Getting Top Management CommitmentIt is essential to the success
of your company's safety and health program that top management
demonstrates not only an interest, but a long term serious
commitment to protect every employee from injury and illness on the
job. But, if you think you don't have that level of commitment, how
do you get it? Real commitment doesn't just appear out of thin air.
What is the secret?
The 5-P's in a Safety Management SystemManagement commitment to
safety will occur to the extent each manager clearly understands
the positive benefits derived from their effort. Understanding the
benefits will create a strong desire to improve the company's
safety culture. Managers will invest serious time and money into
effective safety management by developing what I call the "5-P's"
within a safety management system: 1. 2. 3. 4. 5. 7. Programs
Policies Plans Processes, and Procedures Every day, employees,
supervisors and managers have many opportunities to communicate and
act in ways that demonstrate safety leadership. Unfortunately,
these opportunities go unanswered because they are not seen as
opportunities. Employers and manager do not understand that the
simple expression of tough-caring safety leadership can result in
enormous benefits. The inability to perceive leadership
opportunities as they arise limits the company's potential to
succeed. It's appropriate to assume that employees at all levels of
the organization are good people trying to do the best they can
with what they've got. The problem is, they don't always have the
physical resources and psychosocial support to achieve the kind of
results expected of them. Why? Ultimately, the workplace culture
may not support effective safety management and leadership. The way
we perceive "The way things are around here"...can exert a great
influence on leadership styles. We can associate three fundamental
leadership styles to the three management imperatives discussed
above. Let's take a look at this association
6. It's a question of leadership
8.
9.
10. Managers get what they design! 11. They say "perception is
reality." If you perceive a lack of top management commitment to
safety and
health, what can you do about it? First of all, think about
fixing the system, not the blame. It's all about system design. key
player to get things moving. With the help of the safety committee
you can "educate up" to help management gain the all-important
vision and understanding needed to positively affect attitudes and
subsequent behaviors that give workplace safety the emphasis it
deserves. Now let's take a look at what you can do.
12. If management is not demonstrating commitment through
action, you have an opportunity to become a
13. We need to know who we are to be more effective at what we
do 14. Your first step may be quite simple, yet it can have a major
long-term impact on safety and health in the workplace. Propose
that the company include the concept of safety in their vision
statement and mission statement.
15. The vision statement let's the employee and customer know
who you are by defining the role your
company plays and what its basic values are. The vision
statement reflects the corporate culture. One way to understand
corporate culture is to think of it as the company's unique
"personality" setting it apart from all others.
Sample Vision Statement - XYZ Widgets values its "relationship
with customer" above all. To be successful we treat all employees
as valued internal customers. We respect their ideas, value their
work, and provide whatever is needed so that they may accomplish
excellence in a safe-productive manner. Doing this empowers our
employees so that they may manifest our values daily with our
external customers.
16. The mission statement tells the world what you do -- why
your company exists, by stating its intendedpurpose. The mission
statement lets everyone know what your company's product or service
is; who its customers are; what its service territory is.
Sample Mission Statement - It is the mission of XYZ Widgets to
safely manufacture and deliver the highest quality megalithic
cyberwidgets to our valued customers throughout the world.
17. If your company doesn't have a mission statement, try to
develop one and convince management of the benefits that will
result from a written mission statement. Now let's take a look at
two basic approaches employers may adopt in safety and health
program management.
Goals and objectivesSo now you have a vision and mission
statement developed. The next step is to think of some proactive
goals and objectives to improve your company's safety and health
program. Goals are easy to write. They're nothing more than wishes.
For instance, a goal might be to "get everyone trained". However,
operational objectives take a little more thought. Objectives
should have the following elements present:
Starts with an action verb. (Decrease, increase, improve, etc.)
Specifies a single key result to be accomplished. Is quantifiable.
Uses numbers to measure a desired change. (i.e., 50% increase)
Specifies a target date for accomplishment.
For example, operational safety objectives might be written like
this:
"Increase the number of safety suggestions to 25 a month by July
31st." "Reduce the number of back injuries in the warehouse by 70%
by the end of 1997."
Remember to work with the safety committee to share the goals
and objectives with everyone in the company. By the end of this
course you should be able to think of many more ways to increase
management commitment.
Safety Pays!Take a look and download OSHA's Safety Pays software
program that can be helpful in determining direct and indirect
cost. You can use these figures to demonstrate the benefits of
taking corrective action. Your supervisor may ask you what the
Return on Investment (ROI) will be. If the investment in corrective
actions is $1,000, and the potential accident could cost the
company $28,000 sometime in the foreseeable future (let's say five
years), just divide $28,000 by $1,000 and you come up with 2800
percent. Divide that total by 5 years and you come up with an
annual ROI of over 500 percent a year. Now that's a great return!
Management may want to know how quickly the investment will be paid
back: what the Payback Period is. Just divide $28,000 by 60 months
and you come up with $467 per month in potential accident costs.
Since the investment is $1,000, it will be paid back in a little
over two months. After that, the corrective action may be
considered as actually saving the company some big money. Now
that's talking the bottom line! If you want, take a closer look at
some key elements of an effective recommendation.
Plan the work, work the planNow you have some ammunition to help
increase top management commitment that is so important to
workplace safety and health. You'll receive many more tips and
ideas about this throughout the course. An important step in
making sure the above ideas are effectively applied is to
develop an action plan to get top management commitment. An action
plan is nothing more than a set of long-term strategies and
short-term tactics ("how" statements).
ntroductionThe goal of the hazard identification and control
program is to make the workplace and its operations as safe as
possible and to keep employees from being harmed. It is an ongoing
program that is actually never finished. If you are involved in
developing a system to identify and control hazards, you'll start
by carefully planning and designing interrelated processes and
procedures. You'll then implement and carefully watch the system
perform. Finally, you'll revise and improve preventive measures and
controls as your worksite changes and as your store of hazard
information grows.
If you are going to be effective in protecting employees from
workplace hazards, obviously you must first understand just what
those hazards are.
Where are the hazards Many workplaces contain hazardous
materials including raw materials (wood, metal, plastic) to be
manufactured into finished goods, and toxic chemicals (solvents,
acids, bases, detergents) used at various stages of the process.
Stationary machinery and equipment may not be properly guarded, or
in poor working order because of poor preventive/corrective
maintenance. Tools may not be properly maintained. Saws may not be
sharpened or safety harnesses may be old and in need of
replacement. The work environmental might include extreme noise,
flammable or combustible atmospheres, or poor workstation design.
Floors may be slippery and isles cluttered. Guardrails, ladders, or
floor hole covers may be missing or damaged. Employees might be
fatigued, distracted in some way, or otherwise lack the mental of
physical capacity to accomplish work safely.
Some or all of these potential safety hazards may exist in a
workplace. The list could go on and on. It's vitally important that
workers and supervisors are knowledgeable to ensure that workplace
hazards identified and eliminated as soon as possible.
What is a hazard?Before we study identifying, analyzing and
controlling hazards in the workplace, it's important to know how
OSHA defines the term. OSHA usually defines a hazard as, "a danger
which threatens physical harm to employees." Expanding on that
basic definition we can think of a hazard as an: "unsafe workplace
conditions or practices (dangers) that could cause injuries or
illnesses (harm) to employees." A hazard may be an object (tools,
equipment, machinery, materials) or a person (when distracted,
mentally/physically incapable). It's important to know that a
hazard is only one part in the "accident formula" above. It takes a
hazard and exposure before an accident can occur.
Look around...what do you see? Foreseeable" hazardsAnother
important question to ask about the nature of a hazard relates to
whether it was "foreseeable." The question of foreseeability should
be addressed by safety managers during the root cause analysis
phase of an accident investigation. A hazard for which OSHA issues
a citation must be reasonably foreseeable. All the factors which
could cause a hazard need not be present in the same place at the
same time in order to prove foreseeability of the hazard; e.g., an
explosion need not be imminent. For example:
If combustible gas and oxygen are present in sufficient
quantities in a confined area to cause an explosion if ignited but
no ignition source is present or could be present, no OSHA
violation would exist. If an ignition source is available at the
workplace and the employer has not taken sufficient safety
precautions to preclude its use in the confined area, then a
foreseeable hazard may exist. It is necessary to establish the
reasonable foreseeability of the general workplace hazard, rather
than the particular hazard which led to the accident. For example:
A titanium dust fire may have spread from one room to another only
because an open can of gasoline was in the second room. An employee
who usually worked in both rooms was burned in the second room from
the gasoline. The presence of gasoline in the second room may be a
rare occurrence. It is not necessary to prove that a fire in both
rooms was reasonably foreseeable. It is necessary only to prove
that the fire hazard, in this case due to the presence of titanium
dust, was reasonably foreseeable.
What is "Exposure"?Well, I'm sure you thought the information
above on hazards interesting ;-) Now, lets' talk about the concept
of "exposure": the second variable in the accident formula.
Exposure is generally defined as "the condition of being exposed,"
or as "a position in relation to a hazard." In this course we will
consider three forms of exposure that we'll discuss here: physical,
environmental and potential exposure: Physical exposure. We may
think of this form of exposure as "arm's length" exposure. If any
part of the body can be injured as a result of proximity to a
danger zone, physical exposure exists. For instance, if an employee
removes a guard and works around moving parts that could cause an
injury, that employee is exposed. Environmental exposure. An
employee may suffer from environmental exposure no matter how far
away from the source of the hazard he or she might be. For
instance, if an employee uses a loud saw all day, everyone working
around the saw may be exposed to hazardous levels of noise and
suffer from environmental exposure. Potential Exposure The
possibility that an employee could be exposed to a hazardous
condition exists when the employee can be shown to have access to
the hazard. Potential employee exposure could include one or more
of the following:
When a hazard has existed and could recur because of work
patterns, circumstances, or anticipated work requirements and it is
reasonably predictable that employee exposure could occur. When a
hazard would pose a danger to employees simply by employee presence
in the area and it is reasonably predictable that an employee could
come into the area during the course of the work, to rest or to eat
at the jobsite, or to enter or to exit from the assigned workplace.
When a hazard is associated with the use of unsafe machinery or
equipment or arises from the presence of hazardous materials and it
is reasonably predictable that an employee could use the equipment
or be exposed to the hazardous materials in the course of work.
Six-Step ProcessAre you sure you know all of the potential
hazards generally associated with your type of business and your
specific working conditions? A strategy to systematically identify
and analyze all workplace hazards would be useful. In this course
we'll be taking a look at one successful strategy that is
summarized below:
1. Identifying workplace hazards. Identifying hazards is
accomplished through the use of a variety of methods including
observation and periodic surveys and inspections. 2. Analyzing the
workplace. Beyond initial identification, analysis takes a much
closer look to determine the nature and impact of specific
hazardous conditions or unsafe work practices. Methods include:
change analysis of the potential hazards in new facilities,
equipment, materials, and processes; and routine hazard analysis,
such as job hazard analysis, process hazard analysis, management
system analysis, or phase hazard analysis.
3. Developing solutions. Once hazards are identified, analyzed
and understood, effective problem solving techniques are used to
determine the source of those hazards. A critical analysis of root
cause(s) is conducted to determine the system weaknesses needing
improvement and how to make those
improvements. 4. Writing recommendations. Once solutions are
found, it becomes important to offering effective recommendations
that "sell" management on the solutions you have developed. There
are some do's and don'ts to effective recommendations that we'll
discuss later in the course. 5. Taking action. After
recommendations have been approved, carefully plan and implement
the necessary improvements. 6. Evaluating the results. To ensure
changes are effective long term, continuous evaluation through
monitoring and feedback are necessary to revise and improve the
changes made.
The above process, when accomplished systematically, will help
ensure your workers experience freedom from conditions in the
workplace that can cause death, injury, illness, or equipment
damage. That, after all, is "safety."
Last WordsWell, that's a lot of important information. All these
activities to identify hazards in the workplace are so important to
the overall effectiveness of your safety management system. Be sure
you integrate these activities into the line positions...employees,
supervisors and managers...safety is a line responsibility! It's
time to take your first module quiz.
Five General Hazard AreasAll workplace hazards exist in five
general areas:
Materials - liquids, solids, gasses, etc. Equipment - includes
machinery, tools, devices Environment - noise, temperature,
atmospheres, workstation design People - anyone in the workplace
(i.e., employees, guests, customers or contractors) System - flawed
policies, programs, plans, processes, procedures, and practices
When you conduct a walkaround inspection you are usually looking
for hazardous materials, equipment, and environmental factors.
These first three hazard areas represent hazardous physical
conditions (think of these as hazardous "states of being") in the
workplace which, according to various studies*, cause only about
three percent of all accidents in the workplace. It's interesting
to note, that hazardous conditions are what OSHA inspectors
primarily cite as violation. What does that mean? Well, OSHA is
very good at uncovering the conditions that don't cause many
accidents. It's a flawed system, but it's all we have. That also
explains why there is little correlation between the most
frequently cited violations and the most frequent causes of injury.
The fourth category, "People," refers to any employee (or others)
at any level of the organization who may not be "sober and focused"
on the work they're doing. For example, an employee might be in a
hazardous "state of being if they are:
under the influence of legal/illegal drugs; poorly trained or
educated; worried about a family illness; or mentally or physically
incapable of doing the job safely
Remember, an employee who is distracted in any way from the work
they're doing should also be considered a "walking" hazardous
condition that increases the likelihood of an unsafe behavior.
Unfortunately, OSHA does not usually "catch" employees working in
an unsafe manner, so you don't see unsafe behaviors described in
OSHA citation reports too often. The safety management system is
composed of policies, programs, plans, processes, procedures and
practices that influence or contribute to behaviors in the
workplace. A flawed system will contribute to some degree to
workplace conditions and behaviors. Therefore we can argue that the
safety management system is ultimately the cause for up to 98
percent of the accidents that occur in the workplace!* SAIF
Corporation, Oregon
Hazardous MaterialsNearly every production job involves the use
of hazardous materials including chemicals for cleaning, stripping,
or degreasing parts and equipment. Maintenance workers who enter
enclosed or confined spaces are also exposed to toxic substances.
Solvents. Solvents are used to dissolve various materials. Those
commonly used include:
trichloroethylene acetone percholoroethylene isopropyl alcohol
xylene
toluene methylene chloride glycol ether choloroform freon
Exposure occurs by inhalation, ingestion, and absorption
primarily through skin contact. Skin exposure may result in
dermatitis or skin rash, edema or swelling, and blistering. These
exposures can result from chemical splashes and spills, from
directly immersing one's hands into solvents and chemicals, from
contact with solventsoaked clothing or solvent-wet objects, and
from the use of improper personal protective equipment. Solvents
can dissolve the body's natural protective barrier of fats and oils
leaving the skin unprotected against further irritation. In
addition, inhaling or ingesting solvents may affect the central
nervous system, acting as depressants and anesthetics causing
headaches, nausea, drowsiness, dizziness, complaints of irritation,
abnormal behavior, general ill-feeling, and even unconsciousness.
These symptoms should be viewed as visible signs of potential
disease. Excessive and continued exposure to certain solvents may
result in liver, lung, kidney, and reproductive damage, as well as
cancer. Acids and Alkalis. Acids and alkalis may cause serious
burns if they are splash into the eyes or onto the skin. If vapors
or mists are inhaled, they may result in a burning of the linings
of the nose, mouth, throat, and lungs. Metals. Employees are
exposed to metals primarily by skin contact and by inhalation of
metal dusts and fumes. Exposure may cause headaches, general
ill-feeling, anemia, central nervous system and kidney damage, and
reproductive problems, as well as cancer. Gases. Gases are used in
many operations and may combine with other substances to produce
toxic gases such as phosgene, ozone, and carbon monoxide. Workers
can be exposed to these and other gases during work. Potential
exposure to gases occurs through inhalation. Such exposure may
produce eye damage, headaches, shivering, tiredness, nausea, and
possible kidney and liver damage. Plastics and Resins. Inhalation
or skin contact may occur when curing resins; cutting, heating, or
stripping wires; or cutting, grinding, or sawing a hardened
product. Exposure to these substances may result in skin rash and
upper respiratory irritation. Polychlorinated Biphenyls (PCBs).
PCBs are used as insulators in some electrical equipment and
present a potential hazard to workers. Exposures to PCBs may cause
skin disorders, digestive problems, headaches, upper respiratory
irritations, reproductive problems, and cancer. Fiberglass and
Asbestos. Fiberglass and asbestos are also used as fillers in epoxy
resins and other plastics, in wire coatings or electrical
insulation, and in printed circuit boards. Uncontrolled exposures
may produce skin and upper respiratory irritations and, in the case
of asbestos, cancer. Solids. Solids like metal, wood, plastics. Raw
materials used to manufacture products are usually bought in large
quantities, and can cause injuries or fatalities in many ways.
Gases. Gases like hydrogen sulfide, methane, etc. Gas may be
extremely hazardous if leaked into the atmosphere. Employees should
know the signs and symptoms related to hazardous gases in the
workplace.
Hazardous EquipmentHazardous equipment includes machinery and
tools.
Hazardous equipment should be properly guarded so that it's
virtually impossible for a worker to be placed in a danger zone
around moving parts that could cause injury or death. A preventive
maintenance program should be in place to make sure equipment
operates properly. A corrective maintenance program is needed to
make sure equipment that is broken, causing a safety hazard, is
fixed immediately.
Tools need to be in good working order, properly repaired, and
used for their intended purpose only. Any maintenance person will
tell you that accident can easily occur if tools are not used
correctly. Tools that are used while broken are also very
dangerous.
Hazardous Work EnvironmentsAre there areas in your workplace
that are too bright, dark, hot, cold, dusty, dirty, messy, wet,
etc. Is it too noisy, or are dangerous gases, vapors, liquids,
fumes, etc., present? Do you see short people working at
workstations designed for tall people? Such factors all contribute
to an unsafe environment. You can bet a messy workplace is NOT a
safe workplace! Noise Exposure. Many work places are inherently
noisy and potentially hazardous to employees. Continuous noise and
instantaneous noise bursts can damage the hearing of employees. A
hearing conservation program should be established if you think
noise levels are a potential threat to the health of your
employees. OSHA consultants, your insurer, or a private consultant
are all available to help you determine noise levels in the
workplace. Electric Shock. Electricity travels in closed circuits,
normally through a conductor. Shock occurs when the body becomes
part of the electric circuit. The current must enter the body at
one point and leave at another. Shock normally occurs in one of
three ways. The person must come in contact with:
both wires of an electric circuit, one wire of an energized
circuit and the ground, or a metallic part that has become "hot" by
being in contact with an energized wire or conductor, while the
person is also in contact with the ground.
Illumination. It's important to make sure illumination is
adequate for the job being performed. Too much direct or indirect
glare can, over time, cause eye strain. Too little light can result
in an injury. More on this topic in course 711, Introduction to
Ergonomics.
Hazardous PeopleRemember, hazardous conditions may be thought of
as unsafe "states of being." All of the following situations may
cause employees to be what I call "walking hazards" o Fatigue.
Employees are too tired to do the work without cause injury to
themselves or others. o Drugs or alcohol. Drugs (either legal or
illegal) and alcohol place employees in altered states of awareness
and lengthens reaction time. o Distraction. Employees who are
distracted (internal thoughts are not focused on the work being
performed). You can't be thinking about the football game while
working on high voltage! o Hurry. This should be obvious. This is
probably the greatest reason employees perform unsafe actions. The
more hurried employees are, for whatever reason, the more likely
they are going to have accidents. Workers who take unsafe short
cuts, or who are using established procedures that are unsafe, are
accidents waiting to happen. As mentioned earlier, hazardous work
practices represent about 95% of the causes of all accidents in the
workplace. Bottom-line: If employees are not sober and focused
while working, they are walking hazardous conditions.
Management may unintentionally promote unsafe work practices by
establishing policies, procedures and rules (written and unwritten)
that ignore or actually direct unsafe work practices. These safety
policies, plans, programs, processes, procedures and practices are
called "system controls" and ultimately represent the causes of
about 98% of all workplace accidents.
Hazardous SystemEvery company has, to some degree, a safety
management system. Management may unintentionally promote unsafe
behaviors by developing ineffective policies, procedures and rules
(written and unwritten) that ignore safe behaviors or actually
direct unsafe work practices. Safety policies, plans, programs,
processes, procedures and practices are called "Administrative
Controls," and they ultimately represent the causes for about 98%
of all workplace accidents.
13 Hazard CategoriesThe following 13 hazard categories are
adapted from Product Safety Management and Engineering, by Willie
Hammer,ASSE Pub. This publication is an excellent text to add to
your library. (Image credits: Oregon OSHA) 1. Acceleration. This is
just a fancy term for "fall" hazard. When we speed up or slow down
too quickly. Acceleration occurs when any object is being set in
motion or its speed increased. Whiplash is a common injury as a
result of an acceleration hazard. Hazards from deceleration and
impact, especially from falls, also exist in the workplace.
Biohazards. Hazards of harmful bacterial, viruses, fungi, and molds
are becoming a greater concern to everyone at work. The primary
routes of infection are airborne and bloodborne. Chemical
reactions. Chemical reactions can be violent, and can cause
explosions, dispersion of materials and emission of heat. Chemical
compounds may combine or break down (disassociate) resulting in
chemicals with reactive properties. Corrosion, the slow combination
of iron and water, is a common chemical reaction and results in
loss of strength and integrity of affected metals. Electrical
hazards. Exposure to electrical current. There are six basic
electrical hazards: shock, ignition, heating/overheating,
inadvertent activation (unexpected startup), failure to operate,
and equipment explosion. Ergonomics. The nature of the work being
done may include force, posture, position of operation
characteristics that require hazardous lifting, lowering, pushing,
pulling, and twisting. The results are strains and sprains to
muscles and connective tissues. Explosives and explosions.
Explosions result in quick (instantaneous) release of gas, heat,
noise, light and over-pressure. High explosives release a large
amount of energy. Low explosives burn rapidly (deflagrates) but at
a slower speed. Most explosive accidents are caused by explosions
of combustible gases. Flammability and fires. In order for
combustion to take place, the fuel, an oxidizer, and ignition
source must be present in gaseous form. Accidental fires are
commonplace because fuel, oxidizers and ignition sources are often
present in the workplace.
2.
3.
4.
5.
6.
7.
8. Temperature. Temperature indicates the level of sensible heat
present in a body. Massive uncontrolled flows of temperature
extremes due to work in hot or cold environments can cause trauma
and/or illness. 9. Mechanical hazards. Tools, equipment, machinery
and any object may contain pinch points, sharp points and edges,
weight, rotating parts, stability, ejected parts and materials that
could cause injury. 10. Pressure. Increased pressure in hydraulic
and pneumatic systems. Pressure may cause ruptures in pressure
vessels, whipping hoses. Small high pressure leaks may cause
serious injuries. 11. Radiation. Electromagnetic radiation hazards
vary depending on the frequency (wavelength) of the energy.
Generally, the higher the frequency, the more severe the potential
injury. Non-ionizing (ultra-violet, visible light) may cause burns.
Ionizing radiation actually has the potential to destroy tissue by
dislodging electrons from atoms making up body cells. 12. Toxics.
Materials that in small amounts may cause injury to skin and
internal organs are considered toxic. Toxics may enter through
inhalation, ingestion, absorbed or injected. 13. Vibration/Noise.
Produce adverse physiological and psychological
effects. Whole-body vibration is a common hazard in the trucking
industry. Segmental vibration and noise hazards exist when working
equipment such as jack hammers.
Last WordsAll these activities to identify hazards in the
workplace are so important to the overall effectiveness of your
safety management system. Be sure you integrate these activities
into the line positions...employees, supervisors and
managers...safety is a line responsibility! It's time to take your
first module quiz.
IntroductionThe first step in preparing to conduct a JHA is to
review all of the jobs in the workplace and make a list of those
jobs that might require a JHA.
Involve Your EmployeesGet together with your employees and talk
about the actual and potential hazards and unsafe behaviors they
believe might exist in their current work and surroundings. Discuss
the possible accidents that might result from the hazards and
behaviors. Next, come up with ideas to eliminate or control those
hazards and behaviors. By the way, if you can eliminate or reduce
hazards, don't wait until the JHA is conducted. Eliminate or reduce
the hazard as soon as possible.
Employees are prone to use their "own" procedures when not being
supervisedIt is very important to involve your employees in the JHA
process because they have a unique understanding of the job, and
this knowledge is invaluable for finding hazards. Involving
employees will help minimize oversights, ensure a quality analysis,
and get workers to "buy in" to the solutions because they've helped
in some way to develop the procedures. If they are not involved in
developing the JHA, they will not be as likely to "own" the safe
job procedures. As a result, they may not want to use safe
procedures and practices that they believe have been "imposed" on
them.
Look for Hazardous Conditions and Unsafe BehaviorsDuring the job
review process, focus on identifying hazardous conditions and
unsafe behaviors. Remember, it takes a hazard and exposure to the
hazard before an accident can occur. So, it makes sense to look for
them during the review. Sources to help identify hazardous
conditions and unsafe behaviors include:
Material Safety Data Sheets (MSDSs) Experienced workers Accident
and incident reports First aid statistical records Behavior Based
Safety (BBS) reports Safety committee meeting minutes Safety
inspection reports Previous JHAs Existing work procedures Equipment
manuals Preventive/corrective maintenance records
HazardsIf hazards that pose an immediate danger to an employee's
life or health exist, take immediate action to protect the worker.
Any problems that can be corrected easily should be corrected as
soon as possible.
Behaviors
Some jobs may require potentially high-risk behaviors that
should be identified in a JHA. High risk behaviors that might
increase the probability and severity of an injury or illness
include:
Working at elevation, no matter what the job is Lifting,
lowering, pushing, pulling and other manual handling operations
Others working above or below the work area Use of bridge cranes,
man lifts, or other heavy equipment Working on or near energized
equipment/components Working alone or in isolated workplaces
Operating vehicles (i.e. trucks, forklifts, etc.) Working within a
confined space or under temperature extremes
Review Incident/Accident HistoryReview your worksite's history
of accidents and illnesses that needed treatment and incidents that
required repair or replacement of equipment. It's also important to
look at near miss events in which an injury did not occur, but
could have. These events are indicators that existing hazard
controls (if any) may not be adequate and deserve more
scrutiny.
Conduct a Risk AnalysisOnce you have identified tasks you
believe might require a JHA, it's important to prioritize each
task. To do this, analyze each task to determine their degree of
risk. To determine the degree of risk objectively, it's important
to know what risk is, so let's discuss the concept.
Risk = Probability x SeverityRisk is a function of two
variables: probability and severity. The greater the probability or
severity - the higher the risk.
What is the probability?Probability describes the likelihood
that a worker will be injured or become ill if exposed to a hazard.
Common terms used to describe probability are:
unlikely - Injury from exposure has low probability. Less than
50% chance. likely - Injury from exposure has moderate probability.
50/50 Chance. very likely - Injury from exposure has high
probability. Greater than 50% chance.
What is the severity?Severity is an estimate of how serious the
injury or illness will be as a result of an accident. The severity
of an injury or illness for any given exposure is largely
fortuitous: it's a matter of chance or luck. The common terms used
to describe severity are:
minor - other than serious physical harm that does not prevent
the employee from continuing to work in the same job. serious -
serious physical harm that prevents the employee continuing to work
in the same job. death - fatality
There are many factors that may increase the probability and
severity of an accident. You may need to be able to discuss the
factors that you considered if someone wants you to justify the
particular level of risk at which you arrived. Factors that may
increase the risk inherent in a job include:
The number of employees exposed to hazards The number of hazards
in the procedure
The number of opportunities for unsafe behaviors The frequency
of exposure to hazards The employee's belief about the hazards The
duration of exposure to specific hazards The proximity of employees
to the point of danger The complexity of the procedure Potential
severity of the injury or illness when exposed Unreasonable
workload (physically/mentally incapable of meeting expectations)
Working under distress (hurry, fatigue, illness, personal
problems)
Prioritize Jobs - Worst FirstNow that you have some idea how
much risk is involved in each job, you can prioritize them. As
mentioned earlier, a common strategy is to prioritize the most
hazardous job first. If a JHA is required for many tasks in your
workplace, priority should go to the following types of jobs: 1.
Jobs with the highest injury or illness rates; 2. Jobs with the
potential to cause severe or disabling injuries or illness, even if
there is no history of previous accidents; 3. Jobs in which one
simple human error could lead to a severe accident or injury; 4.
Jobs that are new to your operation or have undergone changes in
processes and procedures; and 5. Jobs complex enough to require
written instructions.
Student Opinion: According to William I., it's important to
understand that all the (potentially) "severe events" should be
addressed first, then down to critical, etc. He has seen many cases
where customers and safety professionals have focused on frequency
issues because there is data to review and success to demonstrate.
Meanwhile they ignore large loss potential events until they occur.
In his opinion, as you address the large loss potential events,
there is corollary benefit to the "less severe but more frequent"
incidents.
What is required?OSHA requires the use of personal protective
equipment (PPE) to reduce employee exposure to hazards when
engineering and administrative controls are not feasible or
effective in reducing these exposures to acceptable levels.
Employers are required to determine if PPE should be used to
protect their workers and have an obligation to provide PPE,
including personal protective equipment for eyes, face, head, and
extremities, and protective clothing and barriers. Employers must
also make sure employees use and maintain PPE in a sanitary and
reliable condition.
What is proper use?Personal Protective Equipment must be worn
and used in a manner that will make full use of its protective
qualities. Low rates of compliance in wearing PPE usually indicate
the safety management system is failing in some way. Any one of the
following root causes may result in general non-compliance: 1. 2.
3. 4. the the the the employer employer employer employer does not
provide quality PPE; does not properly supervise the use of PPE;
fails to enforce the use of PPE; or does not properly train
employees on the use of PPE.
What are the different categories of PPE?Categories of PPE
Face and eye protection Head protection Foot protection Hand
protection Protective clothing Protective ointments Shields
Barriers Restraints
When and where is PPE required?PPE is required wherever the
conditions listed below are encountered that are capable of causing
injury or impairment by being absorbed, inhaled, or physically
contacted.
hazards of processes environment hazards chemical hazards
radiological hazards mechanical irritants
PPE DesignAll personal protective equipment must be of safe
design and construction for the work to be performed.
What should not be worn?The PPE rules require that rings,
wristwatches, earrings, bracelets, and other jewelry must not be
worn if it's possible for it to come into contact with power driven
machinery or electric circuitry. Why this rule? Read how this rule
might have prevented some serious injuries. De-gloving of a finger
caused by a ring. From Bob F. The accident occurred when the
individual was jumping off the side of an Army tow truck. He placed
his hand on the railing of the bed and jumped off. The ring caught
on the side of truck bed. Upon reaching the ground, the ring had
removed all the skin from the finger, leaving the muscles, bone and
fingernail exposed. The individual was rushed to an emergency room
where the finger was inserted into the wall of the stomach area. A
pedicle graft was performed using the skin from the stomach area.
After more than eight operations and over 100 plus days in the
hospital the finger is semi-useable. Nothing but air? NOT! From
Joan R. I took care of a man who got his ring caught on a
basketball hoop as he made a dunk and pulled his whole finger
off---skin, bone, and all at the knuckle: Not a pretty sight.
What about back belts?It's important that you understand that
back belts should not be considered personal protective equipment
in that they physically "protect" you from back injuries. Devices
such as back belts are not recognized by OSHA as control measures
to prevent back injury. While they may be accepted by individual
workers because they feel as if they provide additional support, if
used improperly, they may restrict the body's range of motion and
possibly aggravate other ergonomic stressors in the job. Research
indicates that the primary value in back belts, when used properly,
is that they "remind" the employee to use proper lifting
techniques. As a result, fewer back injuries occur. Thus, OSHA does
not forbid the use of back belts and similar devices, nor does it
endorse their use.
Work ClothingClothing must be worn which is appropriate to the
work performed and conditions encountered. Loose sleeves, ties,
lapels, cuffs, or other loose clothing must not be worn near moving
machinery. Make sure that you immediately remove clothing that
becomes saturated or impregnated with flammable liquids, corrosive
or toxic substances, irritants, or oxidizing agents. Don't wear it
again until it's properly cleaned.
Defective and Damaged EquipmentOf course, defective or damaged
personal protective equipment must not be used. It's important to
inspect PPE regularly, and before each use to make sure it's
capable of adequately protecting an employee from exposure to
hazards. Remember, PPE that is defective...is not PPE.
Hazard AssessmentA first critical step in developing a
comprehensive safety and health program is to identify physical and
health hazards in the workplace. This process is known as a "hazard
assessment." Potential hazards may be physical or health-related
and a comprehensive hazard assessment should identify hazards in
both categories. Examples of physical hazards include moving
objects, fluctuating temperatures, high intensity lighting, rolling
or pinching objects, electrical connections and sharp edges.
Examples of health hazards include overexposure to harmful dusts,
chemicals or radiation. The hazard assessment should begin with a
walk-through survey of the facility to develop a list of potential
hazards in the basic hazard categories below.
Impact Penetration Compression (roll-over), Chemical Heat/cold
Harmful dust Light (optical) radiation Biological contaminants
In addition to noting the basic layout of the facility and
reviewing any history of occupational illnesses or injuries, things
to look for during the walk-through survey include:
sources of electricity; sources of motion such as machines or
processes where movement may exist that could result in an impact
between personnel and equipment; sources of high temperatures that
could result in burns, eye injuries or fire; types of chemicals
used in the workplace; sources of harmful dusts; sources of light
radiation, such as welding, brazing, cutting, furnaces, heat
treating, high intensity lights, etc.; the potential for falling or
dropping objects; sharp objects that could poke, cut, stab or
puncture; and biologic hazards such as blood or other potentially
infectious material.
When the walk-through is complete, the employer should organize
and analyze the data so that it may be efficiently used in
determining the proper types of PPE required at the worksite. The
employer should become aware of the different types of PPE
available and the levels of protection offered. It is definitely a
good idea to select PPE that will provide a level of protection
greater than the minimum required to protect employees from
hazards. The workplace should be periodically be reassessed for any
changes in conditions, equipment or operating procedures that could
affect occupational hazards. This periodic reassessment should also
include a review of injury and illness records to spot any trends
or areas of concern and taking appropriate corrective action. The
suitability of existing PPE, including an evaluation of its
condition and age, should be included in the reassessment.
Controlling HazardsTo control hazards, a hierarchy of controls
has been used as a means of determining how to implement feasible
and effective controls. ANSI Z10-2005, Occupational Health and
Safety Management Systems, encourages employers to employ the
hierarchy of hazard control strategies listed below. 1. 2. 3. 4. 5.
Elimination Substitution Engineering controls Administrative
controls Personal protective equipment
The idea behind this hierarchy is that the control methods at
the top of the list are potentially more effective and protective
than those at the bottom. Following the hierarchy normally leads to
the implementation of inherently safer systems, ones where the risk
of illness or injury has been substantially reduced. Let's take a
closer look at the hierarchy of control strategies. Elimination and
Substitution Elimination and substitution, while most effective at
reducing hazards, also tend to be the most difficult to implement
in an existing process. If the process is still at the design or
development stage, elimination and substitution of hazards may be
inexpensive and simple to implement. For an existing process, major
changes in equipment and procedures may be required to eliminate or
substitute for a hazard. These strategies are considered first
because they have the potential to completely eliminate the hazard,
thus greatly reducing the probability of an accident. Redesigning
or replacing equipment or machinery may be expensive, but remember
that, according to the National Safety Council, the average direct
and indirect cost of a lost work time injury is $34,000 and
$1,115,000 to close a fatality claim. Below are examples of these
two strategies.
Removing the source of excessive temperatures, noise, or
pressure Substituting a toxic chemical with a less toxic or
non-toxic chemical
Engineering Controls Workplace hazards may be corrected using
engineering controls which may be thought of as replacing or
redesigning machinery, equipment, and tools, and/or substituting
materials. When elimination or substitution is not possible,
engineering controls are the "first line of defense" against
injury/illness, because they also have the potential to completely
eliminate a hazard. Elimination, substitution and engineering
controls do not rely on human behavior to be effective. For
instance, rather than requiring employees to wear respiratory
protection which must be monitored, inspected, trained, managed,
it's much more effective to install a ventilation system that does
not require any of those management activities. Administrative
Controls Administrative controls can be accomplished with the
stroke of the pen. It involves changing or redesigning work
procedures, rescheduling breaks, changing the number of workers
doing a job, and using personal protective equipment to reduce the
frequency and duration exposure to the hazards of tasks. Using
administrative controls alone is not as effective as engineering
controls because, in most cases, they only reduce exposure - they
don't eliminate the hazard. And even more importantly,
administrative controls rely on human behavior (which introduces
many variables in the long run) that must be continually managed.
Personal Protective Equipment. The important thing to remember here
is that PPE alone should not be relied on to provide protection
against hazards, but should be used in conjunction with engineering
controls and other administrative controls. That's a lot to
remember, isn't it? Not to worry. You can always refer back to this
information. Time now for your first module quiz. Remember, final
exam questions come from the quizzes, so be sure to complete each
quiz. Just click on the REVIEW QUIZ tab above.
The Five Workplace Hazard CategoriesTo help identify workplace
hazards it's useful to categorize them into easy-to-remember
categories. The first three categories represent hazardous
conditions. According to SAIF Corporation, a major workers
compensation insurer in Oregon, conditions directly account for
only 3% of all workplace accidents. The fourth category describes
employee behaviors in the workplace that may contribute or cause as
much as 95% of all workplace accidents. All four categories
represent the surface symptoms of underlying root causes or safety
management system weaknesses. Take a look at the accident weed to
get a better idea about the relationship between surface symptoms
and root causes for accidents. To remember the four hazard areas,
just remember the acronym,
MEEPS: Materials, Equipment, Environment, People and System.
Let's review these four categories. 1.
Materials. Hazardous materials include hazardous: Liquid and
solid chemicals such as acids, bases, solvents, explosives, etc.
The hazard communication program is designed to communicate the
hazards of chemicals to employees and to make sure they use safe
work practices when working with them. Solids like metal, wood, and
plastic. Raw materials used to manufacture products are usually
bought in large quantities and can cause injuries or fatalities in
many ways. Gases like hydrogen sulfide, methane, etc. Gas may be
extremely hazardous if leaked into the atmosphere. Employees should
know the signs and symptoms related to hazardous gases in the
workplace.
2.
Equipment. This area includes machinery and tools used to
produce or process goods. These examples allHazardous equipment
should be properly guarded so that it's virtually impossible for a
worker to be placed in a danger zone around moving parts that could
cause injury or death. A preventive maintenance program should be
in place to make sure equipment operates properly. A corrective
maintenance program is needed to make sure equipment that is broken
or causing a safety hazard is fixed immediately. Tools need to be
in good working order, properly repaired, and used for their
intended purpose only. Any maintenance person will tell you that an
accident can easily occur if tools are not used correctly. Tools
that are used while broken are also very dangerous.
represent hazardous conditions in the workplace. Hazardous
equipment includes machinery and tools.
3. Environment. This area includes facility design, hazardous
atmospheres, temperature, noise, factors that cause stress, etc.
Are there areas in your workplace that are too hot, cold, dusty,
dirty, messy, wet, etc. Is it too noisy, or are dangerous gases,
vapors, liquids, fumes, etc., present? Do you see short people
working at workstations designed for tall people? Such factors all
contribute to an unsafe environment. 4. People. Unsafe employee
behaviors include taking short cuts or not using personal
protective equipment. Workers who take unsafe short cuts or who are
using established procedures that are unsafe, are accidents waiting
to happen. All of the following situations may cause employees to
be what I call "walking and working hazards"
Working while tire or fatigued. Working under the influence of
drugs or alcohol. Working while being distracted for any reason.
Working while in a hurry. This should be obvious.
5. System. Every company has, do some degree, a safety
management system. Management may unintentionally promote unsafe
behaviors by developing ineffective policies, procedures and rules
(written and unwritten) that ignore safe behaviors or actually
direct unsafe work practices. Safety policies, plans, programs,
processes, procedures and practices are called "Administrative
Controls," and they ultimately represent the causes for about 98%
of all workplace accidents.
hat can you do as a supervisor?As a supervisor, you have some
tools that will help you identify and correct hazards in the four
MEEP areas discussed above.
The Walkaround Safety Inspection
One important activity to ensure a safe work area is to conduct
an effective walkaround safety inspection. If your organization
relies solely on the safety committee to identify workplace
hazards, it's possible the process may be ineffective. The job of
maintaining a safe and healthful work area is a primary
OSHA-mandated employer responsibility, so to be most effective, it
makes sense that the safety inspection responsibility be delegated
to the supervisor. Who, but the supervisor is better positioned to
effectively identify and correct workplace hazards? Remember, as an
agent of the employer, the basic responsibility to inspect the work
area may rest with the supervisor. As you conduct the inspection,
you should be looking at the hazards associated with the four MEEP
categories discussed earlier (materials, equipment, environment,
people). In some instances using an inspection checklist may be a
good idea to make sure a systematic procedure is used. The only
downside from using a checklist regards the "tunnel vision"
syndrome: Hazards not addressed on the checklist may be
overlooked.
Who's doing the inspecting around here?Most companies conduct
safety inspections in compliance with OSHA rule requirements. But,
is that good enough? Safety inspections may be effective, but only
if those conducting the inspection are properly educated and
trained in hazard identification and control concepts and
principles specific to your company. In high hazard industries
which see change on a daily basis, it takes more to keep the
workplace safe from hazards. In world-class safety cultures, all
employees conduct safety inspections of their work areas. They
inspect their areas of responsibility as often as the hazards of
the materials, equipment, tools, environment, and tasks demand.
It's really a judgment call, but if safety is involved, it's better
to inspect often. Employees should inspect the materials,
equipment, and tools they use, and their immediate workstation for
hazardous conditions at the start of each workday. They should
inspect equipment such as forklifts, trucks, and other vehicles
before using them at the start of each shift. Again, it's better to
inspect closely and often. And give the process enough time. One of
the major weaknesses in the inspection process is that we just
don't spend enough time in particular areas to detect all hazards.
Again, we do the "rolling eyeball" as we walk through an area.
How to build an effective safety inspection checklistStep One:
Determine the work area to be inspected, and the type of work being
accomplished. Step Two: Talk with the safety director, workers'
compensation insurer, or OSHA consultant to determine what safety
rules apply to the work area. Obtain copies of the rules. Step
Three: Select the rules that you feel directly apply to your work
area. Many rules may not have significant impact on the work area
you are responsible for. Step Four: Change each selected rule into
a checklist question. Be sure to state the question as concisely as
possible. Step Five: Ask employees who work in the area for
recommended checklist questions. The result of following these
procedures is to build a checklist that closely mirrors those
hazards that OSHA will be inspecting. It might be a good idea to
use an expert resource, such as those listed in Step Two, to
evaluate the checklist you have developed.
Make everyone an inspectorAs a supervisor, you probably don't
want to be the only person inspecting for safety in your work area.
You can, of course, delegate that responsibility to your workers.
But how do you get them to willingly inspect for safety every day?
Simple, (that's right...it doesn't have to be difficult) you set
the example yourself by inspecting regularly, youinsist that they
inspect, and you recognize (thank) your workers for inspecting and
reporting hazards.
What is a workplace emergency?A workplace emergency is an
unforeseen situation that threatens your employees, customers, or
the public; disrupts or shuts down your operations; or causes
physical or environmental damage. Emergencies may be natural or
manmade and include the following:
What is an Emergency Action Plan?The Emergency Action Plan (EAP)
is an "action plan" to organize employer and employee actions
during workplace emergencies. Well developed emergency plans and
proper employee training will result in fewer injuries and less
structural damage to the facility during emergencies. On the other
hand, a poorly prepared plan may lead to a disorganized evacuation
or emergency response, resulting in confusion, injury, and property
damage. Putting together an EAP that deals with those issues
specific to your worksite is not difficult. It involves taking what
was learned from a workplace evaluation and describing how
employees will respond to different types of emergencies. It takes
into account your specific worksite layout, structural features,
and emergency systems. You will find it beneficial to include a
diverse group of representatives (management and employees) in the
planning process and to meet frequently to review progress and
responsibilities. The commitment of all employees is critical to
the plan's success in the event of an emergency so ask for their
help
What are the components of an effective Emergency Action Plan?At
a minimum, the EAP must include the following elements:
Ways to report fires and other emergencies Evacuation procedures
and emergency escape route assignments Procedures to be follow by
those who remain to operate critical plant operations before they
evacuate Procedures to account for all employees after an emergency
evacuation has been completed
Rescue and medical duties for those who are to perform them
Names or job titles of persons who can be contacted for further
information or explanation of duties under the plan
You may find it helpful to also include the following in your
plan:
A description of the alarm system used to notify employees to
evacuate and/or take other actions. Make sure alarms used for
different actions are distinctive. You might include horn blasts,
sirens, or even public address systems. The site of an alternative
communications center to be used in the event of a fire or
explosion; and A secure on- or off-site location to store originals
or duplicate copies of important documents
Do I Need an Emergency Action Plan?Almost every business is
required by OSHA to have an emergency action plan (EAP). OSHA may
require you to have an EAP if: 1. 2. fire extinguishers are
required or provided in your workplace, and anyone will be
evacuating during a fire or other emergency.
The only exemption to this is if you have an in-house fire
brigade in which every employee is trained and equipped to fight
fires, and consequently, no one evacuates. In most circumstances,
immediate evacuation is the best policy, especially if professional
firefighting services are available to respond quickly. There may
be situations where employee firefighting is warranted to give
other workers time to escape, or to prevent danger to others by
spread of a fire. In this case, the employer is still required to
have an EAP.
How do I evaluate my workplace?The best way to protect yourself
and others is to prepare for an emergency before it happens by
doing a thorough assessment of the workplace. Think about possible
emergency situations and evaluate your workplace to see if it is
sufficiently prepared using the following OSHA standards:
Design and construction requirements for exit routes - 29 CFR
1910.36. This standard contains requirements for the design and
construction of exit routes. It includes a requirement that exit
routes be permanent, addresses fire resistance-ratings of
construction materials used in exit stairways (exits), describes
openings into exits, defines the minimum number of exit routes in
workplaces, addresses exit discharges, and discusses locked exit
route doors, and exit route doors. It also addresses the capacity,
height and width of exit routes, and finally, it sets forth
requirements for exit routes that are outside a building.
Maintenance, safeguards, and operational features for exit routes -
29 CFR 1910.37. This standard includes requirements for the safe
use of exit routes during an emergency, lighting and marking exit
routes, fire retardant paints, exit routes during construction,
repairs, or alterations, and employee alarm systems. Emergency
action plans (EAP) - 29 CFR 1910.38. Again, the EAP facilitates and
organizes employer and employee actions during workplace
emergencies. Fire prevention plans (FPP) - 29 CFR 1910.39. The
purpose of the fire prevention plan is to prevent a fire from
occurring in a workplace. It describes the fuel sources (hazardous
or other materials) on site that could initiate or contribute both
to the spread of a fire, as well as the building systems, such as
fixed fire extinguishing systems and alarm systems, in place to
control the ignition or spread of a fire.
How do I evaluate my workplace? (Continued)Below are four
additional OSHA standards that relate to ways to protect yourself
and others during an emergency:
Portable fire extinguishers - 29 CFR 1910.157. Workplace fires
and explosions kill hundreds and injure thousands of workers each
year. One way to limit the amount of damage due to such fires is to
make portable fire extinguishers an
important part of your fire prevention program. When used
properly, fire extinguishers can save lives and property by putting
out a small fire or controlling a fire until additional help
arrives. Fixed extinguishing systems - 29 CFR 1910.160. Fixed fire
extinguishing/suppression systems are commonly used to protect
areas containing valuable or critical equipment such as data
processing rooms, telecommunication switches, and process control
rooms. Their main function is to quickly extinguish a developing
fire and alert occupants before extensive damage occurs by filling
the protected area with a gas or chemical extinguishing agent. Fire
detection systems - 29 CFR 1910.164. Automatic fire detection
systems, when combined with other elements of an emergency response
and evacuation plan, can significantly reduce property damage,
personal injuries, and loss of life from fire in the workplace.
Their main function is to quickly identify a developing fire and
alert building occupants and emergency response personnel before
extensive damage occurs. Automatic fire detection systems do this
by using electronic sensors to detect the smoke, heat, or flames
from a fire and providing an early warning. Employee alarm systems
- 29 CFR 1910.165. The purpose of the employee alarm systems
standard is to reduce the severity of workplace accidents and
injuries by ensuring that alarm systems operate properly and
procedures are in place to alert employees to workplace
emergencies.
Determine specific evacuation routes and exitsMost employers
create maps from floor diagrams with arrows that designate the exit
route assignments. These maps should include locations of exits,
assembly points and equipment (such as fire extinguishers, first
aid kits, spill kits) that may be needed in an emergency. Exit
routes should be clearly marked and well lit, wide enough to
accommodate the number of evacuating personnel, unobstructed and
clear of debris at all times, and unlikely to expose evacuating
personnel to additional hazards. Here are some important
requirements to consider:
Make exit route design permanent. Ensure that the number of exit
routes is adequate based on the number of employees, the size of
the building, its occupancy, and the arrangement of the workplace.
Separate an exit route from other workplace areas with materials
that have the proper fire resistance-rating for the number of
stories the route connects. Ensure that exit routes meet width and
height requirements. The width of exit routes must be sufficient to
accommodate the maximum permitted occupant load of each floor
served by the exit route. Ensure that doors used to access exit
routes have side hinges and swing in the direction of travel
(depending on occupancy and hazard areas). Design exit routes that
lead to an outside area with enough space for all occupants. An
outdoor exit route is permitted but may have additional
site-specific requirements.
Determine specific evacuation routes and exits (Continued)Here
are some more important requirements to consider when developing
effective evacuation:
Maintain the fire-retardant properties of paints and solutions
that are used in exit routes. Ensure that required exit routes and
fire protections are available and maintained, especially during
repairs and alterations. Ensure that employee alarm systems are
installed, operable, and in compliance with 29 CFR 1910.165 (Note:
See Section I.A.5.). Direct employees through exit routes using
clearly visible signs. These signs must meet the required letter
height and illumination specifications. When openings could be
mistaken for an exit, post appropriate signs stating "NOT AN EXIT."
Arrange exit routes so that employees are not exposed to the
dangers of high hazard areas.
Exit routes must be free and unobstructed. Prevent obstructions,
such as decorations, furnishings, locked doorways, and dead-ends
within exit routes.
Procedures for assisting people during evacuationsMany employers
designate individuals as evacuation wardens to help move employees
from danger to safe areas during an emergency. Generally, one
warden for every 20 employees should be adequate, and the
appropriate number of wardens should be available at all times
during working hours. Wardens may be responsible for checking
offices and bathrooms before being the last person to exit an area
as well as ensuring that fire doors are closed when exiting.
Employees designated to assist in emergency evacuation procedures
should be trained in the complete workplace layout and various
alternative escape routes. Employees designated to assist in
emergencies should be made aware of employees with special needs
(who may require extra assistance during an evacuation), how to use
the buddy system, and any hazardous areas to avoid during an
emergency evacuation.
Assembly areas and methods to account for all
employeesAccounting for all employees following an evacuation is
critical. Confusion in the assembly areas can lead to the building,
or unnecessary operations. To ensure the your employees, consider
evacuation. The names and last accounted for should be passed
delays in rescuing anyone trapped in and dangerous
search-and-rescue fastest, most accurate accounting of taking a
head count after the known locations of anyone not on to the
official in charge.
Address how in evacuation and
visitors will be assisted accounted for
Some employers have all visitors and contractors sign in when
entering the workplace. The hosts and/or area wardens, if
established, are often tasked with assisting these individuals
evacuate safely. Reporting Emergencies and Alerting Employees in an
Emergency
Form a Planning Group/Threat Response TeamSuccessful company
violence prevention programs usually start by forming a planning
group that may also act as a threat response team that more
directly response to incidents. The planning group assesses and
evaluates the company's current ability to handle violent incidents
and recommends ways to strengthen its response capability.
Typically, members of a planning group include representatives from
management and labor, and might also include members from the local
community, including:
Human Resources Employee Assistance Program (EAP) Union Safety
Health/Medical Security/Law Enforcement
While many departments may be represented on the planning group,
only a few of them will generally be involved in actually
responding to reported incidents. For example, representatives from
Human Resources, EAP, and Security often make up an incident
response team. Typically, representatives from the other
departments will not be involved in responding directly to
incidents, but they will act as consultants to the incident
response team or play an active role only in certain types of
situations. Staff expertise. Every company will have different
areas of staff expertise. Your company may have employees who have
special skills that could be put to good use in a potentially
violent situation, such as employees who are skilled in mediation,
conflict resolution, crisis counseling, investigations, or threat
assessment. Identifying departments and individuals ahead of time,
working with them in the planning stages, and agreeing on a
coordinated response effort is one of the most effective ways of
preparing your company to handle potentially violent situations
should they arise.
Type I - Criminal Act.This type of violence involves verbal
threats, threatening behavior, or physical assaults by an assailant
who has no legitimate business relationship to the workplace. The
person enters the workplace to commit a robbery or other criminal
act. Violence by strangers accounts for most of the fatalities
related to workplace violence. Workplaces at risk of violence by
strangers commonly include late night retail establishments and
taxi cabs. Road rage is becoming more common as a possible source
of Type I violence affecting workers who drive as a part of their
job.
Type II - Recipient of Service.The person causing violence is
either recipient or object of a service provided by workplace.
He/she is a current or former client, passenger, or customer. Type
II violence involves verbal threats, threatening behavior or
physical assaults by an assailant who either receives services from
or is under the custodial supervision of the affected workplace or
the victim. Assailants can be current or former customers and
clients such as passengers, patients, students, inmates, criminal
suspects or prisoners. The workers typically provide direct
services to the public, for example, municipal bus or railway
drivers, health care and social service providers, teachers and
sales personnel. Law enforcement personnel are also at risk of
assault from individuals over whom they exert custodial
supervision. Violence by customers or clients may occur on a daily
basis in certain industries; they represent the majority of
non-fatal injuries related to workplace violence.
Type III - Employment Relationship.The person has an
employment-related involvement with the workplace:
Job related - a current or former employee who is angry about a
situation. Job related violence involves verbal threats,
threatening behavior or physical assaults by an assailant such as a
current or former employee, supervisor or manager. Any workplace
can be at risk of violence by a co-worker. In committing a threat
or assault, the individual may be seeking revenge for what is
perceived as unfair treatment.
Non-Job related - a person who has a relationship with a current
or former employee. Domestic violence erupting at work is one of
the most common types of workplace violence and involves verbal
threats, threatening behavior or physical assaults by an assailant
who, in the workplace, confronts an individual with whom he or she
has or had a personal relationship outside of work. Personal
relations include a current or former spouse, lover, relative,
friend or acquaintance. The assailant's actions are motivated by
perceived difficulties in the relationship or by psychosocial
factors that are specific to the assailant.
Determining risk factors for workplace violenceThe types of
violence identified in the previous section illustrate different
characteristics of workplace violence and the ways violence may
present itself. The significance of these types is that each
involves somewhat different risk factors and means of preventing or
responding to the potential violent incident. A risk factor is a
condition or circumstance that may increase the likelihood of
violence occurring in a particular setting. For instance, handling
money in a retail service makes that workplace a more likely target
for robbery, the most common kind of violence by strangers in the
workplace. An attorney's office, where all payments are received by
check and money is not directly handled, would not present the same
kind of target and would not be at the same degree of risk of
violence due to the handling of money. Each risk factor only
represents a potential for an increased likelihood of violence. No
risk factor, or combination of risk factors, guarantees that
violence will occur or that its incidence will increase. However,
the presence of the risk factors listed below, particularly of
several in combination, increases the likelihood that violence will
occur.
Do employees have Contact with the public? Does an exchange of
money occur?
*
Is there selling/dispensing alcohol or drugs? What is the nature
of delivery of passengers, goods or services? Is the workplace
mobile? (such as a taxicab or police cruiser) Is there exposure to
unstable or volatile persons? (such as in health care, social
services or criminal justice settings) Do any employees work alone
or in small numbers? Do employees work in high-crime areas.
* *
Do employees work late at night or during early morning
hours?
* * *
Do employees guard valuable property or possessions? Do
employees work in community settings?
Are your employees deciding on benefits, or in some other way
controlling a persons future, well-being, or freedom? (such as a
government agency)
* Identified by NIOSH as risk factor for homicide (CDC/NIOSH
Alert, 1993)
