Title: ELECTRICAL SAFETY AWARNESS TRAINING
1ELECTRICAL SAFETY AWARNESS TRAINING
Training Program
Updated 5/5/04
2Electrical Fires in the USA
- Daily, fires occur due to electrical problems
defective electrical device, circuit overloading,
circuit overheating, explosions ignited by
electrical spark, etc. - Electricity is one of the most common causes of
fire in the USA. Each year there are
approximately - 1.6 million fires (all causes) reported,
- causing 3,600 fire deaths,
- 18,000 fire related injuries,
- 10.7 billion in property damage.
- Source National Fire Protection Association, 2007
3Grounding
- What is Grounding?
- Grounding a tool or electrical system means
intentionally creating a low-resistance path that
connects to the earth. This prevents the buildup
of voltages that could cause an electrical
accident. - Grounding is normally a secondary protective
measure to - protect against electric shock. It will
substantially reduce the - risk of injury or death in case of shock,
especially when used - in combination with other electrical safety
measures. - An equipment ground helps protect the equipment
operator. - It furnishes a second path for the current to
pass through - from the tool or machine to the ground. This
additional - ground safeguards the operator if a malfunction
causes the - tools metal frame to become energized. The
resulting flow - of current may activate the circuit protection
devices.
4Protection
- Overcurrent Protection
- Fuses and circuit breakers open/break the circuit
automatically when too much current flows through
them. - This is designed to protect the wiring/equipment
from overheating and possible damage NOT THE
USER - GFCI (Ground Fault Circuit Interrupter)
- Used in wet and other high-risk areas.
- Stops the flow of electricity when there is
- a difference between current leaving and
- returning from the outlet.
- Should be tested monthly
- Push test button and then the reset button
5Power Extension Cords and Power Strips
- Extension Cords Power Strips are for TEMPORARY
use only! - They may not be run through doorways, ceilings or
windows - Power Strips (Transient Voltage Surge
Suppressors) - FOR ELECTRONICS ONLY (Computer Equipment etc.)
- NOT FOR APPLIANCES (Refrigerator, Microwave
Toaster, Coffee Pot, Water Cooler etc.) - Do not overload
- The number of outlets on the power
- strip does not indicate how many
- devices can be connected
12
6Properly Used Power Strip
- EXAMPLES OF A PROPERLY
- USED POWER STRIP
- STRIP IS NOT OVERLOADED
- ONLY COMPUTER (ELECTRICAL) EQUIPMENT IS ATTACHED
TO STRIP - CORDS ARE KEPT NEAT
- NO EXTENSION CORDS ARE ATTACHED TO POWER STRIP
- POWER STRIP IS ATTACHED DIRECTLY TO WALL
OUTLET-NO EXTENSION CORD IS USED
7Improperly Used Power Strip
- EXAMPLES OF AN IMPROPERLY
- USED POWER STRIP
- POWER STRIP IS OVERLOADED DUE TO MINI-FRIDGE,
MICROWAVE, AND TWO-POT COFFEE MAKER ALL ON ONE
POWER STRIP - APPLIANCES ARE CONNECTED TO A POWER STRIP (THEY
SHOULD BE CONNECTED DIRECTLY INTO A WALL OUTLET) - POWER STRIP IS NOT CONNECTED DIRECTLY TO THE WALL
OUTLET - AN EXTENSION CORD IS USED
EXTENSION CORD IS USED WITH POWER STRIP
8Damaged and Unapproved Devices
Not Permitted
Cord plug with ground prong missing
Damaged TVSS rated power strip
Adapter enables circuit overload
9Damaged and Unapproved Devices
Not Permitted
Lamp extension cord, also damaged
Power taps
Adapter to change 3-prong plug to 2-prong
eliminating ground
10Container Bonding and Grounding(Static
Electricity)
Bonding Cable
Grounding Cable
Grounding Bus
or Electrode
7
- Proper grounding and bonding is used to address
the dangers of static electricity. - In order for grounding to protect, all surfaces
must be bonded together and grounded to earth. - Static electricity is thereby released to earth
as it is generated, preventing the accumulation
of dangerous charges that may ignite flammable /
hazardous substances.
11Responsibilities
- Entire system must be properly bonded and
grounded to the earth - Facilities
- Responsible for the system up to the wall outlet
(all wiring and outlets) - User
- Responsible for the condition of plug and cord of
equipment - Inspect equipment to ensure plugs and cords are
not damaged. - Do not break off third prong or use adaptors
- No Prong Not Grounded
12Electrical Safety Incidents
- The following is an example of
- Electrocution Due to Improper Use of Common
Equipment
13Background
- Dr. X was conducting an experiment related to
plant growth. He needed to expose the plants to
light for specific time-periods each day. Â
Accordingly, he had a portable fluorescent
lighting rack constructed and mounted on a wooden
frame. He also obtained an electric timer to
automatically turn the lights on and off. The
light fixture was plugged into the timer, which
was plugged into the wall outlet. However, since
the timer only accepted a two prong plug, an
adapter was used to allow the three prong plug of
the lighting rack to be used with the two prong
outlet of the timer.
14The Incident
- Dr. X adjusted the timer so that the lights
would be on and plugged the timer into a standard
3-prong wall outlet. Then another person in the
lab noticed Dr. X grasping the lighting rack and
appearing to be rigid. A third person grasped
Dr. X by the shoulders and pulled him away from
the lighting rack. CPR was performed on him
until EMS arrived. Dr. X was transported to a
hospital where he was pronounced dead.
15The Investigation
- The investigation revealed the following details
- A potential difference of 397 volts was measured
between the metal fluorescent light fixture and
the adjacent stainless steel sink. (There should
not have been any potential difference).    - Both the fixture and the wall outlet were found
to be wired correctly. - The light fixture was rated for 800 mA, but the
lamps used were 1500 mA. - The transformer in the ballast was found to have
short circuited to the case.
16What Probably Happened
- Use of bulbs drawing more current than approved
for the fixture caused overheating of the ballast
resulting in melting of insulation around the
transformer coil. This allowed an energized
transformer wire to touch the metal cover of the
ballast which in turn energized the metal
fluorescent fixture. The lights probably
continued to function since they were wired
correctly.When Dr. X grasped the fixture, some
part of him probably brushed against the nearby
metal sink. This completed a circuit to ground
through Dr. X, electrocuting him.
17Preventing this Fatality
- As with many very serious accidents, a number of
factors were involved, any - one of which could have prevented this fatality.
- If overrated lamps had not been used, the ballast
would probably not have overheated and failed. - If the ground wire connection between the light
fixture and the plug not been interrupted by the
"cheater" adapter and the two-prong timer, the
fixture would have safely shorted to ground
tripping the circuit breaker when the equipment
was plugged in before Dr. X touched it. - Had the standard outlet near the sink been Ground
Fault Circuit Interrupter (GFCI) protected (as it
should have been because it was near a sink), the
GFCI would have tripped at the first flow of
current through Dr. X immediately cutting off
power to the fluorescent fixture and saving his
life. - These electrical safety violations cost Dr. X his
life. If any one of them had been - corrected before the incident, Dr. X would still
be researching plant growth.
18Dont Let This Happen in Your Lab!
- 1)Follow manufacturer's recommendations for use
of  electrical - equipment. Do not use electrical equipment for a
task it is not designed - for.
- 2) Generally, equipment used in research should
have a 3 prong plug or - be double insulated. Equipment with neither of
these features are less - safe but may meet electrical codes. A 3 prong
plug must always go into - a 3 prong outlet. Do not use a "cheater" plug or
pull out the 3rd prong. - 3) Do not use multiple cube taps in a standard
outlet. If you must plug - more than two pieces of low demand equipment into
a standard outlet, - use a fused power strip that will trip if too
much power is used. - 4) Make sure that any outlet near a sink or other
water source is Ground - Fault Circuit Interrupter (GFCI) protected. If
you have a GFCI, - periodically test it by plugging something into
it and pushing the "test - button. The equipment should turn off and then
turn it back on.
19continued
- 5) If you see a person being electrocuted, DO NOT
TOUCH HIM! The - electricity can go though you too. If possible,
remove the power (pull - plug or trip circuit breaker), or use a
non-conductive item (e.g. wooden - broom handle) to pry him away from the contact.
- 6) Above all, do not disable any electrical
safety feature expecting that - another safety feature will protect you. In the
incident described above, - if proper lamps were used, the ballast could
still have been defective - from other causes. Also, GFCIs can be
defective. That is why they - should be periodically tested.
- 7)Â Check that power cords are in good condition.
- 8) Do not use extension cords as a substitute for
permanent wiring.
20Electrical Work
- Electrical work is only to be performed by
qualified individuals - Contact Facilities X4588 for ALL electrical work
- Do not attempt to fix on your own
- Attempting to repair equipment
- yourself may create a hazard
13
21Conclusion
- Know and follow safe work rules and practices
- NO EXTENSION CORDS AS PERMANENT WIRING
- POWER STRIPS ARE FOR ELECTRONICS ONLY
- Report all unsafe conditions to Facilities X4588
or EHS X4078