control Association
CAMP Cyclical adenosinm onophosphate
CAT Computerized axial tomography
CATI Computer-aided telephone interview
CBA Cost benefit analysis
CBC Complete blood count
CBV Central blood volume
CC Closing capacity
CCHF Crimean-Congo haemorrhagic fever
CCITT Comité consultatif international des organisations téléphoniques et télégraphiques
CCOHS Canadian Centre for Occupational Health and Safety
CCPS Center for Chemical Process Safety
CD Committee draft
CD-ROM Compact Disc- Read Only Memory
CDC Centers for Disease Control and Prevention (US)
CDT Cumulative trauma disorders
CE European Community
CEA Cost effectiveness analysis
CEC Commission of European Communities
CEDAW United Nations Convention on the Elimination of Discrimination Against Women in All Its Forms
CEFIC European Council of Chemical Manufacturers’ Federations
CEI Cumulative exposure index
CEIC Canada Employment and Immigration Commission
CEN European Committee for Standardization
CENELEC Comité européen de normalisation électrotechnique
CENTC European Community Standard
CEO Chief executive officer
CEPA Canadian Environmental Protection Act
CERN European Organization for Nuclear Research
CET Corrected Effective Temperature
CETG United Nations Committee of Experts on Transport of Dangerous Goods
CF Complement fixation
CFR Case-fatality rate
CFRT Converted floating roof tank
CFST Federal Commission of Coordination
CFU Colony-forming units
CHD Coronary heart disease
CI Confidence interval
CIBC International Council of Building Research
CIBSE Chartered Institution of Building Services Engineers
CIE Commission internationale de l’éclairage
CIM Computer-integrated manufacturing
CIMAS International Conference of Sickness Insurance Funds and Mutual Benefit Societies
CIOMS Council for International Organizations of Medical Sciences
CIP Cleaning-in-place
CIRA International Committee for the Reglementation of Lifts
CIS International Occupational Safety and Health Information Centre
CISMID Centro Peruano Japonés de Investigaciones Sísmicas y Mitigación de Desastres
CIVD Cold-induced vasodilatation
CJD Creutzfeldt-Jakob disease
CLL Chronic lymphocytic leukaemia
CMA Cost minimization analysis
CMA Chemical Manufacturers Association
CMEA Council for Mutual Economic Assistance
CML Chronic myelocytic leukaemia
CMS Chronic mountain sickness
CNA Caisse nationale suisse d’assurance en cas d’accidents
CNAM Conservatoire national des arts et métiers
CNC Computer numeric control
CNC Computer-assisted numerical control system
CNC Computer numerical controlled
CNG Compressed natural gas
CNS Central nervous system
CNSLD Chronic non-specific lung disease
COA Canada-Ontario Agreement
COD Chemical oxygen demand
COHSE Confederation of Health Service Employees
COLREG Convention on the International Regulations for Preventing Collisions at Sea
COPD Chronic obstructive pulmonary disease
COPRO Coproporphyrin
COPRO-U Coproporphyrin in urine
CORD Center for Occupational Research and Development
COSH Committees on Occupational Safety and Health
COTOREP Commission technique d’orientation et de réinsertion professionnelle
CPAF Cost plus award fee and production
CPC Chemical-protective clothing
CPDB Carcinogen potency database
CPFF Cost plus fixed fee
CPIAS Permanent International Committee on Social Insurance
CPR Cardiopulmonary resuscitation
CPS Cancer Prevention Study
CPSC Consumer Product Safety Commission
CPTED Crime Prevention Through Environmental Design
CPU Central processing unit
CQI Continuous quality improvement
CRT Cathode ray tub
CRU Customer replaceable units
CSCL Chemical Substances Control Law
CSD Commission on Sustainable Development
CSF Cerebrospinal fluid
CSHES Centres for State Hygienic and Epidemiological Supervision
CSO Canadian Standards Organization
CT Computed tomography
CTD Cumulative trauma disorders
CTM Mexican Confederation of Workers
CTS Carpal tunnel syndrome
CUA Cost utility analysis
CV Constant volume
CVD Cardiovascular diseases
CVD Chemical vapour deposition
CVI Chemical vapour infiltration
CWP Coal workers’ pneumoconiosis
D
DALY Disability adjusted life year
DAST Drug Abuse Screening Test
DBMS Database management system
DBP Diastolic blood pressure
DC Direct current
DF Defence
DFG Deutsche Forschungsgemeinschaft
DG Directorate General
DHC Double-hand controls
DI De-ionized
DIC Disseminated intra-vascular coagulation
DIESAT Network of Science Shops in the Netherlands
DIN German Institute for Normalization
DIP Dual-in-line package
DIPF Diffuse and progressive interstitial fibrosis
DIS Draft International Standard
DISTAT United Nations Disability Statistics Compendium
DKFZ German Cancer Research Center
DLCO Decreased carbon monoxide diffusing capacity
DLE Duration-limited exposures
DLPW Department of Labour Protection and Welfare
DNA Deoxyribonucleic acid
DOE Department of Energy (US)
DOK-MEGA Documentation for Measurement Data on Hazardous Substances in the Workplace (German)
DOL Department of Labor (US)
DOT Directly observed therapy
DOV Days from ovulation
DRG Diagnosis-related grouping
DS Data sheet
DSM Diagnostic and Statistical Manual of Mental Disorders (APA)
DSP Diarrhoetic shellfish poisoning
E
E/E/PE Electro-mechanical, electronic and programmable electronic
EA Environmental assessment
EAA Extrinsic allergic alveolitis
EAEC European Atomic Energy Community
EAF Electric arc furnace
EAP Employee assistance programme
EC Executive Committee
EC50 Effective concentration for 50%
ECA Epidemiological Catchment Area
ECCS Emergency core cooling system
ECD European Commission Directive
ECD Electron capture detector
ECETOC European Chemical Industry Ecology-Toxicology Research Centre
ECG Electrocardiogram
ECLAC Economic Commission for Latin America and the Caribbean
ECO Pan-American Centre for Human Ecology and Health
ECOSOC Economic and Social Council
ECSC European Coal and Steel Community Treaty
ECTU European Confederation of Trade Unions
ECU European Social Charter
ECVAM European Centre for the Validation of Alternative Methods
EDXA Energy dispersive x-ray analysis
EEC European Economic Commission
EEC European Economic Community
EEC European Economic Council
EEG Electroencephalogram
EEO Equal employment opportunity
EEOC Equal Employment Opportunity Commission (US)
EER Equilibrium equivalent of radon
EFQM European Foundation for Quality Management
EFRT External floating roof tanks
EFTA European Free Trade Association
EGF Epidermal growth factor
EHC Environmental Health Criteria
EHS Environmental health and safety
EIA Environmental impact assessment
EIS Environmental impact statement
EKG (German) Electrocardiogram
EL Exposure limits
ELF Extremely low frequency
ELISA Enzyme-linked immunosorbent assay
EM Electromagnetic
EMC Electromagnetic compatibility
EMF Electromagnetic field
EMG Electromyography
EMI Electromagnetic interference
EMS Environmental management system
EMT Emergency medical technicians
EN European Norms (Standard)
ENG Electroneurography
EOG Electro-oculographic
EP Evoked potentials
EPA Environmental Protection Agency (US)
EPM Electronic performance monitoring
EPRI Electric Power Research Institute
ER Endoplasmic reticulum
ERC Educational Resource Program
EREMP Emergency Radiological Environmental Monitoring Programme
ERG Eastern Research Group
ERIC Educational Resources Information Center
ES Emergency stop
ESA-IRS European Space Agency’s Information Retrieval System
ESCAP Economic and Social Commission for Asia and the Pacific
ESD Emergency shut-down valves
ET Environmental technology
ET Effective temperature
ETS Environmental tobacco smoke
ETSI European Telecommunication Standards Institute
EU European Union
F
FAO Food and Agricultural Organization of the United Nations
FBR Fast breeder reactors
FCAW Flux core arc welding
FCC Fluid catalytic cracking
FCI Freezing cold injuries
FDIS Final Draft International Standard
FDP Fibrin degradation products
FEMA Federal Emergency Management Agency (US)
FEP Free erythrocyte protoporphyrin
FEV1 Forced expiratory volume in 1 second
FFP Firm fixed price
FFPAF Firm fixed price award fee
FFR Fume formation rate
FGR Fume generation rate
FID Flame ionization detector
FIET International Federation of Commercial, Clerical and Technical Employees
FIFRA Federal Insecticide Fungicide and Rodenticide Act (US)
FINNIDA Finnish International Development Agency
FM Frequency modulation
FMEA Failure mode and effect analysis
FO Objective fit
FOPS Falling-object protective structures
FPA Fire Protection Association
FPHS Farmers’ Preventive Health Service
FRC Functional residual capacity
FREM Fire risk evaluation method
FRG Federal Republic of Germany
FRPP Flame-resistant polypropylene
FRS Call restraint system
FS Subjective fit
FSH Follicle stimulating hormone
FTAS Framingham Type A Scale
FTP File transfer protocols
G
GAG Glycosaminoglycan
GATT General Agreement on Tariffs and Trade
GDP Gross domestic product
GDR German Democratic Republic
GEENET Global Environmental Epidemiology Network
GEMS Generic error modelling system
GEMS/Food Joint UNEP/FAO/WHO Food Contamination Monitoring Programme
GFI Ground fault interrupter
GFT General failure types
GHG Greenhouse gases
GIFAP International Group of National Associations of Agrochemical Manufacturers
GISBAU Gefahrstoff-Informationssystem der Berufsgenossenschaften der Bauwirtschaft
GIT Gastrointestinal tract
GLP Good laboratory practice
GLR Gas cooled reactors
GLSP Good large-scale practice
GLWQA Great Lakes Water Quality Agreement
G-M Geiger-Mueller
GC Gas chromatography
GMAW Gas metal arc welding
GMO Genetically manipulated organism
GMP Good manufacturing practice
GNP Gross national product
GOST State standards on occupational health and safety in the Russian Federation
GRP Glass-reinforced plastics
H
HAP Hazardous air pollutants
HASS Home Accident Surveillance System
HAV Hand-arm vibration
HAV Hepatitis A virus
HAVS Hand-arm vibration syndrome
HAZMAT Hazardous materials
HAZOP Hazard and operability studies
HBIG Hepatitis B immune globulin
HBsAg Hepatitis B surface antigen
HBV Hepatitis B virus
HCC Hepatocellular carcinoma
HCG Human chorionic gonadotrophins
HCIM Human and computer-integrated manufacturing
HCL Health care leader
HCP Hearing conservation programmes
HCS Hazard Communication Standard
HCT Health care trainers
HCV Hepatitis C virus
HCW Health care worker
HD Hodgkin’s disease
HDL High density lipoproteins
HDV Hepatitis D virus
HEG Homogeneous exposure groups
HEPA High efficiency particulate air filters
HEPA High-efficiency particulate attenuator
HEPS Health and Epidemic Prevention Station
HFRS Haemorrhagic fever with renal syndrome
HG Highest grade
HHS Hypothenar hammer syndrome
HID High-intensity discharge
HIP Hazard identification process
HIP Hot isostatic pressing
HiPox High-pressure oxidation
HIV Human-immunodeficiency virus
HMO Health maintenance organization
HMTRI Hazardous Materials Training and Research Institute
HP Hypersensitivity pneumonitis
HPD Hearing protection devices
HPLC High-performance liquid chromatography
HPP Health promotion and prevention
HPP Health protection and promotion
HPS Hantavirus pulmonary syndrome
HR Heart rate
HR Highly recommended
HRA Health risk appraisal
HRCT High resolution computer tomography
HRDI Human Resources Development Institute
HRGC High-resolution capillary columns
HRM Human resources management
HRT Hormone replacement therapy
HSDIP Hygienic standards for design of industrial premises
HSE Health and Safety Executive (UK)
HSEES Hazardous Substances Emergency Events Surveillance
HSI Heat Stress Index
HV High voltage
HVAC Heating, ventilation and air-conditioning
HVBG Central Federation of the Berufsgenossenschaften
HVL Half-value layer
HVLP High volume, low pressure
HVR Hypoxic ventilatory response
HVT Half-value thickness
HWE Healthy worker effect
I
IAAMRH International Association on Agricultural Medicine and Rural Health
IACRS Inter-Agency Committee on Radiation Safety
IAEA International Atomic Energy Association
IALI International Association of Labour Inspection
IAM International Association of Machinists
IAMAW International Association of Machinists and Aerospace Workers
IAOP International Association of Outplacement Professionals
IAQ Indoor air quality
IARC International Agency for Research on Cancer
IAS Institute for Occupational and Social Medicine
IASC Inter-American Safety Council
IATA International Air Transport Association
IBC Institutional Biosafety Committee
IBC Individual bulk containers
IBE International Bureau for Epilepsy
IBM International Business Machines
IBS Irritable bowel syndrome
ICAO International Civil Aviation Organization
ICC International Chambers of Commerce
ICC Intraclass correlation coefficient
ICCA International Council of Chemical Associations
ICCVAM Interagency Coordinating Committee for the Validation of Alternative Methods
ICD International Classification of Disease
ICE Interleukin converting enzyme
ICEF International Federation of Chemical, Energy and General Workers’ Union
ICEM International Confederation of Chemical, Energy, Mine and General Workers’ Union
ICESCR International Covenant on Economic, Social and Cultural Rights
ICFTU International Confederation of Free Trade Unions
ICI Industrial, commercial and institutional
ICIDH International Classification of Impairments, Disabilities and Handicaps
ICIE International Centre for Industry and the Environment
ICME International Council on Metals and the Environment
ICN International Council of Nurses
ICNIRP International Commission on Non-Ionizing Radiation Protection
ICOH International Commission on Occupational Health
ICRP International Commission on Radiological Protection
ICSU International Council of Scientific Union
ICTU Irish Congress of Trade Unions
ICWU International Chemical Workers Union
I-E Internal-external
IC Integrated circuit
ID Inside diameter
IDB Inter-American Development Bank
IDC Industrially developing country
IDLH Immediately dangerous to life and health
IDNDR United Nations International Decade for Natural Disaster Reduction
IDPIS Integrated Drug and Poison Information Service (Thailand)
IDV Indinavir
IEA International Ergonomics Association
IEC International Electrotechnical Commission
IEEE Institute of Electrical and Electronic Engineers
IES Illuminating Engineering Society
IFB Invitation for bid
IFBWW International Federation of Building and Wood Workers
IFIESR International Foundation for Industrial Ergonomics and Safety Research
IFRCRCS International Federation of Red Cross and Red Crescent Societies
IFSG International Fiber Safety Group
IGO Intergovernmental organizations
IHD Ischaemic heart disease
IHEA International Hunter Education Association
IILS International Institute for Labour Studies
IISI International Iron and Steel Institute
IJC International Joint Commission
IJOEH International Journal of Occupational and Environmental Health
IL2 Interleukin-2
ILC International Labour Conference
ILCOS International Lamp Coding System
ILGWU International Ladies Garment Workers Union
ILO International Labour Organization
ILO International Labour Office
IMDG International Maritime Dangerous Goods
IMIS Integrated Management Information System
IMO International Maritime Organization
IMV Index of median values
INES International nuclear events scale
INH Isoniazid
INIRC/IRPA International Committee for Non-Ionizing Radiation of the International Radiation Protection Association
IOCC Inter-Organization Coordinating Committee
IOCU International Organization of Consumers Unions
IOE International Employers Organization
IOHA International Occupational Hygiene Association
IOM Institute of Occupational Medicine
IOM/CAPM Institute of Occupational Medicine, Chinese Academy of Preventive Medicine
IOMC Inter-Organization Programme for the Sound Management of Chemicals
IPAI International Primary Aluminum Institute
IPCC Intergovernmental Panel on Climate Change
IPCS International Programme on Chemical Safety
IPEC International Programme on the Elimination of Child Labour
IPEET Inter-American Partnership for Environmental Education and Training
IPM Integrated pest management
IPM Inhalable particulate mass
IPM Inspirable particulate mass
IQ Intelligence quotient
IR Ionizing radiation
IR Infrared radiation
IRB Institutional Review Board
IREQ Calculated required insulation value
IRPA International Radiation Protection Association
IRPTC International Register of Potentially Toxic Chemicals
IRR Infrared radiation
IRSST Institute for Occupational Health and Safety Research (Quebec, Canada)
IS International Standard
ISA International Standards Association
ISA Instrument Society of America
ISBN International Standard Book Number
ISCO International Standard Classification of Occupations
ISIC International Standard Industrial Classification
ISO International Organization for Standardization
ISRS International Safety Rating System
ISSA International Social Security Association
ISSA International Safety and Security Association
ITQ Individual transferable quota
ITS Index of thermal stress
ITV Interactive television
IUCN International Union for Conservation of Nature and Natural Resources-World Conservation Union
IUD Intrauterine contraceptive device
IUPAC International Union of Pure and Applied Chemistry
IVP Intravenous pyelogram
IWC International Whaling Commission
J
JAS Jenkins Activity Survey
JECFA Joint FAO/WHO Expert Committee on Food Additives
JISHA Japan Industrial Safety and Health Association
JIT Just-in-time production
JMA Japan Medical Association
JMPR Joint FAO/WHO Meeting on Pesticide Residues
JPCG Joint Presidents Coordinating Group
JPG Joint Presidents Group
JSOH Japan Society for Occupational Health
K
KSA Knowledge, skills and abilities
L
LADAPT Ligue pour l’adaptation des diminués physiques au travail
LAMP Lakewide management plan
LAN Local area network
LBP Low-back pain
LBW Low birth weight
LCA Life-cycle assessments
LCD Liquid crystal display
LCI Life-cycle inventory
LCM Lymphocytic choriomeningitis
LD Linz-Donowitz
LD50 Lethal dose –50%
LDH Lactate dehydrogenase
LDL Low density lipoproteins
LEC Low-pressure liquid encapsulated Czochralski
LED Light-emitting diodes
LEL Lower explosive limits
LET Linear energy transfer
LEV Local exhaust ventilation
LFL Lower flammable limits
LH Luteinizing hormone
LHD Load-haul-dump
LI Lifting index
LISREL Weight-least squares statistical analysis procedure
LIUNA Laborers International Union of North America
LMC Landell Mills Commodities
LMFBR Liquid metal fast breeder reactors
LMM Lentigo malignant melanomas
LNG Liquefied natural gas
LOAEL Lowest observed adverse effect level
LOC Locus of control
LOEL Lowest observable effect level
LOSC Montego Bay Convention on the Law of the Sea
LP Liquid petroleum
LPE Liquid-phase epitaxy
LPG Liquefied petroleum gas
LPN Licensed practical nurse
LSF Low smoke and fire
LSF Low-solids flux
LTA Less than adequate
LTT Lymphocyte transformation test
LVD Low Voltage Directive
LWGR Light water graphite reactors
M
MAC Maximum allowable concentrations
MAIM Merseyside Accident Information Model
MAK Maximum workplace concentration
MALT Mucosa-associated lymphoid tissue
MAP Membership Assistance Programmes
MARPOL London Convention on the Prevention of Marine Pollution by Dumping of Wastes and Other Matter
MAST Michigan Alcohol Screening Test
MAT Mobile access towers
MBA Master of Business Administration
MBE Molecular-beam epitaxy
MCM Million cubic metres
MCQ Multiple-choice questions
MCS Multiple chemical sensitivities
MCV Mean corpuscular volume
MD Machinery Directive
MDF Medium-density fibreboard
MDT Multidisciplinary teams
MED Minimal erythemal dose
MEQ Modified essay questions
MERCOSUR Southern Market —Mercado Común del Sur
MeV Million electron volts
MFF Metal fume fever
MG Mean grade
MGP Manufactured gas plant
MHC Mental health counsellors
MHW Ministry of Health and Welfare
MI Mineral insulated
MIE Minimal ignition energy
MIG Metal inert gas
MIS Management information system
MITI Ministry of International Trade and Industry
ML Maximum levels
MLSS Mixed liquor suspended solids
MM Multiple myeloma
MM Maintenance management
MMC Metal-matrix composites
MMF Man-made mineral fibres
MMH Manual materials handling
MMPI Minnesota Multiphasic Personality Index
MMR Measles-mumps-rubella
MMVF Man-made vitreous fibres
MN Micronuclei
MNC Multinational corporations
MOA Ministry of Agriculture
MOCVD Metallorganic chemical-vapour deposition
MOIA Ministry of Industrial Administration
MOL Ministry of Labour
MOPH Ministry of Public Health
MOR Mortality odds ratio
MORT Management Oversight and Risk Tree
MPD Minimum premarketing set of data
MPPD Maximum Probable Property Damage
MPS Mononuclear phagocyte system
MR Magnetic resonance
MRC Medical Research Council
MRC Metallic replacement cartridges
MRF Material recycling facilities
MRI Magnetic resonance imaging
MRL Maximum residue levels
MS Mainstream smoke
MSD Motion Sickness Dose Value
MSDS Material safety data sheet
MSF Manufacturing-Science-Finance
MSHA Mine Safety and Health Administration
MSI Musculoskeletal injuries
MSW Municipal solid waste
MTBF Mean time between failures
MTBM Mean time between maintenance
MTD Maximum tolerated dose
MTF Modulation transfer function
MUB Molasses urea block
MVC Maximal voluntary capacity
MVK Moolgavkar-Venzon-Knudson
MVLC Maximal voluntary lifting capacity
MVOC Microbial volatile organic compounds
MWe Megawatts of electric power
MWL Mental workload
MWR Megawatts of refrigeration
N
NA Negative affectivity
NADH Nicotinamide adenine dinucleotide
NAEP National Asthma Education Program
NAFTA North American Free Trade Agreement
NAS National Academy of Science (US)
NASA National Aeronautics and Space Administration (US)
NASA-TLX NASA Task Load Index
NATO North Atlantic Treaty Organization
NBC Nuclear, biological, chemical
NBR Non-specific bronchial responsiveness
NC Nutrition counsellors
NC Numerically controlled
NC Numerical control
NCHS National Center for Health Statistics (US)
NCI National Cancer Institute (US)
NCODD National Committee on Occupational Disease Diagnosis
NCODPT National Centre for Occupational Disease Prevention and Treatment
NCOHR National Centre of Occupational Health Reporting
NCRP National Council on Radiation Protection and Measurements
NCTB Neurobehavioral Core Test Battery
NCV Nerve conduction velocity
NDIR Non-dispersive infrared detectors
NEETC National Environmental Education and Training Center, Inc.
NEG Nordic Expert Group
NEPA National Environmental Policy Act
NES Neurobehavioral Evaluation System
NESC National Electrical Safety Code
NESHAP Aerospace National Emission Standard for Hazardous Air Pollutants
NFCI Non-freezing cold injuries
NFPA National Fire Protection Association (US)
NGO Non-governmental organization
NHANES National Health and Nutrition Examination Survey
NHIS National Health Interview Survey
NHL Non-Hodgkins lymphoma
NHS National Health Service
NHZ Nominal hazard zone
NIC Newly industrialized countries
NICE National Institute for the Improvement of Working Conditions and Environment
NIEHS National Institute for Environmental Health Sciences
NIH National Institutes of Health (US)
NIHG National Institutes of Health Guidelines (US)
NIHL Noise-induced hearing loss
NIMBY Not in my back yard
NIMH National Institute for Mental Health
NIOSH National Institute for Occupational Safety and Health (US)
NiPERA Nickel Producers Evironmental Research Association
NIPTS Noise-induced permanent threshold shift
NIR Non-ionizing radiation
NK Natural killer [cell]
NM Nodular melanomas
NMR Nuclear magnetic resonance
NMSC Non-melanocytic skin cancers
NMWCC National Maximum Workplace Concentration Committee
NOAEL No observed adverse effect level
NOEL No observable effect level
NOES National Occupational Exposure Surveys
NP Nasopharyngeal
NPD Nitrogen and phosphorus detector
NPP Nuclear power plant
NPRI National Pollutant Release Inventory
NR Not recommended
NR Noise reduction
NRC National Research Council (US)
NRL Natural rubber latex
NRPB National Radiological Protection Board
NRR Noise Reduction Rating
NSAID Non-steroidal anti-inflammatory drugs
NSC National Safety Council (US)
NSCLC Non-small cell lung cancer
NSD National Safety Day
NSF National Science Foundation
NTCHS National Technical Committee of Hygienic Standards
NTIS National Technical Information Service (US)
NTOF National Traumatic Occupational Fatalities
NUD Non-ulcer dyspepsia
NVOC Non-volatile organic compound
NYC/TLC New York City/Taxi and Limousine Commission
O
OA Occupational asthma
OAAAS Occupational asthma associated with aluminium smelting
OAP Occupationally acquired pneumonia
OARU Occupational Accident Research Unit
OAS Organization of American States
OATUU Organization of African Trade Union Unity
OAU Organization of African Unity
OBM Organization behaviour management
OCD Occupational cervicobrachial disorder
OCP Organochlorine pesticides
OCR Optical character reader
OD Optical densities
ODC Occupational Disease Certification
ODIN Organizational Service for On-going Examinations
ODM Omni Diurnal Model
ODTS Organic dust toxic syndrome
OECD Organization for Economic Cooperation and Development
OECD Organization for Economic and Cultural Development
OEH Occupational and environmental health
OEL Occupational exposure limits
OES Occupational Exposure Standards
OHAS Open hybrid automated system
OHC Occupational health counsellors
OHC Occupational health centres
OHI Occupational health institutions
OHO Occupational health organization
OHPP Occupational health promotion physicians
OILPOL Convention for the Prevention of Pollution of the Sea by Oil
OMB Office of Management and Budget
OMNI Occupational Medicine and Nursing Information
OMVPE Metallorganic chemical-vapour deposition
ONAC Office des anciens combattants
OP Occupational health physician
OPA Occupational disease prevention
OR Odds ratio
ORSE Optimal room surveillance equipment
OSHA Occupational Safety and Health Administration
OSTP Office of Science and Technology Policy
OTA Office of Technology Assessment
P
P&G Proctor & Gamble
P&ID Process and implementation diagrams
P/I Piping and instrumentation
PAW Plasma-arc welding
P-E Person-environment
PA Positive affectivity
PAH Polycyclic aromatic hydrocarbon
PAHO Pan-American Health Organization
PAPR Powered air-purifying respirator
PAQ Position analysis questionnaire
PAR Population attributable risk
PAR Parabolic aluminized reflector
PAS Pellenberg Audit System
PB Barometric pressure
PBPK Physiologically based pharmacokinetics
PBX Private branch exchange
PC Personal computer
PC Programmable controller
PCB Polychlorinated biphenyls
PCB Printed circuit board
PCHE Plasma cholinesterase
PCI Pulverized coal injection
PCMR Proportionate cancer mortality ratio
PCR Polymerase chain reaction
PEF Peak expiratory flow
PEL Permissible exposure limits
PEP Post-exposure prophylaxis
PES Programmable Electronic Systems
PET Positron-emission tomography
PETE Partnership for Environmental Technology Education
PFAS Personal fall arrest system
PFD Personal flotation device
PFU Plaque-forming units
PHC Municipal health centres in Finland
PHCW Primary health care workers
PHEL Physiological heat exposure limit
PHS Public Health Service (US)
PHWR Pressurized heavy water reactors
PID Photo-ionization detector
PIRS Passive infrared sensor
PLC Programmable logic controller
PLS Pregnant leach solution
PM Poor metabolizer
PMF Progressive massive fibrosis
PMN Premanufacture notification
PMR Proportional mortality ratio
PMS Premenstrual syndrome
PMV Predicted Mean Vote
PNOC Particulate not otherwise classified
PNS Peripheral nervous system
POAH Pre-optic/anterior hypothalamus
POC Performance operating characteristic
POM Particulate organic matter
POMS Profile of Mood States
POP Persistent organic pollutants
POTW Publicly owned treatment works
PPD Purified protein derivative
PPE Personal protective equipment
PPO Preferred provider organization
PRA Pre-Retirement Association
PRD Product requirements document
PRN Planning of Required Nursing
PROBAS Danish Product Register Data Base
PRV Pressure relief valves
PSA Prostate specific antigen
PSC Probabilistic safety criteria
PSL Priority Substances List
PSP Paralytic shellfish poisoning
PSS Particle size selective
PSS Progressive systemic scleroderma
PTO Power-take-off
PTS Permanent threshold shift
PTSD Post-traumatic stress disorder
PUF Polyurethane foams
PV Pressure-vacuum
PVD Physical vapour deposition
PWB Printed wiring board
PWI Projects with Industry
Q
QALY Quality adjusted life year
QFD Quality function deployment
QR Quick response
QRA Quantified risk assessment
R
R&D Research and development
RAC Recombinant Advisory Committee
RACB Reproductive assessment by continuous breeding
RADS Reactive airway dysfunction syndrome
RAMS Russian Academy of Medical Scientists
RAP Remedial action plan
RAS Relative aerobic strain
RBC Red blood corpuscles
RBE Relative biological effectiveness
RBM Raise boring machines
RBMK Pressure tube large power boiling water reactors
RBMK Power pressure-tube reactor
RCC Renal cell carcinoma
RCT Rational choice theory
RCW Cold weather ration
RDF Refuse derived fuel
rDNA Recombinant DNA
REL Recommended exposure limits
REM Rapid eye movement
RES Reference Energy System
RES Reticuloendothelial system
RFP Request for proposal
R-R Response-response
RA Rosin active
RF Rheumatoid factors
RF Radiofrequency
RfD Reference dose
RFO Reduced-flow orifices
RH Relative humidity
RHR Rate of heat release
RHT Risk homeostasis theory
RID International Carriage of Dangerous Goods by Rail
RIE Reactive ion etching
RIF Reduction in force
RMA Rosin mildly active
RNA Ribonucleic acid
RNUR Renault Organization
ROM Run-of-mine
ROPS Rollover protective structures
RPE Rating of perceived exertion
RPM Respirable particulate mass
RR Relative risk
RSI Repetitive strain injury
RT Respiratory tract
RTB Retinol binding protein
RTECS Registry of Toxic Effects of Chemical Substances
RTUM Rehabilitation Technology Usability Model
S
SAB Spontaneous abortion
SAE Society of Automotive Engineers
SAG Soviet Wismut Company
SAR Specific absorption rate
SAR Structure-activity relationships
SARA Superfund Act Reauthorization Amendment (US)
SAT Soil-aquifer treatment
SAW Submerged arc welding
SBN Single breath nitrogen
SBP Systolic blood pressure
SBR Styrene-butadiene rubber
SBS Sick building syndrome
SEER Surveillance, epidemiology and end results
S-R Stimulus-response
S-S Stimulus-stimulus
SC Subcommittee
SCAT Special casualty access teams
SCBA Self-contained breathing apparatus
SCE Sister chromatid exchange
SCLC Large cell carcinoma and small cell carcinoma
SCUBA Self-contained underwater breathing apparatus
SD Standard deviation
SDAG Soviet-German Wismut Company
SDI Selective dissemination of information
SDQ Safety Diagnosis Questionnaire
SDWA Safe Drinking Water Act
SE Self-esteem
SEAT Seat effective amplitude transmissibility
SED System ergonomic design
SEIU Service Employees International Union
SELF Ergonomics Society of French-Speaking Countries
SEMI Semiconductor Equipment and Materials International
SEN/slide Single-edge-notched/slide
SET Standard effective temperature
SEU Subjective expected utility
SEZ Special economic zones
SGA Small for gestational age
SI Système international (International system of units of measurements)
SI Structured interview
SIA Semiconductor Industry Association
SIC Standard Industrial Classification
SIDS Sudden infant death syndrome
SIL Safety Integrity Level
SIL Speech interference levels
SkBF Skin blood flow
SLE Systemic lupus erythematosus
SLM Sound level meter
SMAW Shielded metal arc welding
SMC Surface mount components
SME Small- and medium-sized enterprises
SMORT Safety Management and Organization Review Technique
SMP Suspended particulate matter
SMR Standardized Mortality Ratio
SMT Surface mounting technology
SNAP Sensory action potential
SNOMED Systematic Nomenclature of Medicine
SNR Single Number Rating
SOC Sense of coherence
SOGS South Oaks Gambling Screen
SOLAS International Convention for the Safety of Life at Sea
SOP Strategic Options Process
SPECT Single photon emission computed tomography
SPES Swedish Performance Evaluation System
SPF Sun protection factor
SPL Sound pressure level
SPM Suspended particulate matter
SPRIA Society for Participatory Research in Asia
SRR Standardized rate ratio
SS Sidestream smoke
SS Suspended solids
SSE Small-scale enterprise
SSM Superficial spreading melanomas
STD Sexually transmitted disease
STEL Short-term exposure limit
STEP Sequentially timed events plotting procedure
SUVA Swiss National Accident Insurance Organization
SUW Solid urban wastes
SV Stroke volume
SV40 Simian virus 40
SVOC Semi-volatile organic compounds
SWORD Surveillance of Work-related Respiratory Disease
SXEW Solvent extraction/ electrowinning process
T
TABP Type A behaviour pattern
TAD Technical Inspection Service
TB Tracheobronchial
TBM Tunnel-boring machine
TBS-GA Tätigkeitsbewertungs System für geistige Arbeit (Task Diagnosis Survey-Mental Work)
TC Technical committees
TCC Transitional cell carcinoma
TCC Thermofor catalytic cracking
THP Total Health Promotion
TI Texas Instruments
TIG Tungsten inert gas
TLC Total lung capacity
TLD Thermoluminescent dosimeters
TLV Threshold limit value
TLV-STEL Threshold limit values- short-term exposure levels
TLV-TWA Threshold limit value-time weighted average
TNF Tumour necrosis factor
TNO Dutch National Technical Institute
TOC Total organic carbon
TOP Technology, organization and personnel
TOS Toxic oil syndrome
TPDA Tellurium-radioiodinated fatty acid
TPM Thoracic particulate mass
TQA Total quality assurance
TQC Total quality control
TQL Total quality leadership
TQM Total quality management
TRGS Technical rules for hazardous substances
TRI Toxic Release Inventory
TSCA Toxic Substances Control Act (US)
TSD Theory of signal detection
TSNA Tobacco-specific nitrosamines
TSP Total suspended particles
TSS Total suspended solids
TST Tuberculin skin test
TTE Total time exposed
TTS Temporary threshold shift
TUC Trades Union Congress (UK)
TUR Toxics use reduction
TUTB European Trade Union Technical Bureau for Occupational Safety and Health
TVL Tenth-value layer
TVOC Total volatile organic compound
TWA Time-weighted average
TWAL Time-weighted average limit
U
UAW United Auto Workers
UDHR Universal Declaration of Human Rights
ULPZ Upper limit of the prescriptive zone
ULV Ultra-low volume
UN United Nations
UNCED United Nations Conference on Environment and Development
UNCETG United Nations Committee of Experts on Transport of Dangerous Goods
UNCHR United Nations Commission on Human Rights
UNCLOS United Nations Conference on the Law of the Sea
UNCTAD United Nations Conference on Trade and Development
UNCTC United Nations Centre on Transnational Corporations
UNDP United Nations Development Programme
UNDRO United Nations Disaster Relief Coordinator Office
UNECE United Nations Economic Commission for Europe
UNEP United Nations Environment Programme
UNEP-IRPTC UNEP International Register of Potentially Toxic Chemicals
UNESCO United Nations Educational, Scientific and Cultural Organization
UNFCCC United Nations Framework Convention on Climate Change
UNFPA United Nations Fund for Population Activities
UNGA United Nations General Assembly
UNICE Union of Industrial and Employers Confederations of Europe
UNIDO United Nations Industrial Development Organization
UNIPEDE Union internationale des producteurs et distributeurs d’énergie électrique
UNRTDG United Nations Recommendations on the Transport of Dangerous Goods
UNSCEAR United Nations Scientific Committee on the Effects of Atomic Radiation
UOEH University of Occupational and Environmental Health (Japan)
USAID United States Agency for International Development
USBLS United States Bureau of Labor Statistics
USCFR United States Code of Federal Regulations
USDA United States Department of Agriculture
USDHHS United States Department of Health and Human Services
USDOE United States Department of Energy
USDOL United States Department of Labor
USM University Sains Malaysia
USNRC United States Nuclear Regulatory Commission
USOTA United States Office of Technology Assessment
USPHS United States Public Health Services
UST Underground storage tanks
UV Ultraviolet
UVA Ultraviolet radiation-A
UVB Ultraviolet radiation-B
UVC Ultraviolet radiation-C
UVGI Ultraviolet germicidal irradiation
V
VA Visual acuity
VAV Variable volume
VC Vital capacity
VCR Vertical crater retreat
VDT Video display terminal
VDU Visual display unit
VLF Very low frequency
VMT Vehicle mile travelled
VOC Volatile organic compound
VPE Vapour-phase epitaxy
VPP Voluntary protection programme
VVS Vibration-related vasospastic syndrome
VWF Vibration-induced white finger
W
WAA Work-aggravated asthma
WANO World Association of Nuclear Operators
WBC White blood corpuscles
WBGT Wet bulb globe temperature
WC Water closet
WCB Workers’ Compensation Board
WCGS Western Collaborative Group Study
WCI Wind Chill Index
WCL World Confederation of Labour
WCS Workers’ compensation system
WD Working draft
WEF Work Environment Fund (Sweden)
WERC Waste-management Education and Research Consortium
WFTU World Federation of Trade Unions
WG Working group
WGT Wet globe temperature
WHA World Health Assembly
WHIMS Wet high-intensity separator
WHMIS Workplace Hazardous Materials Information System (Canada)
WHO World Health Organization
WHPA Well head protection area
WLM Working Level Month
WMA World Medical Association
WRAP Waste Reduction Always Pays
WRMD Work-related musculoskeletal disorder
Y
YMCA Young Men’s Christian Association
Z
ZCTU Zambia Congress of Trade Unions
ZDV Zidovudine
ZeBWis Wismut Central Care Office
ZIGUV Central Information System of the BG
ZPP Zinc protoporphyrin
International System of Units
The International System of Units is a decimal system of weights and measures which is based on and extends the metric system. It is abbreviated as SI in all languages.
SI includes seven basic units (see table 1). The metre, defined to be 1,650,763.73 wavelengths in vacuum of the red-orange line of the krypton-86 spectrum, is the SI unit for length. The kilogram, which is approximately 2.2 pounds avoirdupois and equals 1,000 grams (as defined by the platinum-iridium prototype kilogram held by the International Bureau of Weights and Measures in Sèvres, France), is the SI unit for mass. It is the sole base unit that remains defined by an artefact. It is also the only SI unit with a prefix as part of its name and symbol. The second, or the duration of 9,192,631,770 cycles of the radiation corresponding to a specified transition of the caesium-133 atom, is the SI unit for time. The ampere is the SI unit for electric current. It is the constant current produced by one volt which, when maintained in two parallel conductors separated by one metre in vacuum, generates an electromagnetic force of 2 x 10-7 N m-1. The kelvin, which is equal to 1/273.16 of the thermodynamic temperature at the triple point of water, is the SI unit for thermodynamic temperature. The kelvin’s magnitude equals that of the degree Celsius; however, a temperature expressed in degrees Celsius is the numerical equivalent of the temperature in kelvins less 273.15. The mole is the SI unit for amount of substance; it contains as many elementary units of substance as there are atoms in 0.012 kg of carbon-12. Elementary units must be specified, as they may be atoms, electrons, ions, molecules, radicals, etc. The candela is the SI unit for luminous intensity. It equals the luminous intensity of the black-body radiation, in the perpendicular direction, from an area of 1/600,000 square metres at platinum’s freezing temperature (2,042 kelvins) under 101,325 pascals of pressure, which approximates the intensity of a single paraffin candle.
Table 1. SI base units
|
Quantity |
SI unit name |
Symbol |
|
Length |
Metre |
m |
|
Mass1 |
Kilogram |
kg |
|
Time |
Second |
s |
|
Electric current |
Ampere |
A |
|
Thermodynamic temperature |
Kelvin2 |
K |
|
Amount of substance |
Mole |
mol |
|
Luminous intensity |
Candela |
cd |
1 "Weight” is often used to mean “mass”.
2 The name “degree kelvin” and the symbol “degK” were declared obsolete
at a 1967 international conference.
SI also includes two supplementary units (see table 2). Radian and steradian are the dimensionless units for the dimensionless quantities plane angle and solid angle, respectively. Units for other quantities are derived from the seven basic and two supplementary units.
Table 2. SI supplementary units
|
Quantity |
SI unit name |
Symbol |
Expression in terms of SI base units |
|
Plane angle |
Radian |
rad |
m·m– 1 =1 |
|
Solid angle |
Steradian |
sr |
m2 ·m– 2 =1 |
Table 3 lists selected SI derived units expressed in terms of base units. Derived units with special names and symbols are listed in table 4. These may be used to express other derived units (see table 5). The two supplementary units may also be used to express derived units (see table 6).
The 16 prefixes used to create multiples and submultiples of SI units are listed in table 7. Since multiple prefixes cannot be used, these prefixes are used with gram (g), but not with kilogram (kg).
A number of units that are not part of SI are widely used, especially in the United States. Those which are considered acceptable for use with SI in the US are listed in table 8. A conversion table for SI units is provided in table 9.
Table 3. Selected SI derived units expressed in terms of base units
|
Quantity |
SI unit name |
Symbol |
|
Area |
Square metre |
m2 |
|
Volume |
Cubic metre |
m3 |
|
Speed, velocity |
Metre per second |
m/s |
|
Acceleration |
Metre per second squared |
m/s2 |
|
Wave number |
Reciprocal metre |
m– 1 |
|
Density, mass density |
Kilogram per cubic metre |
kg/m3 |
|
Specific volume |
Cubic metre per kilogram |
m3/kg |
|
Current density |
Ampere per square metre |
A/m2 |
|
Magnetic field strength |
Ampere per metre |
A/m |
|
Concentration (of amount of substance) |
mole per cubic metre |
mol/m3 |
|
Luminance |
Candela per square metre |
cd/m2 |
Table 4. SI derived units with special names
|
Quantity |
SI unit name |
Symbol |
Expression in terms |
|
Frequency |
Hertz |
Hz |
s– 1 |
|
Force |
Newton |
N |
m·kg/s2 |
|
Pressure, stress |
Pascal |
Pa |
N/m2 |
|
Energy, work, quantity of heat |
Joule |
J |
N·m |
|
Power, radiant flux |
Watt |
W |
J/s |
|
Electric charge, quantity of electricity |
Coulumb |
C |
s·A |
|
Electric potential, potential difference, electromotive force |
Volt |
V |
W/A |
|
Capacitance |
Farad |
F |
C/V |
|
Electric resistance |
Ohm |
Omega |
V/A |
|
Electric conductance |
Siemens |
S |
A/V |
|
Magnetic flux |
Weber |
Wb |
V·s |
|
Magnetic flux density |
Tesla |
T |
Wb/m2 |
|
Inductance |
Henry |
H |
Wb/A |
|
Celsius temperature1 |
Degree Celsius |
C |
K |
|
Luminous flux |
Lumen |
lm |
cd·sr |
|
Activity (of a radionuclide) |
Becquerel |
Bq |
s– 1 |
|
Absorbed dose, specific energy imparted, kerma, absorbed dose index |
Gray |
Gy |
J/kg |
|
Dose equivalent, dose equivalent index |
Sievert |
Sv |
J/kg |
1 In addition to the thermodynamic temperature (T) expressed in kelvins (see table 105.1), Celsius
temperature (t) is also used and is defined by the equation t = T – T0 where T0 = 273.15 K by
definition. The unit “degree Celsius”, which is equal to the unit “kelvin”, is used to express Celsius
temperature. Here, the term “degree Celsius” is a special name substituted for “kelvin”.
However, a difference or interval of Celsius temperature can be expressed in either kelvins
or degrees Celsius.
Table 5. Examples of SI derived units expressed with special names
|
Quantity |
SI unit name |
Symbol |
|
Dynamic viscosity |
Pascal second |
Pa·s |
|
Moment of force |
Newton metre |
N·m |
|
Surface tension |
Newton per metre |
N/m |
|
Heat flux density, irradiance |
Watt per square metre |
W/m2 |
|
Heat capacity, entropy |
Joule per kelvin |
J/K |
|
Specific heat capacity, specific entropy |
Joule per kilogram kelvin |
J/(kg·K) |
|
Specific energy |
Joule per kilogram |
J/kg |
|
Thermal conductivity |
Watt per metre kelvin |
W/(m·K) |
|
Energy density |
Joule per cubic metre |
J/m3 |
|
Electric field strength |
Volt per metre |
V/m |
|
Electric charge density |
Coulomb per cubic metre |
C/m3 |
|
Electric flux density |
Coulomb per square metre |
C/m2 |
|
Permittivity |
Farad per metre |
F/m |
|
Permeability |
Henry per metre |
H/m |
|
Molar energy |
Joule per metre |
J/mol |
|
Molar entropy, molar heat capacity |
Joule per mole kelvin |
J/(mol·K) |
|
Exposure (x and gamma rays) |
Coulomb per kilogram |
C/kg |
|
Absorbed dose rate |
Gray per second |
Gy/s |
Table 6. Examples of SI derived units formed with supplementary units
|
Quantity |
SI unit name |
Symbol |
|
Angular velocity |
Radian per second |
rad/s |
|
Angular acceleration |
Radian per second squared |
rad/s2 |
|
Radiant intensity |
Watt per steradian |
W/sr |
|
Radiance |
Watt per square metre steradian |
W/(m2·sr) |
Table 7. SI prefixes
|
Factor |
Prefix |
Symbol |
|
1018 |
exa |
E |
|
1015 |
peta |
P |
|
1012 |
tera |
T |
|
109 |
giga |
G |
|
106 |
mega |
M |
|
103 |
kilo |
k |
|
102 |
hecto |
h |
|
101 |
deka |
da |
|
10- 1 |
deci |
d |
|
10- 2 |
centi |
c |
|
10- 3 |
milli |
m |
|
10- 6 |
micro |
μ |
|
10- 9 |
nano |
n |
|
10- 12 |
pico |
p |
|
10- 15 |
femto |
f |
|
10- 18 |
atto |
a |
Table 8. Units in use with SI
|
Name |
Symbol |
Value in SI unit |
|
Minute (time) |
min |
1 min = 60 s |
|
Hour |
h |
1 h = 60 min = 3,600 s |
|
Day |
d |
1 d = 24 h = 86,400 s |
|
Degree (angle) |
|
1 = (pi/180) rad |
|
Minute (angle) |
|
1 = (1/60) = (pi/10,800) rad |
|
Second (angle) |
|
1 = (1/60) = (pi/648,000) rad |
|
Litre |
l1 |
1 l = 1 dm3 = 10– 3 m3 |
|
Tonne2 |
t |
1 t = 103 kg |
|
Hectare (land area) |
ha |
1 ha = 1 hm2 = 104 m2 |
|
Electronvolt3 |
eV |
1 eV = 1.602 18 x 10– 19 J |
|
Unified atomic mass unit3 |
u |
1 u = 1.660 54 x 10– 27 kg |
1 Both “l” and “L” are accepted as symbols for litre.
2 In some countries, such as the United States, “metric ton” is used instead of “tonne”.
3 The values of these units in SI units are not known exactly; the values must be obtained
through experiment. The electronvolt is the kinetic energy acquired by an electron passing
through a potential difference of 1 volt in a vacuum. The unified atomic mass unit equals 1/12 of
the mass of the atom of the nuclide 12C.
Table 9. Conversion of non-SI units to SI units
|
From/to |
To/from |
Multiply by/divide by |
|
Inch (in) |
m |
2.54 x 10– 2 |
|
Feet (ft) |
m |
0.3048 |
|
Square inch (in2 ) |
m2 |
6.4516 x 10– 4 |
|
Square foot (ft2 ) |
m2 |
9.2903 x 10– 2 |
|
Cubic inch (in3 ) |
m3 |
1.638 71 x 10– 5 |
|
Cubic foot (ft3 ) |
m3 |
2.831 68 x 10– 2 |
|
Litre (l) |
m3 |
10– 3 |
|
Gallon (gal) |
m3 |
4.546 09 x 10– 3 |
|
Mile/hour (mi hr– 1 ) |
m s– 1 |
0.477 04 |
|
Kilometre/hour (km hr– 1 ) |
m s– 1 |
0.277 78 |
|
Pound (lb) |
kg |
0.453 592 |
|
Gram/cm3 (g cm– 3 ) |
kg m– 3 |
103 |
|
Pound/in3 |
kg m– 3 |
2.767 99 x 104 |
|
mmHG |
Pa |
133.322 |
|
Atmosphere (atm) |
Pa |
1.013 25 x 105 |
|
Horsepower (hp) |
W |
745.7 |
|
erg |
J |
10– 7 |
|
Electronvolt (eV) |
J |
1.602 10 x 10– 19 |
|
Kilowatt-hour (kW hr) |
J |
3.6 x 106 |
|
Calorie (cal) |
J |
4.1868 |
|
Dyne |
N |
10– 5 |
|
kgf |
N |
9.806 65 |
|
Poundal |
N |
0.138 255 |
|
lbf |
N |
4.448 22 |
Acknowledgement: The information in the tables is based primarily on data from the US National Institute of Standards and Technology (NIST).
acids and anhydrides table 1
Acids and Anhydrides,Organic: Chemical identification
|
CHEMICAL |
synonyms |
CAS-number |
CHEMICAL FORMULA |
|
ACETIC ACID |
Ethanoic acid; |
64-19-7 |
|
|
ACETIC ANHYDRIDE |
Acetanhydride; |
108-24-7 |
<$&108247[-]> |
|
ACETYLSALICYLIC ACID |
Acetosalic acid; |
50-78-2 |
<$&50782[-]> |
|
ACRYLIC ACID |
Ethylenecarboxylic acid; |
79-10-7 |
<$&79107[-]> |
|
ADIPIC ACID |
Adipinic acid; |
124-04-9 |
<$&124049[-]> |
|
L-ASCORBIC ACID |
3-Keto-l-gulofuranolactone; |
50-81-7 |
<$&50817[-]> |
|
BENZOIC ACID |
Benzenecarboxylic acid; |
65-85-0 |
<$&65850[-]> |
|
BUTYRIC ACID |
Butanic acid; |
107-92-6 |
<$&107926[-]> |
|
n-CAPROIC ACID |
Butylacetic acid; |
142-62-1 |
<$&142621[-]> |
|
CHLORENDIC ACID |
1,4,5,6,7,7-Hexachloro-5-norbornene-2,3-dicarboxylic acid; |
115-28-6 |
<$&115286[-]> |
|
CHLOROACETIC ACID |
Monochloroacetic acid; |
79-11-8 |
<$&79118[-]> |
|
o-CHLOROBENZOIC ACID |
2-CBA; |
118-91-2 |
<$&118912[-]> |
|
m-CHLOROBENZOIC ACID |
3-Chlorobenzoic acid |
535-80-8 |
<$&535808[-]> |
|
p-CHLOROBENZOIC ACID |
p-Carboxychlorobenzene; |
74-11-3 |
<$&74113[-]> |
|
2-CHLOROPROPIONIC ACID |
α-Chloropropionic acid |
598-78-7 |
<$&598787[-]> |
|
4-CHLORO-o-TOLOXYACETIC ACID |
4-Chloro-o-cresoxyacetic acid; |
94-74-6 |
<$&94746[-]> |
|
CITRIC ACID |
Citro; |
77-92-9 |
<$&77929[-]> |
|
CITRIC ACID HYDRATE |
1,2,3-Propanetricarboxylic acid, 2-Hydroxy-, monohydrate |
5949-29-1 |
<$&5949291[-]> |
|
CROTONIC ACID |
α-Butenoic acid; |
3724-65-0 |
<$&3724650[-]> |
|
DICHLORACETIC ACID |
Bichloracetic acid; |
79-43-6 |
<$&79436[-]> |
|
2,4-DICHLORPHENOXYACETIC ACID |
2,4-D; |
94-75-7 |
<$&94757[-]> |
|
2-ETHYLHEXOIC ACID |
Butylethylacetic acid; |
149-57-5 |
<$&149575[-]> |
|
FLUOROACETIC ACID |
Pymonic acid; |
144-49-0 |
<$&144490[-]> |
|
FORMIC ACID |
Aminic acid; |
64-18-6 |
<$&64186[-]> |
|
FUMARIC ACID |
trans-Butenedioic acid; |
110-17-8 |
<$&110178[-]> |
|
GALLIC ACID |
3,4,5-Trihydroxybenzoic acid |
149-91-7 |
<$&149917[-]> |
|
GLYCOLIC ACID |
Hydroxyacetic acid; |
79-14-1 |
<$&79141[-]> |
|
HEPTANOIC ACID |
n-Heptoic acid; |
111-14-8 |
<$&111148[-]> |
|
ISOBUTYRIC ACID |
Dimethylacetic acid; |
79-31-2 |
<$&79312[-]> |
|
ISOPHTHALIC ACID |
Benzene-1,3-dicarboxylic acid; |
121-91-5 |
<$&121915[-]> |
|
LAURIC ACID |
Dodecanoic acid; |
143-07-7 |
<$&143077[-]> |
|
MALEIC ACID |
cis-Butenedioic acid; |
110-16-7 |
<$&110167[-]> |
|
MALEIC ANHYDRIDE |
cis-Butenedioic anhydride; |
108-31-6 |
<$&108316[-]> |
|
MALONIC ACID |
Carboxyacetic acid; |
141-82-2 |
<$&141822[-]> |
|
MANDELIC ACID |
α-Hydroxyphenylacetic acid; |
90-64-2 |
<$&90642[-]> |
|
METHACRYLIC ACID |
Methacrylic acid; |
79-41-4 |
<$&79414[-]> |
|
NONANOIC ACID |
n-Nonylic acid; |
112-05-0 |
<$&112050[-]> |
|
9-OCTADECENOIC ACID |
cis-9-Octadecenoic acid; |
112-80-1 |
<$&112801[-]> |
|
OXALIC ACID |
Ethanedioic acid; |
144-62-7 |
<$&144627[-]> |
|
PALMITIC ACID |
Cetylic acid; |
57-10-3 |
<$&57103[-]> |
|
PHTHALIC ACID |
Benzene-1,2-dicarboxylic acid; |
88-99-3 |
<$&88993[-]> |
|
PHTHALIC ANHYDRIDE |
1,2-Benzenedicarboxylic acid anhydride; |
85-44-9 |
<$&85449[-]> |
|
PIVALIC ACID |
2,2-Dimethylpropanoic acid; |
75-98-9 |
<$&75989[-]> |
|
PROPIONIC ACID |
Carboxyethane; |
79-09-4 |
<$&79094[-]> |
|
PROPIONIC ANHYDRIDE |
Methylacetic anhydride; |
123-62-6 |
<$&123626[-]> |
|
p-tert-BUTYL BENZOIC ACID |
p-TBBA |
98-73-7 |
<$&98737[-]> |
|
p-TOLUENESULPHONIC ACID |
p-Methylbenzenesulfonic acid; |
104-15-4 |
<$&104154[-]> |
|
SALICYLIC ACID |
o-Hydroxybenzoic acid; |
69-72-7 |
<$&69727[-]> |
|
STEARIC ACID |
Cetylacetic acid; |
57-11-4 |
<$&57114[-]> |
|
SUCCINIC ACID |
butanedioic acid; |
110-15-6 |
<$&110156[-]> |
|
SULPHANILIC-ACID |
p-Aminobenzenesulphonic acid; |
121-57-3 |
<$&121573[-]> |
|
TARTARIC ACID |
2,3-Dihydrosuccinic acid; |
87-69-4 |
<$&87694[-]> |
|
TEREPHTHALIC ACID |
p-Benzenedicarboxylic acid; |
100-21-0 |
<$&100210[-]> |
|
TRICHLORACETIC ACID |
TCA |
76-03-9 |
<$&76039[-]> |
|
TRICHLOROPHENOXYACETIC ACID |
2,4,5-T |
93-76-5 |
<$&93765[-]> |
|
TRIFLUOROACETIC ACID |
Perfluoroacetic acid; |
76-05-1 |
<$&76051[-]> |
|
TRIMELLIC ACID ANHYDRIDE |
4-Carboxyphthalic anhydride; |
552-30-7 |
<$&552307[-]> |
|
VALERIC ACID |
Butanecarboxylic acid; |
109-52-4 |
<$&109524[-]> |
Melting Point (ºC)
10- 5
Preventing Neurotoxicity at Work
A worker not exposed to a neurotoxic substance will never develop any adverse neurotoxic health effects from that substance. Zero exposure leads to total protection against neurotoxic health effects. This is the essence of all primary prevention measures.
Toxicity Testing
New chemical compounds introduced into the workplace and in occupational settings should have already been tested for neurotoxicity. Failure to do pre-market toxicity testing can lead to workers’ contact and potentially severe adverse health effects. The introduction of methyl n-butyl ketone into a workplace in the United States is a classic example of the possible hazards of untested neurotoxicants being introduced into the workplace (Spencer and Schaumburg 1980).
Engineering Controls
Engineering controls (e.g., ventilation systems, closed production facilities) are the best means for keeping workers’ exposures below permissible exposure limits. Closed chemical processes that keep all toxicants from being released into the workplace environment are the ideal. If this is not possible, closed ventilation systems that exhaust ambient air vapours and are designed so as to pull contaminated air away from workers are useful when well designed, adequately maintained, and properly operated.
Personal Protection Equipment
In situations where engineering controls are unavailable to reduce workers’ contact with neurotoxicants, personal protective equipment must be provided. Because workplace neurotoxicants are many, and routes of exposure differ across workplaces and work conditions, the kind of personal protective equipment must be carefully selected for the situation at hand. For example, the neurotoxicant lead can exert its toxicity when lead-laden dust is breathed and when lead particles are ingested in food or water. Therefore, personal protective equipment must protect against both routes of exposure. This would mean respiratory protection equipment and adoption of personal hygiene measures to prevent consumption of lead-contaminated food or beverages. For many neurotoxicants (like industrial solvents), absorption of the substance through intact skin is a main route of exposure. Impermeable gloves, aprons and other appropriate equipment must therefore be provided to prevent skin absorption. This would be in addition to engineering controls or personal respiratory protection equipment. Considerable planning must be given to match personal protective equipment to the specific work being performed.
Administrative Controls
Administrative controls consist of managerial efforts to reduce workplace hazards through planning, training, employee rotation on job sites, changes in production processes, and product substitution (Urie 1992), as well as strict adherence to all existing regulations.
Workers’ Right-to-Know
While the employer bears the responsibility for providing a workplace or work experience that does not harm workers’ health, workers have the responsibility to follow workplace rules that are intended to protect them. Workers must be in a position to know what actions to take in protecting themselves. This means workers have the right to know about the neurotoxicity of substances with which they come into contact, and what protective measures they can take.
Worker Health Surveillance
Where conditions permit, workers should be regularly given medical examinations. A regular evaluation by occupational physicians or other medical specialists constitutes worker health surveillance. For workers known to be working with or around neurotoxicants, physicians should be knowledgeable of the effects of exposure. For example, low-level exposure to many organic solvents will produce symptoms of fatigue, sleep disorders, headaches and memory disturbances. For heavy doses of lead, wrist drop and peripheral nerve impairment would be signs of lead intoxication. Any signs and symptoms of neurotoxicant intoxication should result in reassignment of the worker to an area free of the neurotoxicant, and efforts to reduce workplace levels of the neurotoxicant.
Emergency and Security Services
Emergency and security services exist to deal with extraordinary and threatening situations. The people who work in such services are therefore confronted with events and circumstances that lie outside the usual experience of human beings in their daily lives. Although each of the occupations has its own set of hazards, risks and traditions, they share several features in common. These include the following:
- long periods of relative quiet or routine interrupted abruptly by periods of intense psychological stress
- long periods of relative inactivity interrupted abruptly by periods of intense physical activity
- rigid codes of behaviour and high expectations for performance, often accompanied by detailed orders for how to do the job and high penalties for failure
- personal danger; the worker allows himself or herself to be exposed to hazards that are unusual for anyone else in the community
- a primary objective of rescuing or protecting others who are not able to save themselves
- a secondary objective of protecting property from destruction or damage
- teamwork under demanding conditions
- a rigid hierarchy or “chain of command” to reduce uncertainty and to make sure that procedures are followed correctly.
The form of organization and the means by which the mission of these services is carried out varies. The circumstances of the mission of a service affect the attitude and approach to the job; these differences are perhaps best understood by considering the object of control for each emergency service.
Firefighting is perhaps the most representative emergency and security service. This occupation arose historically as a way to limit property damage from fires, and started as a private service in which fire-fighters might save the businesses and houses of persons who paid insurance premiums but would let the property of others burn, even if they were right next door. Soon, society determined that private fire services were inefficient and that it would be much more practical and useful to make them public. Thus, firefighting became a municipal or local government function in most parts of the world. Private firefighting services still exist in industry, at airports and in other settings where they are coordinated with municipal services. In general, fire-fighters enjoy a great deal of trust and respect in their communities. In firefighting, the object of control, or the “enemy”, is the fire; it is an external threat. When a fire-fighter is injured on the job, it is perceived as the result of an external agent, although it might be an indirect assault if the fire were set by an arsonist.
Police services and the military are given the responsibility by society to maintain order, generally in response to an internal threat (such as crime) or to an external threat (such as war). Armed force is the essential means of accomplishing the mission, and the use of appropriate tactics and investigative techniques (whether criminal investigation or military intelligence) is standard procedure. Because of the high potential for abuse and misuse of force, society in general has imposed strict limitations on how force is used, especially toward civilians. Police especially are watched more closely than other emergency and security personnel to ensure that they use their monopoly on force correctly. This sometimes leads to the perception by police officers that they are not trusted. For the police and for soldiers, the object of control, or the “enemy”, is another human being. This creates many situations of uncertainty, feelings of guilt and questions about rights and proper behaviour that fire-fighters do not have to face. When police or soldiers are injured in the line of duty, it is usually the direct result of intentional human action taken against them.
Paramedical and rescue personnel are responsible for recovering, stabilizing and rendering initial treatment to people who are injured, ill or trapped in circumstances from which they cannot escape by themselves. Often they work side by side with fire-fighters and police. For them, the object of control is the patient or victim whom they are trying to help; the victim is not an “enemy”. Moral and ethical issues in these occupations are most prominent when the victim is partially responsible for his or her condition, as when a driver is intoxicated by alcohol or a patient refuses to take medication. Sometimes, victims who are not rational or who are angry or under stress may act in an abusive or threatening way. This is confusing and frustrating for paramedical and rescue personnel, who feel that they are doing their best under difficult circumstances. When one of these workers is injured on the job, it is perceived as almost a betrayal, because they were trying to help the victim.
Hazardous materials response teams are often part of fire services and have a similar organization on a small scale. They evaluate and take initial steps to control chemical or physical hazards that may present a threat to the public. Hazardous waste remediation workers are less tightly organized that these other occupations and exist to clean up a problem that has been around for a while. In both cases, the workers are dealing with a potential hazard in which the fundamental problem is uncertainty. Unlike the other occupations, in which it was clear who or what was the object of control, these workers are controlling a risk that may be difficult to identify. Even when the chemical or hazard is known, the future risk of cancer or disease is usually uncertain. Workers often cannot know whether they have been injured on the job because the effects of exposure to chemicals may not be known for many years.
Potential Occupational Hazards
The common hazard to all of these workers is psychogenic stress. In particular, they are all subject to so-called critical events, which are situations perceived to be of grave or uncertain but probably serious danger that a person cannot escape. Unlike a member of the general public, a worker in one of these occupations cannot simply walk away or leave the scene. Much of their own sense of self-esteem comes from how they handle just such situations. For workers who survive critical events, there is often a period of denial followed by a period of depression and distracted behaviour. Thoughts of what the worker has seen and a sense of guilt or inadequacy intrude on his or her thinking. It is difficult to concentrate, and the worker may have nightmares. The worst critical events are generally considered to be those in which victims have died because of a mistake or because it was not possible for the rescuer to save them, in spite of his or her best efforts.
Many of these occupations also involve the rescue and stabilization of people who may be ill with communicable diseases. The infections that most commonly present a problem are AIDS and HIV infection generally, hepatitis B and C and tuberculosis. HIV and hepatitis B and C viruses are both transmitted by human body fluids and may therefore pose a hazard to emergency response personnel when there is bleeding or if the worker is deliberately bitten. Emergency response personnel are now usually trained to consider all subjects (victims or criminals) as potentially infected and infective. HIV precautions are described elsewhere. Tuberculosis is transmitted by sputum and by coughing. The risk is particularly great during the resuscitation of persons with active cavitary tuberculosis, an increasingly frequent problem in economically disadvantaged inner city areas.
Injury is a risk common to all of these occupations. Fires are always unsafe, and the hazards of the fire itself may be combined with the risk of structures breaking apart, unstable floors, falling objects and falls from a height. Violence is a more common hazard of police and military combat services, obviously, because that is what they were created to control. However, aside from intentional violence there is a potential for hazards from traumatic incidents involving automotive traffic, mishandling of weapons and, especially in the military, occupational injuries in support areas. Hazardous materials workers may deal with a variety of unknown chemicals which may have a hazard of explosion or fire in addition to their toxic properties.
These occupations vary greatly in their potential for health problems. Aside from stress-related outcomes and the potential for communicable diseases mentioned, each occupation is different in its health concerns.
Preventive Guidelines
Each occupation differs in its approach to prevention. However, there are a few measures that are common to all or most of them.
Many services now require their workers to go through a process called critical event debriefing following such incidents. During these debriefings, the workers discuss the event in the presence of a trained mental health worker-how they feel about it, and their feelings about their own actions. Critical event debriefing has been shown to be very effective in preventing later problems, such as post-traumatic stress syndrome, following critical events.
Rigorous fitness screening at the time of hire is usually part of the selection process for police and fire personnel, and many services require these members to stay fit through regular exercise and training. This is intended to ensure satisfactory and consistent performance, but it has the additional effect of reducing the likelihood of injuries.
Infectious hazards are difficult to anticipate because victims may not show outward signs of infection. Emergency response personnel are now taught to use “universal precautions” in handling body fluids and to use protective equipment such as gloves and safety eyeglasses if there is a risk of coming into contact with body fluids. Often, however, such events are unpredictable or difficult to control if the victim is violent or irrational. Routine immunization with hepatitis B vaccine is advised where the risk is high. Disposable resuscitation equipment is recommended to reduce the risk of transmitting communicable diseases. Special care should be taken with needles and other sharp objects. Human bites should be cleaned thoroughly and treatment given with penicillin or a penicillin-like drug. When HIV infection has been confirmed in the person who was the source, or contamination and transmission may have taken place by needlestick or invasive contact with blood or body fluids, a physician’s advice should be sought about the advisability of prescribing antiviral drugs that reduce the chance of infection in the worker. Tuberculosis infection in an exposed worker can be confirmed by skin test and then treated prophylactically before it becomes a serious disease.
Other preventive measures are specific to the particular occupations.
Excerpts from the Preface to the Third Edition (1983)
The decision to publish the second edition of the Encyclopaedia of Occupational Health and Safety was taken some 15 years ago, and its preparation lasted throughout the years 1966 to 1971. Since then a great deal of progress has been made in the knowledge and activities covered by this publication. Side by side with technological progress there have been great advances in methods of identifying, evaluating and controlling occupational hazards and providing health protection in the workplace. Toxic substances, dust in industry, mineral fibres, non-ionising radiation, allergy and occupationally induced cancer have been the subject of intensive experimental research and important epidemiological studies. Nevertheless, the changes that took place in working environments in the 1970s were not due merely to wider technical knowledge and awareness. A new trend began to take shape: the workers’ claim for a better quality of life at work and the increasing involvement of trade unions in health and safety protection in the workplace, the fuller support by employers of comprehensive occupational health and safety programmes and increasing efforts by governments to apply far-reaching measures in this field. This trend has been reflected in national and international legislation concerning the working environment and working conditions, which has advanced to an unprecedented extent. Thus the panorama of occupational health and safely, industrial hygiene and ergonomics has undergone profound changes in many member countries of the ILO, not only as regards the state of the art, but also as regards the practical application of these disciplines in the workplace…
It is 63 years since the ILO first established as one of its basic objectives “the protection of the worker against sickness, disease and injury arising out of his employment”. The objective is still the same, but the form and methods of this protection have evolved along with technical progress and economic development… International dissemination of the most recent scientific and practical knowledge in this field is an integral part of ILO activity—together with the traditional modes of action: standard-setting and technical co-operation—to promote the increased effectiveness of health and safety protection at work throughout the world. The new edition of the Encyclopaedia will make an important contribution to that great endeavour.
Francis Blanchard
Director-General
International Labour Office
Geneva, 1983
Excerpts from the Preface to the Second Edition (1971)
Occupational accidents and diseases remain the most appalling human tragedy of modern industry and one of its most serious forms of economic waste. The best estimates currently available on a world basis reckon the number of fatal injuries at the workplace at close to 100,000 annually. In some highly industrialised countries industrial accidents are responsible for the loss of four or five times as many working days as industrial disputes. In certain cases their cost is comparable to that of national defence. Industrialisation and the mechanisation of agriculture have made the problem acute in a much wider range of countries and occupations.
The economic burden on the community cannot be expressed in compensation costs alone. It also includes loss of production, disruption of production schedules, damage to productive equipment and—in the case of large-scale accidents—major social dislocations. But the economic burden is by no means the full measure of the human cost…
Originally, the main thrust of preventive action was to improve the unhealthiest working conditions and remedy the appalling lack of physical protection against the most dangerous occupational hazards. The first international standards were designed either to do away with the more flagrant abuses impairing health, such as the employment of very young children, over-long hours of work, the absence of any form of maternity protection, and night work by women and children, or to combat the risks most commonly encountered by industrial workers—anthrax, and lead or chronic phosphorus poisoning.
When the ILO passed beyond formulating these basic standards to grapple with the problem of social security, the first question it considered was compensation for occupational accidents and diseases. Workmen’s compensation legislation already existed in many countries; it was developed on the basis of ILO standards and its financial implications gave a powerful impetus to preventive measures. The ILO did much to bring about the standardisation of industrial injury and occupational disease statistics and the systematic collection of data on accident frequency…
Gradually this concentration of attention upon the most flagrant abuses and the highest accident and disease rates broadened into a more comprehensive approach designed to promote the highest standards of safety and health in all industries and occupations. The monumental Model Code of Safety Regulations for Industrial Establishments for the Guidance of Governments and Industry, first issued in 1949 on the basis of work initiated during the Second World War and periodically revised since, was an important step in this direction. It furnished an impetus which has now found expression in a wide range of codes of practice and guides to practice which are complementary to it. In the 1950s this broader approach was reflected in new comprehensive international standards for the protection of workers’ health, welfare facilities and occupational health services.
In the 1960s these were supplemented by a new series of specific provisions dealing with particular risks which had assumed increased importance. In factories, one accident in six is caused by machinery; hence the importance of international standards on the guarding of moving parts which regulate not only the use, sale and hire of machinery having dangerous parts but also its manufacture…
Modern industrial medicine has outgrown the stage where it merely involved first aid in the event of an accident and the diagnosis of occupational diseases; nowadays it is concerned with all the effects of work upon physical and mental health, and even with the impact of man’s physical or psychological disabilities upon his work…
Technological progress now moves far more swiftly than it did 40 years ago. There is every reason to believe that the pace will quicken still further. This second edition of the Encyclopaedia will therefore be merely the next stage in our work. But each stage is the indispensable foundation for its successor. During the coming years the Encyclopaedia of Occupational Health and Safety will be an essential tool for humanising the working environment and improving the lot of workers the world over. In human and economic terms alike higher health and safety standards are a primary responsibility of enlightened social policy and efficient management. Neither can be effective without the comprehensive body of knowledge necessary to appraise the relevance of current information to policy and action. The present Encyclopaedia, which was prepared under the technical responsibility of Dr. Luigi Parmeggiani, Chief of the Occupational Safety and Health Branch, is designed to make readily accessible to all the comprehensive knowledge of these matters which is now available. In editing the Encyclopaedia, Dr. Parmeggiani has worthily maintained the traditions established by Dr. Luigi Carozzi, who laid the foundations of the industrial health work of the ILO.
Wilfred Jenks
Director-General
International Labour Office
Geneva, 1971
Excerpts from the Preface to the First Edition (1930)
In 1919 the International Labour Conference at Washington requested the International Labour Office “to draw up a list of the principal processes to be considered as unhealthy”. But it was impossible in practice to draw up such a list, at least in a complete or final form, on account of the number and complexity of the operations which in some aspects could be considered unhealthy, the continuous evolution of industrial technique which does away with causes of disease in one direction, while giving rise to fresh possibilities of disease in another, and the indefinite character of the conception of “unhealthiness” which varies at different times and in different countries.
These considerations led to the idea of substituting for the list of unhealthy processes requested by the Conference, a sort of encyclopaedia which would analyse from the triple point of view of the work to be done, the worker employed, and the environment in which he worked, the various tasks involved in human labour, the properties of the substances dealt with, the operations involved in handling and working up these substances, the possible sources and carriers of intoxication and disease, the statistical data on the effects as far as known, the symptoms, the diagnosis, the therapeutic and prophylactic treatment, and the protective legislation already in existence.
It was a difficult task, and one which was bound to be open to the reproach of being neither complete nor final. But how could it be otherwise? No one can hope to fix once for all something which is living, evolving, progressive. Although, as was mentioned above, the evolution of technical practice in industry may create new dangers for the worker every day, yet the progress of this same technique and of industrial hygiene may, on the following day, do away with certain existing dangers, which must, notwithstanding, be recorded and analysed in this work. One of the virtues of this work is just the fact that it is not final. It seizes one moment in social life and in the progress of industrial hygiene, but it requires to be kept constantly up to date precisely because it is a scientific as well as a practical work.
This is its dual nature, as it is that of every piece of research undertaken by the International Labour Office, the strict purpose of which is to make science the servant of practical action. This Encyclopaedia is not a work of pure propaganda; it never sacrifices scientific objectivity to the ideas which the authors naturally have at heart. On the other hand, it is not purely a treatise on medicine or hygiene; it claims no originality in the treatment of the various questions; it does not claim to be an exhaustive study; on each subject it merely gives a summary of the existing position of science, with figures taken from statistics for the sake of example and not in support of any argument. It has tried to keep a middle path between a purely scientific work intended for the expert, and a popular manual. It is meant to supply workers, employers, their organisations, and practising doctors with the information necessary to enable them to discover, combat, and prevent occupational diseases, the economic consequences of which are as harmful to production as their social consequences are to the world of labour…
…The International Labour Office, in collaborating with these scientists for some years, has obtained a clearer consciousness of the scope of its mission. The Preamble to Part Xlll of the Peace Treaty [of Versailles] included among the urgent tasks of the Office the protection of workers “against sickness, disease and injury arising out of their employment”. The signatory States, in agreeing to this statement of principle, seem to have accepted the dictum of Beaconsfield that the health of the people is the most important of all problems. The Office has put at the disposal of those concerned a statement up to the actual position of science and has conveyed to the legislator the elements of physiology and physio-pathology necessary to him for setting up a code of industrial health; by collecting and concentrating this information in one work, and thereby increasing its range and appeal, the Office is continuing the work of those who, since the inception of “large-scale” industry, have endeavoured to protect human life, openly or insidiously menaced by new technical processes…
In ancient societies, dangerous and disagreeable tasks were reserved for criminals. Fourier, for all his fertile imagination, dared not foresee that the progress of industrial technique would one day lead to the suppression of unhealthy or dangerous occupations: he reserved filthy or dangerous work for his “small gangs”. Nowadays the problem is entirely different: the conscience of modern society realises that occupational diseases should not be reserved for certain persons, but that they should be made to disappear. The origins and the causes are now known, and all that is wanted is will and organisation. There are plenty of other sufferings and plenty of other infirmities to which mortals are exposed. As Puccinotti has said: “Life must be preserved for labour, and labour must be made harmless to life”. …
Albert Thomas
Director-General
International Labour Office
Geneva, 1930
Preface to the Fourth Edition (1998)
It is a sobering thought that the prefaces to the preceding editions of this Encyclopaedia are still timely: occupational illnesses and injuries remain an unnecessary blight on the human landscape. Much progress has been made since the publication of the first edition of this work. Exposure to some extremely dangerous poisons, such as the deadly radium painted on watch faces to make them glow in the dark, or the crippling and disfiguring phosphorus that had been used as the combustible material in matches, have been completely eradicated. Governments have established regulations and have undertaken many noteworthy actions to guard against the entirely preventable tragedies of occupational death, disease and disability. The level of knowledge among all our constituents is vastly improved. The ILO itself has contributed to this progress with Conventions, Recommendations and Codes of Practice governing many workplace conditions, as well as with its many technical cooperation programmes and specialized publications. Equally important, the capability of medicine, science and engineering to solve problems, and to provide better means of recognition and of hazard prevention has dramatically increased. Social systems are in place for worker protection and for worker participation in decisions relating to their work environments.
Yet, despite tireless efforts to promote better working conditions, the ILO and others must still combat many forms of exploitation of working people, such as child labour, indentured servitude and clandestine work, with their inevitably hazardous and oppressive conditions. Tens of millions of others labour while exposed to chemical, physical and social hazards which drain their health and their spirits. Solutions to such problems of occupational injury and illness will not arise simply from issuing publications or obtaining advice from experts. The health and well-being of workers is an issue of social justice and the ILO stands above all for the ideal of promoting social justice in the world. Ultimately solutions are social as much as technical. It is not merely the lack of know-how that perpetuates the toll of death, disability and disease in the working population, it is the lack of the social means and the social will to do something about it. The societal basis for occupational safety and health is perhaps the most important reason for the ILO to publish the Encyclopaedia of Occupational Health and Safety. With its publication we present a panorama of the problems, and their technical and social solutions: we define the fields for action.
The Encyclopaedia’s popularity and influence have been enormous. Tens of thousands of copies have been in use throughout the greater part of this century. Earlier editions have been published in Spanish, French, Russian, Chinese, Hungarian and Serbo-Croatian. The Encyclopaedia is the most widely distributed publication of the ILO. The process of compiling the fourth edition has continued the tradition of reaching out to world experts, which the Office sees as essential to its continued growth and relevance. We have assembled a network of more than 2,000 specialists from over 65 countries who have extensively contributed their time, energy and expertise to the writing and reviewing of articles and the editing of chapters. Most major health and safety institutions, governmental, academic or private, from around the world, are contributing in one form or another to this immense undertaking, an act of generosity and support for which we are grateful. The hope and the intent is that this Encyclopaedia provide technical, theoretical and ethical underpinnings to the ongoing work of achieving the goal of social justice in a global economy.
Michel Hansenne
Director-General
International Labour Office
Geneva, 1998
Foreword to the Encyclopedia, Fourth Edition (1998)
No one profession holds the key to understanding and solving the problems of work-related hazards. The field of occupational safety and health is truly multidisciplinary.
The intent of the fourth edition of the International Labour Organization’s Encyclopaedia of Occupational Health and Safety is to present a panoramic view of the basic available information in the field. But what comprises the “field”? Let us consider an example.
How might a group of various experts approach health and safety issues that relate to long-term use of visual display units (VDUs), the now familiar computer screens? A physician, charged with the occupational health service for a group of VDU workers, might tend to schedule medical exams to look for signs and symptoms of physical illness. Eye examinations would be one logical component. VDU-specific eyeglasses might be one solution. The epidemiologist, on the other hand, would confront the problem statistically. She would want to gather data on the results of the examinations of a group of VDU workers and compare them to workers who did not engage in VDU work, in order to determine the relative risks of the job for various health outcomes. The occupational hygienist would focus on the environment and might measure the lighting levels or test for particular contaminants. The ergonomist could orient towards the design of the equipment itself and study the physical interactions between the machine and the worker. The psychologist would look towards organizational factors—the social structure in the workplace—concentrating on issues such as job demands, job control and electronic performance monitoring, while the basic researcher might be more interested in experiments on the biological mechanisms that could ultimately explain any effects observed. The educator might develop training materials for helping workers function optimally on the job. The trade unionist and the employer may be interested in the application of principles of occupational health to conditions of employment and contractual agreements. Finally, the lawyer and the government regulator might be considering still other pragmatic issues, such as compensation for injuries, or “proving” possible health effects for establishing workplace regulation.
Each of these approaches is a valid and important aspect of occupational health and safety and each complements the other. No one profession holds the key to understanding and solving the problems of work-related hazards. The “field” of occupational safety and health is truly multidisciplinary.
Multidisciplinarity is challenging to the encyclopaedia editor. Facts may be neutral, but the way in which they are comprehended, interpreted and applied is culture bound, where by culture we mean the integrated pattern of human belief, behaviour and knowledge. In technical fields, culture will be a reflection of the basic discipline of training, as well as of personal philosophy. Not only will what you are—a lawyer, hygienist, trade unionist or physician—guide your thinking, but who you are—whether you are a representative of government, labour or management, for example—will inevitably influence your perceptions of the universe, its demands, its effects. Where you developed your expertise will also matter, since the philosophical and practical underpinnings of science and medicine, too, are culture bound and hence not the same throughout the world. At the very least you will be bound by the realities of available resources and this will inevitably alter your perspective. A seasoned professional attempts to minimize such biases, but one look at the real world shows how pervasive they are.
The problems of multidisciplinarity have not been solved in this Encyclopaedia, and probably will never completely be solved anywhere, but a pragmatic approach has been developed here. The Encyclopaedia has been developed in parts, sections and chapters which correspond to the various disciplines that comprise occupational health and safety. It has been designed to provide the general user with background information on the major disciplines of occupational health and safety in an understandable manner that will, at the same time, be considered rigorous by professionals in those fields. We have attempted to provide sufficient depth and breadth of coverage to permit workers in one area to appreciate and be stimulated by the ideas and approaches of other disciplines in occupational health and safety. We have endeavoured to make the descriptions of hazard recognition and control as straightforward as possible, with a minimum of jargon. The overall structures is:
Volume I
- The Body and Health Care take a medical approach and provides information on disease, its detection and prevention, and occupational health services and health promotional activities.
- Prevention, Management and Policy covers legal, ethical and social policy aspects of the field, as well as educational and informational and institutional resources.
- Tools and Approaches provides insight into the disciplines which comprise the study and application of occupational health and safety: engineering, ergonomics, occupational hygiene, epidemiology and statistics and laboratory research.
Volume II
- Hazards spans the range of chemical, physical and social hazards, accidents and safety management methods that may be encountered around the world. The nature of the hazard is detailed, together with technical information on its recognition, evaluation and control.
Volume III
- Chemicals presents basic data on use in industry and chemical, physical and toxicological properties information on more than 2,000 chemicals categorized by chemical family
- Industries and Occupations takes a “how things work” and “how to control hazards” approach to all the major industries. The hazards associated with a variety of occupations which span several industrial sectors are presented in a hazard card format.
Volume IV
- Indexes and Guides provides a how-to-use the Encyclopaedia guide; lists of tables and figures and collaborating institutions; and indexes of chemical substances, cross-references, subjects and authors cited.
Several thousand internationally recognized experts have been called upon to be writers and reviewers of this Encyclopaedia. They have been drawn from virtually all the major institutions around the world and we have attempted to assure that international perspectives are represented because such perspectives are not the same everywhere and it is the responsibility of the International Labour Organization to promote the free interchange of different conceptualizations. Further, problems and solutions vary around the globe and it makes good sense to seek out the expertise of those who personally know and understand the issues.
In this Encyclopaedia we have planted an occupational health and safety garden with facts, figures and interpretations to assist in the blossoming of safe and healthful working conditions around the world. The seeds have been sown in more or less orderly disciplinary groupings, so that the reader, once becoming familiar with the garden paths, can create any bouquet of facts that she or he wants. The indexes in the fourth volume provide a more detailed map, including a valuable index guide to the essential cross-referencing of information. The experienced reader will soon learn what is planted where and will be able to make his way along a favoured route.
The electronic version of this work has additional navigational aids, with its built-in hyperlinks and specialized search facilities. By judicious creation of searches, the astute CD-ROM user could even plant an entirely new and rearranged garden of his or her own.
The Encyclopaedia is not, of course, one hundred per cent complete. Isolated facts are missing. Some notions may be outdated even before we go to press. This is the sign of an active and creative field of human endeavour. This Encyclopaedia could not have been written without the countless hours of work of individuals from around the world. The reader will find the names of our collaborators in the lists of authors and editors, and in the Directory of Experts which is published in the electronic version of this work. Most of these individuals came to the effort with the full support and assistance of the institutions with which they were affiliated. Volume IV contains a non-exhaustive list of these collaborating institutions, as well.
We are grateful for the extensive support in this worldwide effort. Of course, the individual viewpoints presented are ultimately those of the authors and not of their institutions or the International Labour Office. We hope that the compendium of ideas presented here will hasten the day in which occupational death and disease is a rarity in the world.
Jeanne Mager Stellman
Editor-in-Chief
Geneva, 1998
" DISCLAIMER: The ILO does not take responsibility for content presented on this web portal that is presented in any language other than English, which is the language used for the initial production and peer-review of original content. Certain statistics have not been updated since the production of the 4th edition of the Encyclopaedia (1998)."