This document is a presentation on electrical hazards in general industry workplaces. It covers major electrical hazards like arc flash, shocks and burns. It defines key electrical terms and describes different types of electrical hazards such as contact with overhead power lines, energized sources, damaged wiring, defective equipment and improper repairs or use of extension cords. Case studies of electrical accidents and statistics on electrocutions from the Bureau of Labor Statistics are also presented. The goal is to help workers identify electrical hazards and understand requirements to protect themselves.
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MOB. +92-300-2893683 MBA in progress,NEBOSH IGC, IOSH, HSRLI, NBCS,GI,FST,FOHSW,ISO 9001, 14001,
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Regards, Mr. SYED HAIDER ABBAS
MOB. +92-300-2893683 MBA in progress,NEBOSH IGC, IOSH, HSRLI, NBCS,GI,FST,FOHSW,ISO 9001, 14001,
'BS OHSAS 18001, SAI 8000, Qualified .
The technicians at Caddell Electric (http://dallaselectricrepair.com/) provide the best and most comprehensive commercial electrical services in the DFW Metroplex.
How to work safely while working with electricity or electrical equipment. what are the safety rules to be followed? what is the safe system of work while working on electrical equipment. what kind of safety components to be used in place?
Complete Guide to Electrical Safety in the Workplacehudsonelectrical
The National Safety Council indicates that electrical hazards cause nearly one workplace fatality every day. Therefore electrical safety is especially important in the workplace. In this presentation here is a complete guide to workplace electrical safety. Visit: hudsonelectricalnb.com.au
this is basic electrical safety power point lecture that too useful for principal training non-electrical workersprevent lectrocution accidents in work place
Every year, more than 300 deaths and 4000 injuries are recorded as a result of workplace electrical hazard. Find out, all you need to know about workplace hazards and basic electrical safety practices.
Online Electrical Courses addresses electrical safety tips requirements that are necessary for safety and includes why electricity is dangerous and how it works.
Checkout OSHA's workplace electrical safety guidelines that both employee and employer should be aware of. Make your facility safer with Current Solutions PC's workplace electrical safety program that protects your facility and employees against all sorts of electrical hazards. Visit www.CurrentSolutionsPC.com now.
How to work safely while working with electricity or electrical equipment. what are the safety rules to be followed? what is the safe system of work while working on electrical equipment. what kind of safety components to be used in place?
Complete Guide to Electrical Safety in the Workplacehudsonelectrical
The National Safety Council indicates that electrical hazards cause nearly one workplace fatality every day. Therefore electrical safety is especially important in the workplace. In this presentation here is a complete guide to workplace electrical safety. Visit: hudsonelectricalnb.com.au
this is basic electrical safety power point lecture that too useful for principal training non-electrical workersprevent lectrocution accidents in work place
Every year, more than 300 deaths and 4000 injuries are recorded as a result of workplace electrical hazard. Find out, all you need to know about workplace hazards and basic electrical safety practices.
Online Electrical Courses addresses electrical safety tips requirements that are necessary for safety and includes why electricity is dangerous and how it works.
Checkout OSHA's workplace electrical safety guidelines that both employee and employer should be aware of. Make your facility safer with Current Solutions PC's workplace electrical safety program that protects your facility and employees against all sorts of electrical hazards. Visit www.CurrentSolutionsPC.com now.
Safety in non-residential electrical installationsBruno De Wachter
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Sustainability has become an increasingly critical topic as the world recognizes the need to protect our planet and its resources for future generations. Sustainability means meeting our current needs without compromising the ability of future generations to meet theirs. It involves long-term planning and consideration of the consequences of our actions. The goal is to create strategies that ensure the long-term viability of People, Planet, and Profit.
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Electrical Safety by OSHA
1. PPT 10-hr. General Industry – Electrical v.03.01.17
1
Created by OTIEC Outreach Resources Workgroup
Electrical
OSHA 10-hour Outreach Training
General Industry
2. PPT 10-hr. General Industry – Electrical v.03.01.17
2
Created by OTIEC Outreach Resources Workgroup
Electrical
Source of photos: OSHA
3. PPT 10-hr. General Industry – Electrical v.03.01.17
3
Created by OTIEC Outreach Resources Workgroup
Introduction
Lesson objectives:
1. Identify major electrical hazards
2. Describe types of electrical hazards
3. Describe electrical protection methods
4. Recognize employer requirements to
protect workers from electrical hazards
Source: OSHA
4. PPT 10-hr. General Industry – Electrical v.03.01.17
4
Created by OTIEC Outreach Resources Workgroup
Introduction
Definitions:
• Electricity – movement
of the free electrons between
atoms;
– Related terms:
• Current – the movement of
electrical charge
• Resistance – opposition to current flow
• Voltage – a measurement of electrical force
Source: NIOSH
5. PPT 10-hr. General Industry – Electrical v.03.01.17
5
Created by OTIEC Outreach Resources Workgroup
Introduction
• Conductors – substances, such as metals, that have
little resistance to electricity
• Insulators – substances, such as dry wood, rubber,
glass and Bakelite, that have high resistance to
electricity
• Grounding – a conductive connection to the earth
which acts as a protective measure
6. PPT 10-hr. General Industry – Electrical v.03.01.17
6
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Serious injuries and death can be caused by electrical hazards such as arc flash, shocks, burns, falls, and fires. Source of graphics: OSHA
7. PPT 10-hr. General Industry – Electrical v.03.01.17
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Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Examples of electrical hazards that could
cause workers to be electrocuted.
• https://www.osha.gov/video/shipyard_a
ccidents/08_welder_electrocuted.html
• https://www.osha.gov/video/shipyard_a
ccidents/15_lockout_tagout_failure.html
8. PPT 10-hr. General Industry – Electrical v.03.01.17
8
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
BE SAFE:
• Burns
• Electrocution
• Shock
• Arc flash/arc blast
• Fire
• Explosions
9. PPT 10-hr. General Industry – Electrical v.03.01.17
9
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Burns:
• Most common shock-related injury
• Three types of electrical burns:
– Electrical
– Arc flash
– Thermal contact
Source: OSHA
10. PPT 10-hr. General Industry – Electrical v.03.01.17
10
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Electrocution:
• Is fatal
• Meaning: to kill with electrical shock
• Results when a human is exposed to a
lethal amount of electrical energy
11. PPT 10-hr. General Industry – Electrical v.03.01.17
11
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Shock:
• Body becomes part
of electrical circuit
• Reflex response to
passage of electric
current through the body
Source: OSHA
12. PPT 10-hr. General Industry – Electrical v.03.01.17
12
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Arc Flash/Arc Blast
• Arc flash
– Sudden release of electrical energy through air
when a high-voltage gap exists and there is a
breakdown between conductors
– Gives off thermal radiation (heat) and bright,
intense light that can cause burns
– Temperatures as high as 35,000°F
13. PPT 10-hr. General Industry – Electrical v.03.01.17
13
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
• Arc blast – high-voltage arcs can also
produce considerable pressure waves
by rapidly heating the air and creating
a blast
14. PPT 10-hr. General Industry – Electrical v.03.01.17
14
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Fire:
• Most result from problems with "fixed
wiring”
• Problems with cords, plugs, receptacles,
and switches also cause electrical fires
15. PPT 10-hr. General Industry – Electrical v.03.01.17
15
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Explosions:
• Occur when electricity ignites explosive
mixture of material in the air
• Note:
– Electricity is source of these hazards
– All hazards are of equal importance
– Lesson focuses on eliminating electrical hazards
16. PPT 10-hr. General Industry – Electrical v.03.01.17
16
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
Examples of fatal accidents:
• Case #1: Worker electrocuted when the ladder
came in contact with overhead power lines
• Case #2: Worker electrocuted when mast
came in contact with high voltage overhead
lines
17. PPT 10-hr. General Industry – Electrical v.03.01.17
17
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
• Case #3: Worker changing energized ballast
on light fixture was electrocuted and fell to
the concrete floor while working from an 8'
fiberglass stepladder.
18. PPT 10-hr. General Industry – Electrical v.03.01.17
18
Created by OTIEC Outreach Resources Workgroup
Electrical Hazards
U.S. Bureau of Labor Statistics:
• 156 electrocutions for 2014
• Up from 141 in 2013
Source of graphics: OSHA
19. PPT 10-hr. General Industry – Electrical v.03.01.17
19
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
Contact with overhead power lines:
• Overhead and buried
power lines carry
extremely high voltage
• Risks
– Electrocution (main risk)
– Burns and falls
Source: NIOSH
20. PPT 10-hr. General Industry – Electrical v.03.01.17
20
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
• Cranes are not the only
equipment that can reach
overhead power lines.
• Use of ladders or suspension
in a man-basket under or near
power lines are risks.
Source: OSHA
21. PPT 10-hr. General Industry – Electrical v.03.01.17
21
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
• Important: the covering on an overhead
power line is primarily for weather
protection; therefore, workers need to
know that if they touch a power line,
covered or bare, death is probable.
• https://www.osha.gov/dts/vtools/construct
ion/ladder_powerline_fnl_eng_web.html
22. PPT 10-hr. General Industry – Electrical v.03.01.17
22
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
Contact with energized sources:
• Live parts
– The major hazards
• Electrical shock and burns
• Electrical shock occurs
when the body becomes
part of the electric circuit
Source: OSHA
23. PPT 10-hr. General Industry – Electrical v.03.01.17
23
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
– Severity and effects of an electrical shock
depend on a number of factors
• Pathway through the body
• Amount of current
• Length of time of the exposure
• Whether skin is wet or dry
– Water
• Great conductor
• Allows current to flow more easily in wet conditions
and through wet skin
24. PPT 10-hr. General Industry – Electrical v.03.01.17
24
Created by OTIEC Outreach Resources Workgroup
Chart
(1,000 milliamperes = 1 amp; therefore, 15,000 milliamperes = 15 amp circuit)
Current Reaction
Below 1 milliampere Generally not perceptible
1 milliampere Faint tingle
5 milliampere Slight shock felt; not painful but disturbing. Average individual
can let go. Strong involuntary reactions can lead to other
injuries
6-25 milliamperes (women) Painful shock, loss of muscular control
9-30 milliamperes (men) The freezing current or “let-go” range. Individual cannot let go,
but can be thrown away from the circuit if extensor muscles
are stimulated.
50-150 milliampres Extreme pain, respiratory arrest, severe muscular contractions.
Death is possible.
1,000-4,300 milliamperes Rhythmic pumping action of the heart ceases. Muscular
contraction and nerve damage occur; death likely
10,000 milliamperes Cardiac arrest, severe burns; death probable
This table shows the body’s reaction when exposed to various levels of current. Source: OSHA
25. PPT 10-hr. General Industry – Electrical v.03.01.17
25
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
• Damaged or bare wires
– Fault current may travel through a body,
causing electrical burns or death, if
• Power supply is not grounded
• Path has been broken
• There are live parts or bare wires
– Extreme conditions and rough treatment can
change electrical equipment from safe to
hazardous
26. PPT 10-hr. General Industry – Electrical v.03.01.17
26
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
These photos show examples of defective equipment/tools. Source of photos: OSHA
• Defective equipment or tools
27. PPT 10-hr. General Industry – Electrical v.03.01.17
27
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
• Improper repairs
– Examples of incidents
• Ballast strap not replaced after repair = Electrocution of
11 year old boy
• Cutting off bleed resistor on capacitor= causes 370-volt
shock
• Removing and leaving off terminal insulator on capacitor
= causes 440-volt shock
28. PPT 10-hr. General Industry – Electrical v.03.01.17
28
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
Improper use:
• Extension and flexible cords
– Care
– Connection
– Capacity
Source: TEEX SH 46F1-HT06
29. PPT 10-hr. General Industry – Electrical v.03.01.17
29
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
– Capacity affected by
• Size of wire
– 14 gauge = 15 amps
– 12 gauge = 20 amps
• Length of the cord
– UL tag capacity
– In general any cord over
100 ft. requires one size
larger cord
(14 gauge to 12 gauge) Source: OSHA
30. PPT 10-hr. General Industry – Electrical v.03.01.17
30
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
• Power strips:
– Can be over loaded
because of multiple
plug arrangement
– Most have overload protection
but often malfunction causing fire
– Use fixed wiring when possible
Source: UBATC
31. PPT 10-hr. General Industry – Electrical v.03.01.17
31
Created by OTIEC Outreach Resources Workgroup
Types of Electrical Hazards
• Portable heaters and appliances:
– Manufacturer recommendations
not followed
– Do not plug into a power strip!
This causes overloads and fires.
Source of photos: UBATC
32. PPT 10-hr. General Industry – Electrical v.03.01.17
32
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
Maintain safe distance from
overhead power lines:
• Staying away
• Following table shows the safe
power line clearance distance
for various line voltages.
• https://youtu.be/Y2MwX738e1Y
Source of graphics: OSHA
33. PPT 10-hr. General Industry – Electrical v.03.01.17
33
Created by OTIEC Outreach Resources Workgroup
Voltage
(nominal, kV, alternating current)
Minimum Clearance Distance
(feet)
Up to 50 10
Over 50 to 200 15
Over 200 to 350 20
Over 350 to 500 25
Over 500 to 750 35
Over 750 to 1000 45
Over 1000 (As established by the power line
owner/operator or registered
professional engineer who is a qualified
person with respect to electrical
transmission and distribution)
Electrical Protection Methods
This table shows the minimum clearance distances, in feet, for different power line voltages. Source: OSHA
34. PPT 10-hr. General Industry – Electrical v.03.01.17
34
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
Use ground-fault circuit
interrupters (GFCI):
• Designed to protect people
from electrical shock
• Detects ground faults and
interrupts electric current
• Limits duration of electrical
shock
Source: OSHA
35. PPT 10-hr. General Industry – Electrical v.03.01.17
35
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
Three types of GFCI:
• Receptacle GFCI
• Temporary/portable GFCI
• Circuit Breaker GFCI
These photos show examples of the three types of GFCI. Source of photos: OSHA
36. PPT 10-hr. General Industry – Electrical v.03.01.17
36
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
Inspect portable tools and extension
cords:
• Workers need to inspect extension cords prior
to their use for any cuts or abrasion.
• Electric hand tools that are old, damaged, or
misused may have damaged insulation inside.
37. PPT 10-hr. General Industry – Electrical v.03.01.17
37
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
Use power tools and equipment as
designed:
• Follow tool safety tips to avoid misusing
equipment
• Follow manufacturer’s instructions
38. PPT 10-hr. General Industry – Electrical v.03.01.17
38
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
• Common examples of
misused equipment
These photos show examples of equipment misuse.
Source: TEEX SH 46F1-HT06
Source of photos: OSHASource of photos: OSHA
39. PPT 10-hr. General Industry – Electrical v.03.01.17
39
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
Tool safety tips
• Never carry a tool by the cord.
• Never yank the cord to disconnect it.
• Keep cords away from heat, oil, and
sharp edges.
• Disconnect when not in use and when
changing accessories such as blades
and bits.
40. PPT 10-hr. General Industry – Electrical v.03.01.17
40
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
• Avoid accidental starting. Do not hold
fingers on the switch button while
carrying a plugged-in tool.
• Use gloves and appropriate footwear.
• Store in dry a place when not using.
41. PPT 10-hr. General Industry – Electrical v.03.01.17
41
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
• Don’t use in wet/damp environments.
• Keep working areas well lit.
• Ensure that cords do not cause a tripping
hazard.
• Remove damaged tools from use.
• Use double-insulated tools.
42. PPT 10-hr. General Industry – Electrical v.03.01.17
42
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
Follow lockout/tagout (LOTO)
procedures:
• Lockout/tagout
– Essential safety procedure
– Protects workers from injury while
working on or near electrical
circuits and equipment
– Prevents contact with operating
equipment parts such as, blades,
gears, shafts, etc.
Source: OSHA
43. PPT 10-hr. General Industry – Electrical v.03.01.17
43
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
– LOTO prevents the unexpected
release of hazardous gases, fluids, or
solid matter in areas where workers
are present.
Source of photos: OSHA
44. PPT 10-hr. General Industry – Electrical v.03.01.17
44
Created by OTIEC Outreach Resources Workgroup
Electrical Protection Methods
Power source identification:
• Mark all breakers accordingly for the circuits
they protect
• Mark all disconnect means accordingly for
the equipment they service
• Identify all voltages with proper labeling
45. PPT 10-hr. General Industry – Electrical v.03.01.17
45
Created by OTIEC Outreach Resources Workgroup
Employer Requirements
Employer requirements to protect workers:
• Ensure overhead power line safety
• Isolate electrical parts
• Supply ground-fault circuit interrupters (GFCI)
protection
• Establish and implement an AEGCP
• Ensure power tools are maintained in a safe
condition
46. PPT 10-hr. General Industry – Electrical v.03.01.17
46
Created by OTIEC Outreach Resources Workgroup
Employer Requirements
• Ensure proper guarding
• Provide training
• Enforce LOTO safety related work practices
• Ensure proper use of flexible cords and
power strips
• Ensure proper identification of power
sources
47. PPT 10-hr. General Industry – Electrical v.03.01.17
47
Created by OTIEC Outreach Resources Workgroup
What’s Wrong?
Identify the hazards in these photos. Source of photos: TEEX SH 46F1-HT06
48. PPT 10-hr. General Industry – Electrical v.03.01.17
48
Created by OTIEC Outreach Resources Workgroup
What’s Wrong?
Identify the hazards in these photos. Source of photos: OSHA
49. PPT 10-hr. General Industry – Electrical v.03.01.17
49
Created by OTIEC Outreach Resources Workgroup
Knowledge Check
1. What is electricity?
a. The movement of atoms within an object
b. The movement of free electrons between
atoms
c. Solid mass
d. Movement within the nucleus of an atom
Answer: b. The movement of free
electrons between atoms
50. PPT 10-hr. General Industry – Electrical v.03.01.17
50
Created by OTIEC Outreach Resources Workgroup
Knowledge Check
2. “Electrocution” means ___.
a. received a mild electrical shock
b. killed by electrical shock
c. exposed to electrical current
d. any accident involving electricity
Answer: b. killed by
electrical shock R.I.P.
51. PPT 10-hr. General Industry – Electrical v.03.01.17
51
Created by OTIEC Outreach Resources Workgroup
Knowledge Check
3. Arc flash/arc blast can reach
maximum temperatures up to 350˚F?
a. True
b. False
Answer: b. False - temperatures
can reach up to 3,500˚F
52. PPT 10-hr. General Industry – Electrical v.03.01.17
52
Created by OTIEC Outreach Resources Workgroup
Knowledge Check
4. Which gauge of wire will carry the
most current?
a. 14 gauge
b. 12 gauge
c. 10 gauge
d. 00 gauge
Answer: d. 00 gauge – the lower the
wire gauge number, the
more current it can carry
53. PPT 10-hr. General Industry – Electrical v.03.01.17
53
Created by OTIEC Outreach Resources Workgroup
Knowledge Check
5. What does GFCI stand for?
a. Ground Flexible Conduit Insulator
b. Ground Flow Current Interceptor
c. Ground Fault Circuit Interrupter
d. Ground Floor Connection Intersector
Answer: c. Ground Fault Circuit
Interrupter
54. PPT 10-hr. General Industry – Electrical v.03.01.17
54
Created by OTIEC Outreach Resources Workgroup
Knowledge Check
6. Which of the following is a safe practice?
a. Carrying power tool by the cord
b. Holding fingers on switch button while
carrying a plugged-in tool
c. Keeping cords away from heat, oil, and sharp
edges
d. Yanking cord to disconnect plug from outlet
Answer: c. Keeping cords away from
heat, oil, and sharp edges
55. PPT 10-hr. General Industry – Electrical v.03.01.17
55
Created by OTIEC Outreach Resources Workgroup
Knowledge Check
7. Who is responsible for ensuring that
overhead power lines are de-energized?
a. Power company
b. Employer
c. Employee
d. Municipality
Answer: b. Employer
Editor's Notes
Enabling Objectives:
Identify major electrical hazards.
Describe types of electrical hazards.
Describe electrical protection methods.
Recognize employer requirements to protect workers from electrical hazards.
Source: https://www.osha.gov/Publications/osha3075.pdf
“Most electrical accidents result from one of the following three factors:
• unsafe equipment or installation,
• unsafe environment, or
• unsafe work practices.”
Discuss examples given in class.
Watch OSHA videos and discuss videos.
Video #1: Repair Welder Electrocuted – 1 fatality (runtime: 00:02:23)
Video #2: Electrical Panel Repair Results in Electrocution – 1 fatality (runtime: 00:01:56)
BE SAFE by recognizing, avoiding and protecting against all of these electrical hazards.
Electrical burns are the most common shock-related injury.
The three types of burns from electricity are:
- Electrical burns result from heat generated by the flow of electric current through the body.
- Arc/Flash burns are high temperature burns caused by an electric arc or explosion.
-Thermal contact burns occur when skin comes in contact with overheated electric equipment.
Electrocution is fatal; it means to kill with electrical shock.
Electrocution results when a human is exposed to a lethal amount of electrical energy.
Shock results when the body becomes part of the electrical circuit; current enters the body at one point and leaves at another.
Electrical shock is defined as a reflex response to the passage of electric current through the body.
An arc flash is the sudden release of electrical energy through the air when a high-voltage gap exists and there is a breakdown between conductors.
An arc flash gives off thermal radiation (heat) and bright, intense light that can cause burns.
Temperatures have been recorded as high as 35,000°F.
High-voltage arcs can also produce considerable pressure waves by rapidly heating the air and creating a blast
An arc flash can be spontaneous or result from inadvertently bridging electrical contacts with a conducting object. Other causes may include dropped tools or the buildup of conductive dust or
corrosion.
For more information on arc flash/blast, including best practices in electrical safety, refer to NFPA
70E: Standard for Electrical Safety in the Workplace available online at: http://www.nfpa.org/codes-and-standards/all-codes-and-standards/list-of-codes-and-standards?mode=code&code=70E
Fire
Most electrical distribution fires result from problems with "fixed wiring" such as faulty electrical outlets and old wiring.
Problems with cords (such as extension and appliance cords), plugs, receptacles, and switches also cause electrical fires.
Explosions
An explosion can occur when electricity ignites an explosive mixture of material in the air.
Note that although electricity is the source of these hazards, and all of these hazards are of equal importance, this lesson focuses on eliminating electrical hazards.
Case #1: Two workers were moving an aluminum ladder. One of them was electrocuted when the ladder came in contact with overhead power lines.
Case #2: Worker was raising a mast on a water well drilling truck when the mast came in contact with high voltage overhead lines, electrocuting the worker.
Provide examples of accidents related to the type of work your audience does. Locate accident summaries on OSHA’s website. Go to: http://www.osha.gov/pls/imis/accidentsearch.html. Within the keyword field, enter a keyword to be searched against. For example, to obtain accident investigations involving electrocutions, enter the key word electrocuted. To view a list of key words, use the keyword list at the bottom of the Accident Investigation Search page.
Case #3: Worker was fatally injured when he was electrocuted and fell to the concrete floor while working from an 8' fiberglass stepladder. Worker was changing an energized ballast on a two-bulb florescent light fixture, located approximately 11.5 ft. off the ground.
NOTES:
For the most current statistical data, or for more detail, see: http://www.bls.gov/iif/
Contact with overhead power lines
Overhead and buried power lines are especially hazardous because they carry extremely high voltage.
Fatalities are possible as electrocution is the main risk; however, burns and falls from elevations are also hazards that workers are exposed to while working in the vicinity of high voltage power lines.
Workers may not realize that cranes are not the only equipment that reaches overhead power lines.
Working on a ladder or in a man-basket suspended under or near power lines also poses a risk of electrocution.
Important to note: The covering on an overhead power line is primarily for weather protection; therefore, workers need to know that if they touch a power line, covered or bare, death is probable.
Voltages of overhead lines range from 120 to 750,000 volts. The most reliable way to know the voltage is to ask the utility company that owns the line.
Video: Electrocution: Work Safely with Ladders Near Power Lines (Runtime: 00:05:39)
The major hazards regarding contact with energized sources are electrical shock and burns. Electrical shock occurs when the body becomes part of the electric circuit, either when an individual comes in contact with both wires of an electrical circuit, one wire of an energized circuit and the ground, or a metallic part that has become energized by contact with an electrical conductor.
The severity and effects of an electrical shock depend on a number of factors, such as the pathway through the body, the amount of current, the length of time of the exposure, and whether the skin is wet or dry.
Water is a great conductor of electricity, allowing current to flow more easily in wet conditions and through wet skin.
If power supply to electrical equipment is not grounded or the path has been broken, or if there are live parts or bare wires, a fault current may travel through a worker's body, causing electrical burns or death.
Even when the power system is properly grounded, electrical equipment can instantly change from safe to hazardous because of extreme conditions and rough treatment.
Mercury vapor light fixture on the wood pole was repaired and the ballast strap was not replaced causing the ballast to short from movement the secondary wiring energizing the connecting electrical conduit.
Bleed resistors are used to bleed off potential electrical stored energy from capacitors.
Rubber insulators are required over capacitor terminals in locations of contact.
Because they are exposed, flexible, and unsecured, extension and flexible cords are more susceptible to damage than fixed wiring. Hazards are created when cords, cord connectors, receptacles, and cord- and plug connected equipment are improperly used and maintained.
To reduce hazards, flexible cords must connect to devices and to fittings in ways that prevent tension at joints and terminal screws. A flexible cord may be damaged by door or window edges, staples and fastenings, abrasion from adjacent materials, or simply by aging. If the electrical conductors become exposed, there is a danger of shocks, burns, or fire.
Overloading extension cords can cause them to overheat. Capacity of the extension cord should be labeled on the UL tag.
The higher the wire gauge number of the wire in the cord the less current it can carry.
Length of the cord also effects its capacity. The UL tag capacity is related to it length. In general any cord over 100 ft. requires one size larger cord. (14 gauge to 12 gauge)
Power strips capability to be over loaded because of the multiple plug arrangement. Most have overload protection but often malfunction causing fire. Use fixed wiring when possible.
Portable heaters and appliances are often not used as the manufacturer recommends. Do not plug into a power strip! This causes overloads and fires.
Maintain safe distance from overhead power lines
Staying away from power lines is the best option.
The following table shows the safe power line clearance distance for various line voltages.
29 CFR 1926.1408 provides requirements for safe distances.
“Note: The value that follows "to" is up to and includes that value. For example, over 50 to 200 means up to and including 200kV.”
A "GFCI" is a ground fault circuit interrupter that is designed to protect people from severe and sometimes fatal electrical shock. A GFCI detects ground faults and interrupts the flow of electric current, and is designed to protect the worker by limiting the duration of an electrical shock.
NOTE:
If the light or tool [other product] remains “ON” when the “Test” button is pushed, the GFCI is not working properly or has been incorrectly installed (miswired). If this is the case, a qualified electrician (equivalent to qualified electrician is a ‘licensed’, ‘certified’, and/or ‘registered’ electrician) needs to be contacted to properly wire or replace the GFCI device.
1. Receptacle GFCI: Often found on construction work sites, outdoor areas and other locations where damp conditions do or could exist.
2. Temporary/portable GFCI: AP portable GFCI is an extension cord combined with a GFCI. It adds flexibility in using receptacles that are not protected by GFCls. Extension cords with GFCI protection incorporated should be used when
permanent protection is unavailable.
3. Circuit Breaker GFCI: The GFCI circuit breaker controls an entire circuit, and is installed as a replacement for a circuit breaker on the main circuit board. Rather than install multiple GFCI outlets, one GFCI circuit breaker can protect the
entire circuit. At sites equipped with circuit breakers, this type of GFCI might be installed in a panel box to give protection to selected circuits. Circuit breaker GFCIs should be tested monthly. Keep in mind that the test will disconnect power to
everything on the circuit.
Extension cords may have damaged insulation. Sometimes the insulation inside an electrical tool or appliance is damaged. When the insulation is damaged, exposed metal parts may become energized if a live wire inside touches the metal parts
OSHA standards:
- Use only equipment that is approved [29 CFR 1926.403(a)]
- Use all equipment according to the manufacturer's instructions [29 CFR 1926.403(b)(2)]
Common examples of misused equipment
• Using multi-receptacle boxes designed to be mounted by fitting them with a power cord and placing them on the floor.
• Fabricating extension cords with ROMEX wire.
• Using equipment outdoors that is labeled for use only in dry, indoor locations.
• Attaching ungrounded, two-prong adapter plugs to three-prong cords and tools.
• Using circuit breakers or fuses with the wrong rating for over-current protection, e.g., using a 30-amp breaker in a system with 15 or 20 amp receptacles. Protection is lost because it will not trip when the system’s load has been exceeded.
• Using modified cords or tools, i.e., ground prongs removed, face plates, insulation, etc.
• Using cords or tools with worn insulation or exposed wires.
Source: NIOSH Electrical Safety Manual [2009-113]: http://www.cdc.gov/niosh/docs/2009-113
Lockout/tagout is an essential safety procedure that protects workers from injury while working on or near electrical circuits and equipment. In addition, lockout/tagout prevents contact with operating equipment parts such as, blades, gears, shafts, etc.
To protect against being electrocuted, workers need to follow lockout/tagout procedures. When performing lockout/tagout on circuits and equipment, the following checklist can be used:
• Identify all sources of electrical energy for the equipment or circuits in question
• Disable backup energy sources such as generators and batteries
• Identify all shut-offs for each energy source
• Notify all personnel that equipment and circuitry must be shut off, locked out, and tagged out (Simply turning a switch off is not enough)
• Shut off energy sources and lock switch gear in the OFF position. Each worker should apply his/her individual lock and keys kept with the worker
• Test equipment and circuitry to ensure they are de-energized. This must be done by a qualified person
• Deplete stored energy (for example, in capacitors) by bleeding, blocking, grounding, etc.
• Apply a lock or tag to alert other workers that an energy source or piece of equipment has been locked or tagged out
• Make sure all workers are safe and accounted for before equipment and circuits are unlocked and turned back on. Only a qualified person may determine when it is safe to re-energize circuits.
Power source identification
Make sure that all breakers are marked accordingly for the circuits they protect.
Make sure that all disconnect means are marked accordingly for the equipment they service.
Make sure that all voltages are identified with proper labeling.
(AEGCP) assured equipment grounding control program.
Photo on left: ground missing
Photo on right: cord in water; cord taped to repair
Source: TEEX Susan Harwood Grant # 46F1-HT06
Photo on left: open electrical panel in motor control room; wet mop stored at electrical disconnect.
Photo on right: breakers in panel not identified
Source: https://www.osha.gov/SLTC/etools/poultry/general_hazards/elec_hazards.html