Concrete Poker Risk Assessment

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Consolidation of concrete with a concrete vibrator The purpose of using a concrete vibrator is to consolidate fresh concrete as it is placed to remove air voids. A concretor or a labourer in the placement of concrete generally operates a concrete vibrator to consolidate it. Tasks associated with the operation of a concrete vibrator to consolidate fresh concrete would include: Assessment of work environment for hazards and risks; Protection of exposed steel reinforcement; Pre-operational inspection of concrete vibrator; Identification of guards fitted to concrete vibrators drive unit; Re-fueling of concrete vibrator drive unit; Operation of concrete vibrator for the consolidation of freshly placed concrete; Handling of cementitious materials e.g. concrete; Working at heights whilst vibrating concrete; Establishment of working platforms e.g. scaffolding; Hazardous manual tasks with the operation of a concrete vibrator; Selection of personal protective equipment (PPE); How to conduct a hazard identification of the task being performed; How to assess the risk to workers handling and operating a concrete vibrator in the consolidation of freshly placed concrete. Online SWMS/JSA safe work method statement subscription service WHS compliance has never been easier with your safe work method statement or job safety analysis prepared by ex WHS Qld Government Workplace Health and Safety Inspectorate in consultation with Industry OHS Representatives to comply with Work Health and Safety Legislation, Codes of Practice, Industry Standards and Australian Standards. As a subscriber to a WHS online safe work method statement SWMS or job safety analysis JSA you and your employees can: Access and view the work method statement, swms or jsa real time from any web capable device e.g. mobile phone, tablet, laptop, etc (for best results we recommend using the web browser Safari); and Print the safe work method statement, swms or jsa sign off sheet and approval form including change management approval in a pdf format or hard-copy via the print option; and Email the safe work method statement, swms or jsa notification advising a principal contractor, PCBU's and workers as to any specific controls to be implemented at a workplace for which the swms or jsa relates to; and Never worry again about amendments, updates and versions; and WHS maintain one controlled version of the safe work method statement or job safety analysis online as part of our continual improvement process; and That means there can be no confusion as you and your employees are all using the same safe work method statement, swms or jsa at the same time, leaving you to concentrate on your business. How do you access and implement the safe work method statement or job safety analysis? To get you online, working, implementing and demonstrating safety compliance management, it's as easy as: Log in via a mobile phone using your username and password; Complete and email the safe work method statement, swms or jsa notification with user access to a principal contractor, PCBU's and workers for a specific workplace; and That's it unless you need to print the sign off sheet, hazard and risk controls or change management approval form.

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Example Safe work method statement / job safety analysis for using a concrete vibrator

The sample safe work method statement is an extract of the first two identified health and safety hazards for the operation and use of a concrete vibrator.

• The business logo and administrative details you provide at time of purchase shall replace those that you see in the sample safe work method statement/job safety analysis.

Concrete Burns. Sand contained in fresh concrete is abrasive to bare skin. Portland is an alkaline. Strong bases (ph of 12-13) are just as hazardous as strong acids to the skin but have no initial signs of pain such as a burning sensation. Drying Portland is hygroscopic – it. Concrete Pouring Risk Assessment Concrete gets into eyes from the last point of hoses There are chances to fall from mesh which might injury your hand, ankles, arms, legs, etc. Since, the concrete and aggregate comes out with high pressure, so if it will touch the human skin then skin will get burned or get rashes.

Using a concrete vibrator safe work method statement

RISK ASSESSMENT IN THE CONSTRUCTION PROJECTS Construction workers build, repair, maintain, renovate, modify and demolish houses, office buildings, temples, factories, hospitals, roads, bridges, tunnels, stadiums, docks, airports. Concrete and terrazzo finishers Awkward postures. Glaziers Awkward postures Insulation workers Synthetic. CJR Concrete Pumping Pty Ltd believes that this Risk Assessment (RA) is compliant with the OHS Act 2000, OHS Regulations 2001, NSW Environmental Legislation, Department of Environment and Conservation “EPA” NSW Regulations, NSW Work Cover Authority Codes of Practice, relevant Australian Standards and applicable statutory requirements. If the Concrete Trowel Machine is to be operated in a dangerous or hostile environment, the user/client is responsible for conducting an appropriate risk analysis and applying suitable controls to mitigate those additional risks This instruction should be read in conjunction with the Risk Assessment procedure for the Concrete Trowel Machine.

Risk/outcome	Implementation of controls
Consultation not undertaken with workers as to the safe method of operating a concrete vibrator for the consolidation of concrete.	Workers shall be exposed to risk of death, serious injury or illness where the consolidation of concrete with a concrete vibrator is performed or undertaken incorrectly. Sustainable injuries/illnesses would include but not be limited to: First aid medical treatment for cuts and abrasions; Loss of limb; Skin penetrating injuries; Crushing injuries; Musculoskeletal injuries; Permanent disability; and Respiratory disease.	The consolidation of concrete with a concrete vibrator shall be undertaken in accordance with any manufacturers instruction and any instructions provided by Electrical Plumbing Group .	Electrical Plumbing Group has a duty to ensure the health and safety of themselves, workers and other persons. Workers consolidating concrete using a concrete vibrator shall be provided information, instruction, training and supervision as to the correct method of operating a concrete vibrator in the consolidation of freshly placed concrete. Consultation Consultation shall occur between line management, workers and health and safety representatives as to the safe method by which to operate a concrete vibrator for the consolidation of freshly placed concrete. The process of consultation shall assess hazards generated from vibrating freshly placed concrete with a concrete vibrator and take into consideration: Could an alternative means of consolidating freshly placed concrete be used with less risk to the user; Selection of the concrete vibrator e.g. type, vibrator shaft size, etc shall be dependant upon task to be performed; Pre-operational inspection and fueling of a concrete vibrator drive unit; Handling and operation of a concrete vibrator in the consolidation of freshly placed concrete; Contact with cementitious materials in the finishing of concrete and cleaning of concrete vibrator; Working at heights, prevention of persons and concrete vibrator falling; Environmental hazards and risks to workers e.g. steel starter bars; Are persons at risk of serious injury when using a concrete vibrator vibrating concrete? Hazardous manual tasks associated with the handling and operation of a concrete vibrator in the consolidation of freshly placed concrete. Electrical Plumbing Group shall make a safe work method statement prepared for the operation of a concrete vibrator in the consolidation of freshly placed concrete available for perusal by workers. Following the implementation of controls the risk should reduce to:
Risk/outcome	Implementation of controls
Introduction of hazards generated from the operation of a concrete vibrator in the consolidation of freshly placed concrete as a result of implementing proposed control measures.	Workers shall be exposed to risk of death, serious injury or illness where hazards are created as a result of implementing proposed control measures. Sustainable injuries/illnesses would include but not be limited to: First aid medical treatment for cuts and abrasions; Loss of limb; Lacerations; Skin penetrating injuries; Crushing injuries; Musculoskeletal injuries; Permanent disability; and Respiratory disease.	Control measures as per the hierarchy of controls shall be developed and implemented where additional hazards are generated as a result of consolidating concrete with a concrete vibrator.	Electrical Plumbing Group shall ensure hazards generated from the consolidation of concrete with a concrete vibrator are identified with the hazard controlled. Control measures To prevent risk of death, serious injury or illness to workers and other persons, the person with management or control of the works shall ensure: The risk of death, serious injury or illness resulting due to the conduct of the task is assessed to determine a persons exposure; Control measures to eliminate or minimise the risk of death, serious injury or illness to persons shall be developed in consultation with workers; Control measures as per the hierarchy of controls shall be implemented to prevent, or minimise a persons level of exposure to risk of death, serious injury or illness; Workers consolidating concrete with a concrete vibrator shall be trained as to the implementation of any new controls and informed as to the hazard notification process should additional hazards be identified. Following the implementation of controls the risk should reduce to:

Concrete Poker Risk Assessment Strategies

Additional hazards and risks with operating and using a concrete vibrator Additional hazards and risks identified with the operation and use of a concrete vibrator for which control measures have been developed as per the risk identification process include: Workers operating a concrete vibrator to consolidate concrete without having been involved in the planning process. Exposed steel reinforcement bars. Working with faulty, defective or non-compliant plant. Alteration or modification of concrete vibrator. Guards not fitted or installed to a concrete vibrator drive unit. Operation of concrete vibrator without conducting a pre-operational inspection. Operation of a concrete vibrator for the consolidation of fresh placed concrete. Refueling of concrete vibrator drive unit. Exposure to cementitious materials whilst consolidating concrete using a concrete vibrator. Working at a height when operating a concrete vibrator. Hazardous chemicals and products associated with the operation and maintenance of a concrete vibrator. Handling and operation of a concrete vibrator by a worker for the consolidation of freshly placed concrete. Workers not provided with the required personal protective equipment and having not received instruction as to method by which to wear an article of PPE. Training not provided to workers on how to use a concrete vibrator in the performance of a task. Housekeeping of a workplace not undertaken and/or no areas assigned for the storage of materials and plant. Workers not advised of specific controls to be implemented to ensure compliance with Work Health and Safety Legislation, Codes of Practice and Standards. Performance of tasks and activities undertaken in connection with the operation of a concrete vibrator. Failure to monitor the implementation of control measures. How do you keep employees and clients current and up to date? Simple each user be they an employee, contractor or client is assigned a unique username and password to access the controlled version for the operation and use of a concrete vibrator jsa/swms online. Each user can access and view the online swms/jsa from a web capable device e.g. mobile phone with their username and password. Line management personnel can access and print the safe work method statement/job safety analysis and online jsa/swms forms. Line management personnel can send an swms/jsa email notification to a principal contractor, pcbu's and workers advising as to the details of the workplace, principal contractor, commencement and completion dates, person with management or control and any specific controls to be implemented when using a concrete vibrator. Users are notified of an amendment to the job safety analysis/work method statement via the online ohs diary and email notification. As a WHS online safe work method statement or job safety analysis subscriber WHS shall: Create a group user account for your business and assign the user access required by you and your employees. Insert your company logo and business details throughout the online safe work method statement, swms or jsa for the purpose of work health and safety compliance. Notify you if the work method statement or job safety analysis or it's safe operating procedures or methods are amended. Ordering is simple Add the safe work method statement, job safety analysis or safe operating procedure and any additional swms's, jsa's or sop's you require to the shopping cart. Follow the checkout process, ensuring you attach your company logo in a high resolution JPEG format for inclusion in the online safe work method statement/job safety analysis. Complete your order and payment process. A Tax Invoice will be forwarded to the email address you provide. Upon receipt of payment notification WHS shall: Send you an email requesting any additional information we may require to create your group registration. Within 2 hours, customise your online safe work method statement/job safety analysis to incorporate your company logo and relevant business details, and create the required subscriber user access and email details of usernames and passwords to you. Where our workload is excessive we reserve the right to extend this time frame to 24 hours. 100% Money back guarantee!! If you find a more comprehensive online safe work method statement, job safety analysis, safe operating procedure, SWMS, JSA or SOP accessible online, able to be printed and offers an email notification service from any web capable device, and you provide evidence of such we will refund your purchase.

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Building Assessment, Restoration, and Demolition
Roof Inspection, Tarping, and RepairActivity Description

• The hazards outlined in this activity sheet apply to experienced inspectors and construction workers performing roofing work (removal, repair, or installation of roofing materials such as shingles, tile, and tar paper). For some operations or situations, other activity sheets also apply; see related activity sheets below. The hazards outlined in this activity sheet also apply to personnel installing plastic sheeting/tarps on roofs or sections of roofs damaged (e.g., blown away, punctured) by high winds from hurricanes or tornados.
• High winds damaged roofs in all regions impacted by Hurricanes Katrina and Rita (2005). Each damaged roof must be inspected and then either repaired or replaced to prevent further damage to the structure. This activity is a routine part of recovery from any natural disaster involving high winds.
• Plastic sheeting is often installed to temporarily patch roofs when permanent repairs cannot be made immediately. During the first 100 days following Hurricane Katrina, the U.S. Army Corp of Engineers oversaw the installation of blue plastic sheeting/tarps on over 107,000 roofs. This specialized and focused work is often done quickly to minimize damage to the structure and its contents.
• Subsequent activities can involve replacing a few tiles, recovering the entire roof, or completely rebuilding the roof deck and everything above it.
• Roof inspection, repair, and replacement generally require workers to mount ladders or scaffolding to reach the roof. Once they are on the elevated surfaces, they handle materials and operate nail guns or power tools. They might also use saws or pruning shears to size the furring strips typically used to secure tarps. Depending upon the roof and roofing material, the surfaces can be steep, slippery, and/or deteriorating. Any work on roofs typically must be performed in full sun and near the utility/power lines attached to the structure.
• Roofing materials used for hurricane recovery activities vary by type of structure and the extent of the damage. Activities can involve plastic sheeting, asphalt shingles, tar paper and tiles.
• Response and recovery workers conducting this operation may be employed by Federal, State, local, and private employers. Review How to Use This Matrix in the introduction for a discussion of how this information may apply to different workers.
  

Personal fall protection systems are a critical component of protection during installation of roofs. This activity sheet describes the use of two types of personal fall protection systems: 1) fall restraint systems and 2) fall arrest systems. Both types involve a body harness that is connected by a lanyard to an anchor point, but these fall protection systems vary in how they function. With a fall restraint system the length of the lanyard and other system components hold the individual on the roof. Even if he or she trips, the individual cannot drop past the edge of the roof. The more common fall arrest system differs in that it allows the worker a longer lanyard and more freedom of movement, but this means that it could be possible for a falling individual to drop several feet off a roof before being stopped by the system. As a result, the lanyard and anchor for a fall arrest system must include special features. To protect the individual as the lanyard stops the fall, the fall arrest components must be stronger—anchorage points must be able to support 5,000 pounds. The height of the worker, the stretch of the shock absorber and the length of the lanyard must all be taken into consideration when rigging a fall arrest system to prevent a falling individual from hitting the ground or other objects (e.g., vehicles in driveways).

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About the Activity Sheet
This activity sheet does not provide an in-depth analysis of OSHA standards and regulations and cannot address all hazards. It does not increase or diminish any OSHA requirement or employer obligation under those requirements. It is intended as a guide and quick reference for employers and response and recovery workers. The Matrix captures major activities involved in hurricane response and recovery, highlights many of the hazards associated with them, and recommends beneficial work practices, personal protective equipment (PPE), and other exposure control methods. Employers must evaluate the specific hazards associated with the job/operation at the site where the work is being performed.
Employers are responsible for providing a safe and healthful workplace for their workers. OSHA's role is to assure the safety and health of America's workers by setting and enforcing standards; providing training, outreach, and education; establishing partnerships; and encouraging continual improvement in workplace safety and health.
The Hazard Exposure and Risk Assessment Matrix for Hurricane Response and Recovery Work provides a general overview of particular topics related to current OSHA standards. It does not alter or determine compliance responsibilities in OSHA standards or the Occupational Safety and Health Act of 1970, or the equivalent State Plan standards and requirements. Because interpretations and enforcement policy may change over time, you should consult current OSHA/State Plan administrative interpretations and decisions by the Occupational Safety and Health Review Commission and the courts for additional guidance on OSHA compliance requirements. Employers should modify their procedures as appropriate when additional, relevant information becomes available.

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Concrete Poker Risk Assessment Scoring

Activity-Specific Sampling and Monitoring Information

• Fall protection concerns were found at over three-quarters of the work sites OSHA observed. Safety-monitoring systems were not established and fall protection (harnesses, lanyards, lifelines, connectors, anchorages, and anchorage points) was not used or was used improperly where this equipment was required.
• Other common concerns included improper use of ladders and scaffolds, PPE issues, and electrocution and shock hazards from power lines and power tools. PPE was either not being worn when needed, or the PPE selected did not provide adequate protection.
• For safety and health monitoring data and sample results, see the Summary of Activity Sampling Data and Safety and Health Monitoring Information.
  

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General Recommendations
Key Engineering Controls and Work Practices. See general recommendations document.
Personal Protective Equipment.The general PPE is recommended for all response/recovery tasks/operations; only the additional PPE that may be needed for a specific hazard is noted below.
General PPE includes:

• Hard hat for overhead impact or electrical hazards
• Eye protection with side shields
• Gloves chosen for job hazards expected (e.g., heavy-duty leather work gloves for handling debris with sharp edges and/or chemical protective gloves appropriate for chemicals potentially contacted)
• ANSI-approved protective footwear
• Respiratory protection as necessary—N, R, or P95, filtering facepieces may be used for nuisance dusts (e.g., dried mud, dirt and silt) and mold (except mold remediation). Filters with a charcoal layer may be used for odors.
  

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Recommendations Specific to Hazards Associated with Roof Inspection, Tarping, and Repair

Concrete Poker Risk Assessment Tool

FALLS FROM HEIGHTS
Key Engineering Controls and Work Practices
Follow these guidelines during residential roofing repairs using plastic sheeting, shingles, or tar paper:

• Limit access/set up controlled access zones
• For roofing work on low-slope roofs (slope less than or equal to 4 in 12 (vertical to horizontal)) with unprotected sides and edges 6 feet or more above lower levels,
• workers must be protected from falling by guardrail systems, safety net systems, or personal fall arrest systems; or a combination of warning line system and guardrail system, warning line system and safety net system, warning line system and personal fall arrest system, or warning line system and safety monitoring system
• on roofs that are 50 feet or less in width, using a safety monitoring system alone is permitted
• For roofing work on steep pitched roofs (slope greater that 4 in 12 (vertical to horizontal)) with unprotected sides and edges 6 feet or more above lower levels, workers must be protected from falling by guardrail systems with toeboards, safety net systems, or personal fall arrest systems
• Cover or guard holes and openings as soon as they are created. Covers must support two times the weight (body, equipment, materials) that may be imposed. Permanently mark covers over holes 'Danger - Roof Opening' or 'Hole'
• When installing plastic sheeting on roofs, permanently mark areas where structural support is inadequate 'Danger - No Step'
• Control access both outside and inside the structure. Keep occupants out of spaces where roofs are being worked overhead
• Note: Slide guards may be used to augment any of the conventional fall protection systems
• Note: There is a presumption that it is feasible and will not create a greater hazard to implement at least one of the above-listed fall protection systems. Accordingly, the employer has the burden of establishing that it is appropriate to implement a fall protection plan which complies with 1926.502(k) for a particular workplace situation, in lieu of implementing any of those systems. This option is available only to employees engaged in leading edge work, precast concrete erection work, or residential construction work (See 1926.501(b)(2), (b)(12), and (b)(13)) who can demonstrate that it is infeasible or it creates a greater hazard to use conventional fall protection equipment.

Additional Personal Protective Equipment

• Personal fall arrest system including harnesses, lanyards, lifelines, connectors, anchorages, and anchor points (as needed)
  

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IMPROPER LADDER OR SCAFFOLD USE
Key Engineering Controls and Work Practices

• Inspect ladders for cracked, broken, or defective parts before use
• Do not exceed the load rating of ladders or scaffolds—remember that load ratings include people, tools, and equipment
• Set up ladders and scaffolds on stable surfaces
• Set extension or straight ladders at a 75 degree angle from the ground (1/4 foot back for every foot of rise) and provide 3 feet above an upper landing surface to ease climbing onto/descending from height
• Use non-conductive ladders (e.g., fiberglass) and exercise extreme caution when working near power lines
• Secure ladders that can be displaced by work activities; consider barricades at the base to keep traffic away
• Have a competent person inspect scaffolds before use. A competent person is able to recognize existing and predictable hazardous conditions and has the authority to take prompt corrective measures to eliminate the hazardous conditions
• Ensure that the scaffold is plumb, and braced and guyed to prevent tipping, swaying, and displacement
• Ensure that the scaffold is built on base plates and mud sills or other firm foundations. Footings should be able to support the scaffold without settling or moving. Do not use unstable objects to support scaffolds
• Fully plank each scaffold on all working levels. For wood planking, use wood graded for the intended load
• Provide guardrails or fall protection systems on platforms 10 feet or higher

Additional Personal Protective Equipment

• Fall arrest systems on platforms without guardrails 10 feet or higher
  

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CONTACT WITH DOWNED LINES AND LIVE ELECTRICAL EQUIPMENT
Key Engineering Controls and Work Practices

• Assume that electrical lines are energized until proven otherwise. Lines and other conductors may become re-energized without warning as utilities are evaluated and restored after a disaster
• Inspect the work area for downed conductors and do not go near, drive over, or otherwise come in contact with them
• Downed electrical conductors can energize other objects, including fences, water pipes, bushes, trees, and telephone/CATV/fiber optic cables
• Unless deenergized and visibly grounded, maintain proper distance from overhead electrical power lines (at least 10 feet) and/or provide insulating barriers
  

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GENERAL HEAVY EQUIPMENT OPERATION
Key Engineering Controls and Work Practices

• See Heavy Equipment and Powered Industrial Truck Use activity sheet
• See Crane Use activity sheet
• See Use of Aerial Lift activity sheet

Additional Personal Protective Equipment

• Hearing protection—see Noise hazard
• When working from an aerial lift, use a body harness that is properly attached (or body belt for tethering or restraint use only) for fall protection
  

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POWER AND HAND TOOL USE
Key Engineering Controls and Work Practices

• Use ground-fault circuit interrupters (GFCIs) or double insulated power tools, or implement an assured equipment grounding program
• Inspect power tool condition (including any cords) and verify operation of safety features before use
• Do not use equipment that is defective, such as equipment with inoperable safety switches, missing guards, frayed/cut cords etc.
• Ground power tools properly
• Avoid standing in wet areas when using portable power tools

Additional Personal Protective Equipment

• Hearing protection—see Noise hazard
• Hand protection for cut- and abrasion-control and vibration dampening
• Eye protection appropriate to the impact hazard
  

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IMPACT HAZARD FROM NAILS/FLYING OBJECTS
Key Engineering Controls and Work Practices

• For pneumatic nailers, assure that the safety device on the muzzle is operational
• See general recommendations document

Additional Personal Protective Equipment

• Eye protection appropriate to the impact hazard
  

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NOISE
Key Engineering Controls and Work Practices

• Place generators, compressors, and other noisy equipment at a distance or behind a barrier when possible

Additional Personal Protective Equipment

• Hearing protection when working around potential noise sources and when noise levels exceed 90 dBA. A useful 'rule of thumb'-if you cannot hold a conversation in a normal speaking voice with a person who is standing at arms length (approximately 3 feet), the noise level may exceed 90 dBA
  

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SLIPS, TRIPS, AND FALLS
Key Engineering Controls and Work Practices

• Select tarps constructed of sheeting that is non-reflective and has a textured surface to reduce slips
• Watch for tripping hazards from power tools, generators, and compressors used
• Use caution when walking on tarps; keep surfaces dry; if damp (e.g., from rain, dew or fog) allow them to dry before walking on them
• See general recommendations document

Additional Personal Protective Equipment

• Consider the use of flat-soled ANSI-approved slip-resistant safety shoes (e.g., deck shoe or sneaker style) instead of work boots
  

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MANUAL MATERIAL HANDLING
Key Engineering Controls and Work Practices

• For tarps, make sure that the tarp roll is secure before lifting it up onto the roof; consider using more that one person or lifting equipment to lift tarp to the roof, if necessary
• Take care when unrolling the tarp onto the roof surface
• See general recommendations document
  

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CHEMICAL AND MATERIAL STORAGE AND USE
Key Engineering Controls and Work Practices

• Segregate and store incompatible chemicals separately. For example, store solvents and oxidizers (e.g., peroxides) separately, and acids and caustics separately
• Secure compressed gas cylinders and ensure that they are stored properly when not in use (regulators off and valve caps on when not in use; separate oxygen and fuel gas by 20 feet or using a non-combustible barrier (5 ft high, fire-resistant rating of at least ½ hour))
• Store chemicals in containers approved and designed for chemical storage and mark all storage locations
• Store and handle hazardous materials in areas with natural or forced ventilation; do not store or handle in low-lying areas
• Isolate, secure and identify storage areas
• Prohibit smoking near storage areas
• Keep ignition sources at least 25 feet away from storage areas
• Ensure that fire extinguishers and extinguishing agents are available in the immediate area
• Bond and ground containers before dispensing flammable liquids. Reference 29 CFR 1926.152(e)(2)

Additional Personal Protective Equipment

• Gloves made of material that will protect user from chemicals handled
• Face shield or goggles with indirect venting. If a face shield is selected, eye protection must be worn under the face shield
• Coveralls or apron resistant to chemicals being handled
• Disposable boot covers resistant to the chemicals being handled
• A respirator and cartridges specific for chemical, as necessary
  

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GENERATOR USE
Key Engineering Controls and Work Practices

• Never attach a generator directly to the electrical system of a structure unless a qualified electrician has installed a transfer switch for the generator. If the structure's electrical system is not isolated, it may energize the utility's wiring system for great distances and create a risk of electrocution for utility workers and others in the area
• Always plug electrical equipment directly into the generator using the manufacturer's supplied cords or grounded (3-pronged) extension cords that are rated for the total anticipated load
• Do not overload a generator; it can overheat and create a fire hazard
• Ground and bond generators according to the manufacturer's recommendations; ensure that any manufacturer-required connections are secure before using the generator
• Keep the generator dry; protect with a canopy if needed; do not use it in wet or rainy conditions
• Carbon monoxide (CO) is a poisonous, colorless, and odorless gas that is produced by the incomplete burning of the generator's fuel. CO is harmful when breathed because it displaces oxygen in the blood and deprives the heart, brain, and other vital organs of oxygen
• Never use a generator indoors or in enclosed spaces such as garages and basements; opening windows and doors may not prevent CO from building up in those spaces. Do not use a generator outdoors near doors, windows, and vents that could allow CO to enter
• Ensure that a generator has 3 to 4 feet of clear space on all sides and above it to ensure adequate ventilation and cooling
• Before refueling, shut down the generator and allow it to cool

Additional Personal Protective Equipment

• Hearing protection—see Noise hazard
  

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DISCOVERY OF UNKNOWN CHEMICALS
Key Engineering Controls and Work Practices

• If hazardous chemical containers are found or leaking materials are detected:
• Do not use spark-producing devices (e.g., engines, tools, electronic, and communications equipment) in the immediate area
• Take self-protective measures (i.e., move to a safe distance upwind) and contact hazardous material response personnel for evaluation/removal before continuing work in the area

Additional Personal Protective Equipment

• Evaluate the need to revise protective clothing, respirator, and glove selection
  

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OTHER POTENTIAL HAZARDS

Select any of the following potential hazards that can be associated with this activity in order to access relevant recommendations in the general recommendations document:

• Environmental hazards
  • Animal/insect bites
    

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Additional Medical Needs

• Follow medical guidance and precautions outlined in the general recommendations document.
  

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Additional Training Needs

• Follow general site- and task-specific training guidelines as outlined in the general recommendations document.
• Train workers who may be exposed to fall hazards to recognize the hazards of falling and to follow the proceduresin place to minimize these hazards, as specified in 29 CFR 1926.503.
  

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Related Activity Sheets

• Use of Aerial Lift
  

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Other Resources and References

• 29 CFR 1926 Subpart M, Fall protection. OSHA.
• 29 CFR 1926 Subpart I, Hand and power tools. OSHA.
• 29 CFR 1926 Subpart X, Ladders. OSHA.
• 29 CFR 1926 Subpart L, Scaffolds. OSHA.
• Falls. OSHA Fact Sheet, (2016).
• Working Safely Around Downed Electrical Wires. OSHA Fact Sheet, (Publication 3941), (2018).
• Using Portable Generators Safely. OSHA Fact Sheet, (2005).

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