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WISHA Confined Spaces Standard
Confined Spaces – Part 1 An Overview of the WISHA Confined Spaces Standard
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Purpose of This Module This two-part module provides basic information for employers about the hazards of confined spaces, how to control these hazards and what WISHA requirements apply when employees enter confined spaces. Some employers may elect to contract out confined space work. In those cases, employers are obligated to fully inform contractors of the confined space hazards at their facilities. This overview does not replace the confined spaces standard. For the complete WISHA confined space rule requirements, see Confined Spaces Chapter Part M.
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Confined Spaces Overview
Part 1 of this overview will cover the following: How to identify a confined space, Confined space hazards, How to control or eliminate the hazards.
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What is a confined space?
Identifying the space What is a confined space? A confined space is an enclosed space that: is large enough to get whole body inside, is not designed for human occupation, has limited or restricted entrance or exit. It must have all three characteristics to be a confined space.
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Identifying Confined Spaces
Examples of confined spaces Manholes & Sewers Tanks Boilers Grain storage bins Other examples include vaults, pipelines, tank cars, and ship holds
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Hazards of Confined Spaces
Basic Principles Confined spaces can be deadly. Some confined spaces are more hazardous than others. Confined space conditions can change rapidly from no hazards to life-threatening hazards. Some confined spaces are so hazardous, a written permit system is required for entry. The hazards of confined spaces can often be controlled or eliminated before entering. For a description of an actual confined space fatality, click here.
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Hazards of Confined Spaces
What are the main hazards of confined spaces? Hazardous atmospheres Engulfing materials Entrapment Moving parts Electricity
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Hazard of Confined Spaces
When is a confined space so dangerous a written entry permit system is required? When there is an actual or potential “hazardous atmosphere” or when the space contains loose material that can engulf a person, or when the space is configured in a way that can trap a person, or when there is any other recognized serious safety and health hazard.
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Hazard Identification
A “hazardous atmosphere” in a confined space has one or more of the following: Flammable gas, mist or vapor Flammable dusts Oxygen content below 19.5% or above 23.5% Air contaminant concentrations that would cause death, incapacitation, or permanent health problems You must do air monitoring to determine if a hazardous atmosphere exists.
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Hazard Identification
Hazardous Atmospheres – Flammable Gases, Vapors and Dusts Flammable gases, vapors or dusts will ignite from a spark or flame if above a level in the air called the “lower flammable limit” (LFL). Gas or vapor levels higher than 10% of the LFL are considered hazardous and the confined space cannot be entered until levels are reduced. Amounts above 10% of the LFL are usually toxic as well. Flammable atmospheres can include methane, or vapors in fuel storage tanks. Certain dusts like grain or flour are also flammable. LFL is sometimes called “LEL” – “lower explosive limit”
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Hazard Identification
Example of flammable gas levels - Methane Air 100% Air 0% Too Lean Too Rich Boom! Methane 0% Methane 100% Hazard still exists above UEL 5.3% LFL 15.0% UFL An open flame or a spark will cause an explosion when methane amount is between 5.3% and 15%, the upper flammable limit (UFL).
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Hazard Identification
Hazardous Atmospheres – Oxygen Deficiency A reduction in oxygen is caused by tank rusting, microbe activity, or replacement by another gas. Lack of oxygen can cause a person to immediately collapse and die. Normal air contains 21% oxygen. A space with oxygen content below 19.5 % is considered “oxygen deficient”. 19.5% 21% 0% Oxygen content Oxygen deficiency exists
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Hazard Identification
Effects of Oxygen Deficiency % Oxygen Symptoms 19.5% - 16% Fatigue, mild impaired coordination 16% - 12% Increased breathing rate and pulse; impaired coordination, perception or judgment 12% - 10% Further increased breathing rate, blue lips, mental confusion 10% - 8% Fainting, nausea, vomiting, mental confusion within few minutes 8% - 6% Collapse, death within 8 minutes 6% - 0% Coma within 40 seconds, death Using an “inerting gas” like nitrogen, to counteract flammable vapors will result in an oxygen deficiency.
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Hazard Identification
A word about oxygen-enriched atmospheres A confined space with oxygen amount above 23.5% is considered “oxygen-enriched”. The source of extra oxygen is typically from leaking oxygen cylinders used for oxy-acetylene torches. Oxygen above 23.5% is a fire or explosion hazard. Green tanks contain oxygen
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Hazard Identification
Hazardous Atmospheres – Toxic Chemicals At very high levels, most chemicals in the air can be immediately life-threatening or cause permanent bodily harm. At lower levels, chemicals in the air can still cause harm. PEL Most chemicals have “permissible exposure limits” (PELs) which will cause harm if exceeded. Even non-toxic or low-toxic chemicals can replace oxygen if levels are high enough.
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Hazard Identification
Hazardous Atmosphere – Toxic Chemicals The most common toxic chemicals in confined spaces fatalities are hydrogen sulfide and carbon monoxide. Other toxic chemicals can include welding fumes, vapors from liquid residues in storage tanks, or chemical products used in the confined space. Chemicals can quickly reach toxic levels in the air of a confined space, especially gases, solvent vapors or sprayed products.
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Hazard Identification
Hazardous Atmospheres–Hydrogen Sulfide (H2S) Hydrogen sulfide gas is commonly found in sewers. It can be instantly fatal at higher levels in a confined space. Disturbing sewage sludge can release more hydrogen sulfide gas. 30 100 200 600 1000 2000 H2S in ppm Smell strong odor Loss of smell Coughing,red eyes Unconscious in 30 min. Death in minutes Instant collapse
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Hazard Identification
Hazardous Atmospheres – Carbon Monoxide (CO) Carbon monoxide comes from operating internal combustion engines in or near confined space. Propane-powered engines also emit carbon monoxide. Fatal levels of CO are quickly reached in confined spaces. Propane-powered manlift in a large tank The PEL for CO is 35 ppm. To see the effects of CO, click here
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Hazard Identification
What are the Hazards of Engulfing Material? Engulfing materials include liquids or loose solids such as grain, sand or other granular material. People cannot escape when caught in moving loose solids and usually suffocate. Workers often get engulfed when in-feed or out-feed lines are inadvertently opened or activated.
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Hazard Identification
What is Entrapment? The space is configured in a way that can trap a worker, for example, sides sloping towards the center Gravel hopper with sloping internal sides
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Hazard Identification
Other Recognized Hazards Electrical lines, steam lines or hydraulic lines Mechanical hazards (moving parts) Hazards caused by the work (welding, painting etc.)
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Controlling the Space The hazards of a confined space can be be controlled in the following ways: Prevent employee entry. Remove or reduce hazards in the space first, before a person enters. If hazard cannot be controlled, you must use a written permit system to enter safely. See Part 2 for more information on a written permit system.
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Warning employees and controlling access
Controlling the Space Warning employees and controlling access Post warning signs at the entrance of confined spaces. Limit employee access to confined spaces by using entry barriers or locks. Make sure that unauthorized workers do not enter the confined space.
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How To Control Hazardous Atmospheres
Hazard Control How To Control Hazardous Atmospheres Drain or pump out liquid contents, if any. Blank off all in-feeding lines. Air test and ventilate. Continue ventilating constantly. If possible, remove any sludge from outside the confined space. Exit space if conditions deteriorate.
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Hazardous Atmospheres Dangers
Hazard Control Hazardous Atmospheres Dangers It is difficult to eliminate hazardous atmospheres in most sewers lines. Tank sludge or sewer sludge can release toxic gases during cleanup. Toxic or flammable gases can exist in pockets or layers.
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How To Eliminate Physical Hazards
Hazard Elimination How To Eliminate Physical Hazards Lock-out moving parts Blank or block steam pipes and product in-feeding pipes. De-energize electrical parts or wiring
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If Hazards Can’t Be Eliminated
If hazards cannot be completely eliminated, there are only two options: a complete written permit system, or “alternate procedures.” Both require training of employees. See Part 2 for more information on entry procedures.
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Additional Information
More information is available on WISHA webpage This presentation is just an overview and does not cover all requirements. For more information on how to put together a confined space program for your workplace, go to: For additional assistance, you can call one of our consultants. Click below for local L & I office locations: Link to appendices and any other good information
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Confined Space Quiz Question 1
Which of following are considered confined spaces? A sewer manhole A sub-basement vault with only one door A 20 foot deep ditch A 30-gallon drum a) Is the correct answer. b) is not correct because access is not restricted c) is not correct because ditches are covered by other standards d) is not correct because it would be difficult to get the whole body inside and does not have restricted entrance.
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Confined Spaces Quiz Question 2
When can a hazardous atmospheres be fatal? When there is not enough air When there is 2% methane When there is 10% oxygen When there is no ventilation is incorrect, because it is too vague b) is incorrect, although entry is still not allowed because it is over 10% of the LFL of 5.3% c) is correct d) would be correct in some situations. Ventilation is always a good idea, and required in many cases.
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Confined Spaces Quiz Question 3
Which of the following is not a good way to control hazardous atmospheres? Ventilate for two hours before entering Drain or pump out liquid contents Air test and ventilate continuously Remove any sludge from outside the space a) Is the correct answer. Ventilating for only two hours without air monitoring will not assure control of hazardous atmospheres.
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