(EBook PDF) Monitoring for Health Hazards at Work 5th Edition by John Cherrie, Sean Semple, Marie Coggins 1119614996 9781119614999 full chapters

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ISBN-10 :  1119614996 

ISBN-13 :  9781119614999

Author: John Cherrie, Sean Semple, Marie Coggins

Monitoring for Health Hazards at Work remains the seminal textbook on measuring and controlling the risk of workplace exposure to physical, chemical, and biological hazards. Designed for students studying occupational hygiene and exposure science, this comprehensive and accessible volume provides step-by-step guidance on identifying hazards and quantifying their risks in various workplace environments. Complete with checklists and practical examples, the authors present clear explanations of all types of hazards that can arise in the workplace, including dust, particles, fibrous aerosols, gases, vapours, and bioaerosols. 

Monitoring for Health Hazards at Work 5th Table of contents:

PART 1: Introduction
CHAPTER 1: Occupational Hygiene and Risk Assessment
1.1 INTRODUCTION
1.2 HAZARD AND RISK
1.3 RISK ASSESSMENT
1.4 THE STAGES OF A RISK ASSESSMENT
1.5 WHO SHOULD CARRY OUT RISK ASSESSMENT?
REFERENCES AND FURTHER READING
CHAPTER 2: Identifying Hazards
2.1 INTRODUCTION
2.2 IDENTIFYING HAZARDS
2.3 EXAMPLE OF HAZARD IDENTIFICATION
2.4 CONCLUSIONS ARISING FROM A HAZARD ASSESSMENT
REFERENCES AND FURTHER READING
CHAPTER 3: Exposure, Exposure Routes and Exposure Pathways
3.1 INTRODUCTION
3.2 EXPOSURE ROUTES
3.3 EXPOSURE PATHWAYS
3.4 MEASURING EXPOSURE
3.5 BIOLOGICAL MONITORING
3.6 EXPOSURE ASSESSMENT: WHAT THE LEGISLATION REQUIRES
3.7 CONCLUSIONS
REFERENCES AND FURTHER READING
CHAPTER 4: The Exposure Context
4.1 CONTEXT FOR MEASUREMENT
4.2 SOURCES OF HAZARDOUS SUBSTANCES
4.3 DISPERSION THROUGH THE WORKROOM
4.4 RECEPTOR
4.5 JOBS AND TASKS
4.6 CONCLUSION
REFERENCES AND FURTHER READING
CHAPTER 5: Modelling Exposure
5.1 INTRODUCTION
5.2 WORST‐CASE MODELS
5.3 CONTROL BANDING AND COSHH ESSENTIALS
5.4 SCREENING TOOLS USED FOR REGULATION OF CHEMICALS IN EUROPE
5.5 THE ADVANCED REACH TOOL
5.6 CONCLUSIONS AND PROSPECTS
REFERENCES AND FURTHER READING
CHAPTER 6: Why Measure?
6.1 INTRODUCTION
6.2 REASONS FOR UNDERTAKING MONITORING
REFERENCES AND FURTHER READING
CHAPTER 7: How to Carry Out a Survey
7.1 INTRODUCTION
7.2 PLANNING THE SURVEY
7.3 WORKPLACE MONITORING
7.4 MONITORING STRATEGIES
7.5 QUALITY ASSURANCE AND QUALITY CONTROL
REFERENCES AND FURTHER READING
CHAPTER 8: Analysis of Measurement Results
8.1 INTRODUCTION
8.2 DEALING WITH VARIABILITY IN MEASUREMENT RESULTS
8.3 SUMMARY STATISTICS AND DATA PRESENTATION
8.4 TESTING COMPLIANCE
8.5 OTHER SOFTWARE TOOLS TO AID DATA ANALYSIS
REFERENCES AND FURTHER READING
CHAPTER 9: Introduction to Control
9.1 INTRODUCTION
9.2 SPECIFIC CONTROL MEASURES
9.3 THE EFFECTIVENESS OF CONTROL MEASURES
REFERENCES AND FURTHER READING
CHAPTER 10: The Importance of Good Records and How to Write a Survey Report
10.1 RECORD, EDUCATE AND INFLUENCE
10.2 MEASUREMENT RECORDS
10.3 SURVEY REPORTS
REFERENCES AND FURTHER READING
CHAPTER 11: Risk Assessment
11.1 INTRODUCTION
11.2 IDENTIFY ALL HAZARDOUS SUBSTANCES OR AGENTS
11.3 IDENTIFY THE LIKELY LEVELS OF EXPOSURE
11.4 IDENTIFY ALL PERSONS LIKELY TO BE EXPOSED
11.5 ASSESS WHETHER THE EXPOSURES ARE LIKELY TO CAUSE HARM
11.6 CONSIDER ELIMINATION OR SUBSTITUTION
11.7 DEFINE ADDITIONAL CONTROL MEASURES NECESSARY TO REDUCE THE HARM TO ACCEPTABLE LEVELS
REFERENCES AND FURTHER READING
CHAPTER 12: Risk Communication
12.1 INTRODUCTION
12.2 RISK PERCEPTION
12.3 TRUST
12.4 PRINCIPLES OF GOOD RISK COMMUNICATION
12.5 THE PRESENTATION
12.6 COMMUNICATING RISK
12.7 QUANTITATIVE RISK ASSESSMENT TO AID RISK COMMUNICATION
REFERENCES AND FURTHER READING
PART 2: Hazardous Substances
CHAPTER 13: An Introduction to Hazardous Substances
13.1 INTRODUCTION
13.2 THE COMPLEXITIES OF MODERN WORKPLACES
13.3 THE TOP FIVE HAZARDOUS CARCINOGENS
13.4 SUBSTANCES OF CONCERN FOR THE RESPIRATORY SYSTEM
13.5 PESTICIDES, PHARMACEUTICALS AND OTHER BIOLOGICALLY ACTIVE SUBSTANCES
13.6 ORGANIC CHEMICALS
13.7 SUMMARY
REFERENCES AND FURTHER READING
CHAPTER 14: Dust, Particles and Fibrous Aerosols
14.1 INTRODUCTION
14.2 AIRBORNE PARTICULATE MATTER
14.3 FIBRES
14.4 MEASUREMENT OF AIRBORNE PARTICULATE AND FIBRE CONCENTRATIONS
14.5 MEASUREMENT OF FLOW RATE
14.6 PUMPS
14.7 DIRECT‐READING AEROSOL MONITORS
14.8 FLOW RATE MEASUREMENT USING A ROTAMETER OR ELECTRONIC FLOW CALIBRATOR BY USING THE SOAP BUBBLE METHOD
14.9 THE MEASUREMENT OF INHALABLE AIRBORNE DUST
14.10 THE MEASUREMENT OF AIRBORNE RESPIRABLE DUST BY USING A CYCLONE SAMPLER
14.11 MEASUREMENT OF NANOPARTICLES
14.12 THE SAMPLING AND COUNTING OF AIRBORNE ASBESTOS FIBRES
14.13 THE CHOICE OF FILTER AND FILTER HOLDER TO SUIT A SPECIFIC DUST, FUME OR MIST
14.14 TO TRACE THE BEHAVIOUR OF A DUST CLOUD BY USING A TYNDALL BEAM
REFERENCES AND FURTHER READING
CHAPTER 15: Gases and Vapours
15.1 INTRODUCTION
15.2 COLLECTION DEVICES
15.3 CONTAINERS
15.4 DIRECT‐READING INSTRUMENTS
15.5 TO MEASURE PERSONAL EXPOSURE TO SOLVENTVAPOURS USING AN ADSORBENT TUBE
REFERENCES AND FURTHER READING
CHAPTER 16: Bioaerosols
16.1 INTRODUCTION
16.2 CLASSIFICATION OF MICROORGANISMS
16.3 VIRUSES
16.4 BACTERIA
16.5 MOULDS AND YEASTS
16.6 ALLERGENS
16.7 PRINCIPLES OF CONTAINMENT
16.8 MONITORING BIOAEROSOLS
16.9 MEASUREMENT OF ENDOTOXINS AND ALLERGENS
16.10 INTERPRETATION OF SAMPLE RESULTS
REFERENCES AND FURTHER READING
CHAPTER 17: Dermal and Inadvertent Ingestion Exposure
17.1 INTRODUCTION
17.2 OCCUPATIONS WHERE DERMAL EXPOSURE IS IMPORTANT
17.3 LOCAL AND SYSTEMIC EFFECTS
17.4 HOW DO WE KNOW IF DERMAL EXPOSURE IS AN ISSUE?
17.5 WHAT DO WE MEASURE?
17.6 METHODS FOR DERMAL EXPOSURE MEASUREMENT
17.7 SAMPLING STRATEGY
17.8 LIQUIDS AND SOLIDS
17.9 BIOMONITORING AND MODELLING OF DERMAL EXPOSURE
17.10 FROM EXPOSURE TO UPTAKE
17.11 CONTROLLING DERMAL EXPOSURE
17.12 INADVERTENT INGESTION EXPOSURE
REFERENCES AND FURTHER READING
CHAPTER 18: Human Biomonitoring
18.1 INTRODUCTION
18.2 SELECTION OF A SUITABLE HBM METHOD
18.3 EXAMPLES OF HBM
18.4 STUDY PROTOCOLS
18.5 INTERPRETATION OF HBM DATA
REFERENCES AND FURTHER READING
PART 3: Physical Agents
CHAPTER 19: An Introduction to Physical Agents
19.1 INTRODUCTION
19.2 PHYSICAL AGENTS IN THE WORKPLACE
19.3 NOISE AND VIBRATION
19.4 THERMAL ENVIRONMENT
19.5 IONISING AND NON‐IONISING RADIATION
REFERENCES AND FURTHER READING
CHAPTER 20: Noise
20.1 INTRODUCTION
20.2 FREQUENCY
20.3 DURATION
20.4 OCCUPATIONAL EXPOSURE LIMITS
20.5 PRESSURE AND MAGNITUDE OF PRESSURE VARIATION
20.6 EQUIPMENT AVAILABLE
20.7 SOUND LEVEL METRES AND PERSONAL NOISE DOSIMETERS
20.8 PERSONAL NOISE DOSIMETERS
20.9 CALIBRATION
20.10 COLLECTING NOISE MEASUREMENTS
20.11 TO MEASURE WORKPLACE NOISE USING A PND
20.12 TO MEASURE THE SPECTRUM OF A CONTINUOUS NOISE BY OCTAVE BAND ANALYSIS
20.13 TO DETERMINE THE DEGREE OF NOISE EXPOSURE AND THE ACTIONS TO TAKE
REFERENCES AND FURTHER READING
CHAPTER 21: Vibration
21.1 INTRODUCTION
21.2 VIBRATION
21.3 OCCUPATIONAL EXPOSURE LIMITS
21.4 RISK ASSESSMENT
21.5 MEASUREMENTS AND MEASUREMENT EQUIPMENT
21.6 HAND–ARM VIBRATION MEASUREMENT CALCULATIONS
21.7 CONTROL OF VIBRATION
REFERENCES AND FURTHER READING
CHAPTER 22: Heat and Cold
22.1 INTRODUCTION
22.2 HEAT STRESS
22.3 MEASUREMENT EQUIPMENT
22.4 PERSONAL PHYSIOLOGICAL MONITORING
22.5 MEASUREMENT OF THE THERMAL ENVIRONMENT
22.6 PREDICTED HEAT STRAIN INDEX
22.7 RISK ASSESSMENT STRATEGY
22.8 CONTROL OF HOT ENVIRONMENTS
22.9 THERMAL COMFORT
22.10 COLD ENVIRONMENTS
22.11 TO CALCULATE THE WIND CHILL FACTOR
REFERENCES AND FURTHER READING
CHAPTER 23: Lighting
23.1 INTRODUCTION
23.2 LIGHTING STANDARDS
23.3 EQUIPMENT AVAILABLE
23.4 CALIBRATION
23.5 TO MEASURE LIGHTING
23.6 CONTROL
REFERENCES AND FURTHER READING
CHAPTER 24: Ionising Radiation
24.1 INTRODUCTION
24.2 IONISING RADIATION
24.3 BACKGROUND RADIATION
24.4 BASIC CONCEPTS AND QUANTITIES
24.5 TYPES OF RADIATION
24.6 ENERGY
24.7 ACTIVITY
24.8 RADIATION DOSE UNITS
24.9 DOSE LIMITS
24.10 DERIVED LIMITS
24.11 PROCEDURES TO MINIMISE OCCUPATIONAL DOSE
24.12 PERSONAL DOSIMETRY AND MEDICAL SURVEILLANCE
REFERENCES AND FURTHER READING
CHAPTER 25: Non‐Ionising Radiation
25.1 INTRODUCTION
25.2 ULTRAVIOLET RADIATION
25.3 VISIBLE AND INFRARED RADIATION
25.4 BLUE LIGHT
25.5 MICROWAVES, RADIOWAVES AND LOW‐FREQUENCY ELECTRIC AND MAGNETIC FIELDS
25.6 LASERS
REFERENCES AND FURTHER READING
Specifically:
PART 4: Control of Hazards
CHAPTER 26: Assessing the Effectiveness of Exposure Controls
26.1 INTRODUCTION
26.2 THE EFFECTIVENESS OF CONTROL MEASURES
26.3 MEASURING EXPOSURE TO ASSESS THE EFFECTIVENESS OF CONTROLS
REFERENCES AND FURTHER READING
CHAPTER 27: Assessing Local Ventilation Control Systems
27.1 INTRODUCTION
27.2 AIR PRESSURE
27.3 MEASUREMENT EQUIPMENT
27.4 VENTILATION MEASUREMENT RECORDS
27.5 MEASUREMENT OF AIR FLOW IN DUCTS
27.6 MEASUREMENT OF PRESSURE IN VENTILATION SYSTEMS
27.7 TO MEASURE THE FACE VELOCITY ON A BOOTH, HOOD OR FUME CUPBOARD
REFERENCES AND FURTHER READING
CHAPTER 28: Personal Protective Equipment
28.1 INTRODUCTION
28.2 COMPONENTS OF AN EFFECTIVE PPE PROGRAMME
REFERENCES AND FURTHER READING
PART 5: The Future
CHAPTER 29: Monitoring for Hazardsat Work in the Future
29.1 WHAT THE FUTURE HOLDS FOR MONITORINGHAZARDS AT WORK
REFERENCES AND FURTHER READING

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