1. Industrial Hygiene
What’s an Industrial Hygienist?
UCM
Safety 5120

2. A professional qualified by education, training and experience to anticipate, recognize, evaluate and develop controls for occupational health hazards and environmental issues.
Industrial Hygienist
UCM
Safety 5120

3. Industrial Hygienist
There has been an awareness of industrial hygiene since antiquity.
The environment and its relation to worker health was recognized as early as the fourth century BC
UCM
Safety 5120

4. Not a Master…
UCM
Safety 5120

5. Industrial Hygienist
In the first century AD, Pliny the Elder, a Roman scholar, perceived health risks to those working with zinc and sulfur. He devised a face mask made from an animal bladder to protect workers from exposure to dust and lead fumes.
UCM
Safety 5120

6. Law Codes
Hammurabi
UCM
Safety 5120

7. LAW
If any harm follows, then you shall give life for life, 24eye for eye, tooth for tooth, hand for hand, foot for foot, 25burn for burn, wound for wound, stripe for stripe. Ex 21:23-25
Anyone who kills an animal shall make restitution for it, life for life. 19Anyone who maims another shall suffer the same injury in return: 20fracture for fracture, eye for eye, tooth for tooth; the injury inflicted is the injury to be suffered. Lev 24: 18-24
lex talionis
UCM
Safety 5120

8. History…
In the second century AD, the Greek physician, Galen, accurately described the pathology of lead poisoning and also recognized the hazardous exposures of copper miners to acid mists.
UCM
Safety 5120

9. Galen’s Thoughts
UCM
Safety 5120

10. This illustration accompanying Galen’s work shows the surgical procedures described by Galen—on the head, eye, leg, mouth, bladder and genitals— still practiced in the 16th century.
UCM
Safety 5120

11. Galen states that animal bodies are an unequal �mixture� of hot, cold, wet, and dry�an elaboration of the Hippocratic Pythagorean concept that the cosmos consists of four geometrically interacting primary life elements:  earth, air, water, and fire. (509)   These mixtures can become "ill balanced" and these imbalances can be vectored in various configurations.  Mixtures also define and measure objects, qualities, and other subjects, such as climate for example. 
UCM
Safety 5120

12. Wrote a pamphlet on occupational Diseases with the mining industry
Elrich Ellenbog
Wrote a pamphlet on occupational
Diseases with the mining industry
UCM
Safety 5120

13. Magna Carta Year Year: 1215 Lead to Bill of Rights
Some other clauses still used today!
Edward Coke interpreted Magna Carta to apply not only to the protection of nobles but to all subjects of the crown equally. He famously asserted: "Magna Carta is such a fellow, that he will have no sovereign."
UCM
Safety 5120

14. Magna Carta Year
Anti-corruption and fair trade (also in 1225 Charter)
Clauses 28 to 32 say that no royal officer may take any commodity such as corn, wood or transport without payment or consent or force a knight to pay for something the knight could do himself and that the king must return any lands confiscated from a felon within a year and a day.
Clause 25 sets out a list of standard measures and Clauses 41 and 42 guarantee the safety and right of entry and exit of foreign merchants.
Clause 45 says that the king should only appoint royal officers where they are suitable for the post.
Clause 46 provides for the guardianship of monasteries.
UCM
Safety 5120

15. Magna Carta Year 1215
Clause 24 states that crown officials (such as sheriffs) may not try a crime in place of a judge. Clause 34 forbids repossession without a writ precipe. Clauses 36 to 38 state that writs for loss of life or limb are to be free, that someone may use reasonable force to secure their own land and that no one can be tried on their own testimony alone.
Edward Coke
UCM
Safety 5120

16. History…
In the Middle Ages, guilds worked at assisting sick workers and their families. In 1556 the German scholar, Agricola, advanced the science of industrial hygiene even further when, in his book De Re Metallica, he described the diseases of miners and prescribed preventive measures. The book included suggestions for mine ventilation and worker protection, discussed mining accidents, and described diseases associated with mining occupations such as silicosis.
UCM
Safety 5120

17. Agricola suggested ventilation!
UCM
Safety 5120

18. Diseases of the Mines!
UCM
Safety 5120

19. Ventilation
Horse Powered!
UCM
Safety 5120

20. History Mysticisms vrs Reality
Late 1600’s it was believed that demons lived in the mines
Could be controlled with fasting and prayer!
UCM
Safety 5120

21. History…
Industrial hygiene gained further respectability in 1700 when Bernardo Ramazzini, known as the "father of industrial medicine," published in Italy the first comprehensive book on industrial medicine, De Morbis Artificum Diatriba (The Diseases of Workmen).
Same time frame as the Inquisition of Galileo (His works were banned at this time!)
UCM
Safety 5120

22. Ramazzini…
The book contained accurate descriptions of the occupational diseases of most of the workers of his time.
Ramazzini greatly affected the future of industrial hygiene because he asserted that occupational diseases should be studied in the work environment rather than in hospital wards.
The First one to ask: What is your trade?
UCM
Safety 5120

23. History…
Industrial hygiene received another major boost in 1743 when Ulrich Ellenborg published a pamphlet on occupational diseases and injuries among gold miners. Ellenborg also wrote about the toxicity of carbon monoxide, mercury, lead, and nitric acid.
UCM
Safety 5120

24. Colic related to lead in cider Industry.
Sir George Baker
Colic related to lead in cider
Industry.
UCM
Safety 5120

25. History…
In England in the 18th century, Percival Pott, as a result of his findings on the insidious effects of soot on chimney sweepers, was a major force in getting the British Parliament to pass the Chimney-Sweepers Act of The passage of the English Factory Acts beginning in 1833 marked the first effective legislative acts in the field of industrial safety. The Acts, however, were intended to provide compensation for accidents rather than to control their causes. Later, various other European nations developed workers' compensation acts, which stimulated the adoption of increased factory safety precautions and the establishment of medical services within industrial plants.
UCM
Safety 5120

26. History…
In the early 20th century in the U. S., Dr. Alice Hamilton, led efforts to improve industrial hygiene. She observed industrial conditions first hand and startled mine owners, factory managers, and state officials with evidence that there was a correlation between worker illness and their exposure to toxins. She also presented definitive proposals for eliminating unhealthful working conditions. Reference: Exploring the Dangerous Trades
UCM
Safety 5120

27. Child Labor Law
UCM
Safety 5120

28. Laws that Changed
In 1916 Congress made its first effort to control child labour by passing the Keating-Owen Act. The legislation forbade the transportation among states of products of factories, shops or canneries employing children under 14 years of age, of mines employing children under 16 years of age, and the products of any of these employing children under 16 who worked at night or more than eight hours a day. In 1918 the Supreme Court ruled that the Keating-Owen Act was unconstitutional.
UCM
Safety 5120

30. History…
At about the same time, U.S. federal and state agencies began investigating health conditions in industry. In 1908, the public's awareness of occupationally related diseases stimulated the passage of compensation acts for certain civil employees. States passed the first workers' compensation laws in And in 1913, the New York Department of Labor and the Ohio Department of Health established the first state industrial hygiene programs. All states enacted such legislation by In most states, there is some compensation coverage for workers contracting occupational diseases.
UCM
Safety 5120

31. History 1966 Safety and Health - A manager’s prerogative UCM

32. The Time Line WW II Korea Vietnam OSHA Crash Agriculture WW I
1935
1941
1950
1970
1930
Walsh Halley Act
WW II
Korea
Vietnam
OSHA
Crash
Manufacturing
Agriculture
WW I
Iron/Steel
Standardized systems
11 Million Workers
UCM
Safety 5120

33. Vulcanization Process
Continuous Mining Machine
New
Vulcanization Process
Asbestosis increases
Black lung increases
Uranium
New Petrochemical
Increase
respiratory disease
Mine Explosion
WV, 1968
1940
1970
1960
UCM
Safety 5120

34. Time Line 1976 1941 1 Billion lbs/year 162.9 Billion lbs/year UCM
Safety 5120

35. Time Line Synthetic Compounds Produced
70,000
58,000
17,000
1958
1971
1980’s
UCM
Safety 5120

37. Values…
$208,000
UCM
Safety 5120

38. Federal Regulations December 9, 1970 OSHA
Each employer shall furnish to each employee a place of employment which is free of recognized hazards that are causing or are likely to cause death or serious harm to their employees
Each employer shall comply with the occupational safety and heath standards under the Act.
UCM
Safety 5120

40. Break!
UCM
Safety 5120

41. How do IH's Recognize and Control Hazards
How do IH's Recognize and Control Hazards? Industrial hygienists recognize that engineering, work practice, and administrative controls are the primary means of reducing employee exposure to occupational hazards. Engineering controls minimize employee exposure by either reducing or removing the hazard at the source or isolating the worker from the hazards. Engineering controls include eliminating toxic chemicals. Work practice controls alter the manner in which a task is performed.
(1) following proper procedures that minimize exposures
(2) inspecting and maintaining process and control equipment on a regular basis;
(3) implementing good house-keeping procedures;
(4) providing good supervision and
(5) mandating that eating, drinking, smoking, chewing tobacco or gum, and applying cosmetics in regulated areas be prohibited. Administrative controls include controlling employees' exposure by scheduling production and workers' tasks, or both, in ways that minimize exposure levels. For example, the employer might schedule operations with the highest exposure potential during periods when the fewest employees are present.
UCM
Safety 5120

42. History…
The U.S. Congress has passed three landmark pieces of legislation relating to safeguarding workers' health:
(1) the Metal and Nonmetallic Mines Safety Act of 1966,
(2) the Federal Coal Mine Safety and Health Act of 1969, and
(3) the Occupational Safety and Health Act of 1970 (Act).
Today, nearly every employer is required to implement the elements of an industrial hygiene and safety, occupational health, or hazard communication program and to be responsive to the Occupational Safety and Health Administration (OSHA) and the Act and its regulations.
UCM
Safety 5120

43. Administrative controls include controlling employees' exposure by scheduling production and workers' tasks, or both, in ways that minimize exposure levels. For example, the employer might schedule operations with the highest exposure potential during periods when the fewest employees are present.
UCM
Safety 5120

44. Activity… Now you’re the Industrial Hygienist…. Scenario
What is the hazard?
What is the control?
UCM
Safety 5120

45. What is oversight?
Discussion
UCM
Safety 5120

46. UCM
Safety 5120

47. Industrial Hygiene
What is it?
UCM
Safety 5120

48. Definition
“The science and art devoted to the anticipation, recognition, evaluation and control of factors and stresses (arising in or from the workplaces), which may cause sickness, impaired health and well being or significant discomfort, and inefficiency among workers or among the citizens of a community” - ACGIH
UCM
Safety 5120

49. The science devoted to recognition (or identification), evaluation and control of hazards arising in or from the workplace, which could impair the health and well being of people at work, while also taking into account the possible impacts on the general environment - BIOH
“Detection and Assessment of Occupational Hazards”
UCM
Safety 5120

50. Industrial Hygienist
The person having a college or university degree or degrees in engineering, chemistry, physics, health physics, nursing, medicine, or related field, by virtue of special studies, training, experience, and/or certification has acquired competence in IH.
UCM
Safety 5120

51. Scope of OH Anticipation Recognition Evaluation Control UCM
Safety 5120

52. UCM
Safety 5120

53. Anticipation Design of process, equipment
Future legislation/regulations
Research
UCM
Safety 5120

54. Recognition Raw materials, by-product, products Process and operations
Records of accidents and diseases
Walkaround – senses, talk to workers, etc
Grab samples
UCM
Safety 5120

55. Life Cycle System Accident
HARM!
System becomes unbalanced
Loss Control starts
Detection
System in Balance
Normal State
Initiating event(s)
Point of no return
Early
Start of
Recovery
Recovery
UCM
Safety 5120

56. Evaluation Purpose Sampling technique and strategy
Instrumentation (Real time & non Rt)
Standard, regulations etc
UCM
Safety 5120

57. Control Principle of control measures Hierarchy of control measures
ALARA
UCM
Safety 5120

59. Benefits of IH Program Improve health and hygiene Reduce compensation
Improve job satisfaction
Reduce absenteeism
Improve productivity
Improve workers’ attitude towards management
UCM
Safety 5120

60. Objectives
To create awareness among employers and workers on the importance of OH practices in industry to preserve and protect the health of workers from being affected by hazards in the working environment.
To investigate the effect of specific hazard on the health of workers so that the short and long term measures can be taken to control the hazard
UCM
Safety 5120

61. Activities Occupational Hygiene Inspection
Monitoring of occupational hazards
Biological monitoring
Enforcement
Investigation of complaints / accidents
Training
UCM
Safety 5120

62. Industrial Hygiene Monitoring
Monitoring of occupational hazards
Chemical
Biological
Physical
Ergonomic/mechanical
Psychosocial
UCM
Safety 5120

63. Biological Monitoring
Blood – Pb, Hg, Cd etc
Lung Function Test
HCP
Textile workers
mill workers
Timber processing workers
Audiometric testing
UCM
Safety 5120

64. Environmental Factors
Chemical Hazards
Physical Hazards
radiation, pressure
noise, vibration, temperature
Ergonomic Hazards
Biological Hazards
UCM
Safety 5120

65. Chemical Hazards The majority of OHS are chemical
MSDS (required by OSHA)
The right to know act
Proper labeling
Hazards when machining / melting etc.
How exposure effects the body
UCM
Safety 5120

66. Solvents Very commonly used How do solvents enter the body?
Effect from physical contact
Acute effects versus chronic effects
Air displacement issues
Flammability and flash point
UCM
Safety 5120

67. Toxicity Toxicity is not synonymous with hazard.
Toxicity is the ability of a material to do harm when it reaches a certain concentration.
Hazard is the probability that this contamination will occur assessing hazard is covered in chapter 6
UCM
Safety 5120

68. Physical Hazards Noise Risk Criteria Permissible levels
Psychological Effects
Interference with communication
Physiological effects
Risk Criteria
Permissible levels
(85 dBA requires a hearing protection plan)
UCM
Safety 5120

69. Temperature Heat (core temp range is +3 / -2 degrees F)
Heat stress (heat stroke / exhaustion)
measurement and heat index
Radiant heat (IR radiation)
Heat that is absorbed on impact
Heat loss through contact and convection
Heat stress indicies
Cold Stress
UCM
Safety 5120

70. Ionizing Radiation What is ionizing radiation?
How does it effect the body
What are the sources of ionizing radiation?
Internal versus external hazards
Measuring radiation
UCM
Safety 5120

71. Non-Ionizing Radiation
Definition
Low frequency (microwaves, radio waves)
Infrared (thermal radiation / blackbody)
Visible light
Well lit but not over lit
60 cycle flicker
Effects on the eyes and lasers energy output
UCM
Safety 5120

72. Extremes of pressure Effects on gas absorption in the blood
Effects on thermal coefficient of the atmosphere
Effects on partial pressure of atmosphere components
Teeth / ears / eyes / bowels etc.
Effects of low pressure
UCM
Safety 5120

73. Ergonomic Hazards Repetitive motion disorders
Injury rate (guards and shields)
Body stress
back
neck
eyes
Workplace design
UCM
Safety 5120

74. Biological Hazards Bacterial Viral Engineered Bugs and snakes etc.
Allergens
The water fountain
UCM
Safety 5120

75. Routs of Entry Inhalation (area of lungs) Absorption Ingestion UCM
Safety 5120

76. Airborne Contaminates
Dusts ( um)
smaller than 5um tend to be the problem
Fumes (less than 1um)
made from condensed volatilized solids
Smoke (<0.1 um)
Aerosols
UCM
Safety 5120

77. Airborne Contaminates
Mists
Suspended liquid droplets
Gases
Vapors
volatile forms of substances which are normally in a solid or liquid form at this temperature
UCM
Safety 5120

78. Respiratory Hazards Oxygen deficient atmospheres
160mmHg O2 normal
Where can oxygen deficient atmospheres occur?
Confined entry
NASA shuttle
UCM
Safety 5120

79. Hazards of Airborne Contaminates
Threshold Limit Values (TLVs)
Reviewed and updated annually
TLV-TWA (Time Weighted Average)
TLV-STEL (Short Term Exposure Limit)
TLV-C (Ceiling)
UCM
Safety 5120

81. Break!
UCM
Safety 5120