Sunday, 17 December 2023

Protect Yourself on Excavation Sites

 

Protect Yourself on Excavation Sites


Protect Yourself on Excavation Sites


1. OSHA requires a competent person to be on-site when doing excavations. That person must be able to recognize hazards that exist and hazards that could occur, and that person must have the authority to take action to correct those conditions. S/he must also inspect the excavation, the surrounding areas, and the protective systems every day before the start of work.

 ISO 45001 OHSMS Awareness


2. For all excavations and trenches deeper than 5 feet, but less than 20 feet deep, you must use one of three methods:

 

a. Sloping or benching. Sloping involves cutting back the sides of the trench to a safe angle, so it won’t collapse. Benching is a variation that adds a series of benches (steps) that also approximate the safe sloping angle. The angle that you use for sloping depends on the soil type. Soil types are:  Solid rock, Type A, Type B and Type C (which is the least stable). However, using a cutback slope of 1-1/2 feet horizontal to 1 foot vertical is a safe sloping angle for all soil types. Note: Type C soil can only be sloped: it’s too unstable to be benched. 

 Carbon Monoxide Safety

b. Trench box or shield: Although these are NOT designed to prevent cave-ins, they should protect workers within the structure if a cave-in occurs.

 

c. Shoring: 

These are structures built of timber, or they can be mechanical or hydraulic systems, that support the sides of an excavation. Sheeting is a type of shoring that keeps the earth in place.

 

3. With shoring and shielding, workers are only protected as long as they stay within the confines of the system.

Safe Electrical Safety Practices

4. If the competent person sees signs of a possible cave-in, even at depths less than 5 feet, one of the protective systems must be used.

 

5. If the excavation is more than 20 feet deep, a professional engineer must design the system to protect the workers.

 

6. A ladder, stairway or properly designed ramp is required in any trench 4 feet or deeper at least every 25 lineal feet of the trench. It’s best to have one at each end of an excavation.

 

7. A competent person must determine the type of soil (Solid Rock, Type A, Type B, Type C) by using at least one visual and one manual test. This must be done before anyone enters the excavation.

 Earthquake Safety Manual

8. Hazardous atmospheres can sometimes be a danger in excavations. Air Testing is done in the following order, and hazards can include:

● Oxygen-deficient atmospheres can asphyxiate (suffocate) you. You need at least 19.5 percent oxygen. Normal level is 20.9 percent.

 

● Flammable gases or vapors, that reach a certain concentration known as their Lower Explosive Limit (LEL), can lead to fires and explosions. In Excavations, you can’t exceed 20 percent of the LEL. (In Confined Spaces – a different standard – it’s 10 percent of LEL.)

 HAZCOM | Hazard Communication 

Standard Pictogram


● Toxic gases or vapors can poison you, leading to death or serious health problems. Don’t exceed Permissible Exposure Limits (PELs).

 

9. Remember: CALL BEFORE YOU DIG. 

Call to contact your local one-call service several days before you dig, to locate and mark with proper color codes all underground utilities. These could be: electrical, gas, water, sewer, steam, chemical and telecommunications. You must take additional precautions when reaching marked locations.

 

10.  BEWARE – SOIL IS VERY HEAVY! 

Some types of soil can weigh around 3,000 pounds (that’s 1.5 tons!) for every cubic yard. Don’t take chances – make sure a competent person has put a protective system in place before you start work.

 How to Manage Workplace Stress



 

 

 

 




Sunday, 10 December 2023

CONFINED SPACE ENTRY

 

CONFINED SPACE ENTRY



Confined Space

A “confined space” is any work area which is not intended for continuous worker occupancy, and has, by design, structure, location, limited or restricted entry and/or exit and may contain or produce dangerous accumulations of hazardous gases, vapors, mists, dusts, fumes or biological agents and enrichment of, or lack of, oxygen in the confined space.

Entry into a Confined Space

Entry into a confined space is defined as the action by which a person passes through a limited opening into a restricted or potentially hazardous work area. Entry is considered to occur as soon as any part of the entrant’s body breaks the plane of the entry point into the confined space.

Competent Worker

- Adequately qualified, - Suitably trained, - With sufficient experience;,

What is Lockout Tagout

Lifting Incident - What would you say on this...

Hazards

Anything, by its nature that will or may, endangers the safety or health of a worker.

Hazards may include;

Toxic vapors, mists, or dusts from welding, cleaning, or powder coating.

Explosive atmospheres.

Lack of Oxygen, causing asphyxiation.

Electrical shock from powered tools or lights.

Physical hazards such as slipping or falling.

Entering a confined space without testing the atmosphere.

Leaking cutting/welding hoses inside the confined space.

Improper use, or not using, Personnel Protective Equipment.

Noise

Temperature extremes.

Insufficient rescue equipment or procedures.

Not following confined space entry procedures.


Why We Need to Do Workplace Safety Risk Assessment


Responsibilities

Supervisor

The supervisor in charge of the area for which the confined space entry will occur, is responsible to ensure that all preparations are in place for the safe entry of any worker.

Ensure workers involved in the confined space are trained in the conditions of

entry and the nature of any hazards they may be exposed to.

Ensure the appropriate PPE is available and in good working order.

Ensure rescue procedures, equipment and trained rescue personnel are in place.

Ensure a Confined Space “Safe Entry Tag” is completed.

Identify the “Class” of Confined Space.

Assign a safety watch person on the outside of the tank.

Periodically check the confined space entry jobs to ensure all Health & Safety procedures are being followed.

To immediately shut down any unsafe confined space entry job.

Safe Electrical Safety Practices

Worker and any other Personnel entering the Confined Space

The worker prior to entering the confined space will ensure that all necessary precautions and procedures are in place to their satisfaction and then sign the Confined Space “Safe Entry Tag”.

Will wear all Personal Protective Equipment assigned to them, to ensure their safety and health according to the hazards of the confined space job.

Will inspect and use equipment and tools required to do the jobs inside the confined space, according to safe work practices and procedures.

Will monitor conditions inside the confined space and if conditions should change inside that are not accounted for on the “Safe Entry Tag” they will discontinue the work and exit the confined space until the new hazards have been addressed.

 Causes of Cave-ins

Safety Watch

The qualified Safety Watch will ensure that all conditions on the “Safe Entry Tag” are complied with, prior to allowing anyone into the confined space.

Ensure all of the names of workers who will enter the confined space are on the “Safe Entry Tag”.

Will establish the communication system to be used with those workers who will enter the confined space.

Will know the location of the Confined Space Entry Rescue equipment.

Will sound the emergency alarm should workers inside the tank need to be rescued.

** Safety Watch personnel will never enter the confined space for any reason.

Compressed Gas Cylinder Safety


Rescue Personnel

Only workers properly trained and equipped for confined space rescue shall attempt a rescue by entering a confined space.

A gas test of the confined space atmosphere must be done prior to any rescue personnel entering a confined space.

When workers in a confined space are wearing a safety harness and lanyard,

Rescue Personnel can work from the outside, without having to enter the confined space.

Rescue Personnel must be physically capable of carrying out a rescue, and must be trained in First Aid/CPR.

Communications must be available at the worksite to emergency response organizations i.e.; Fire Department, Ambulance.

 Know about the NFPA 704 Standard


 

 


Saturday, 2 December 2023

ABRASIVE WHEEL SAFETY

 

ABRASIVE WHEEL SAFETY



Hazards

Workers using hand and power tools may be exposed to these hazards:

Objects that fall, fly, are abrasive, or splash.

Harmful dusts, fumes, mists, vapors, and gases

Frayed or damaged electrical cords, hazardous connections, and improper grounding

Vibration and impact

Electrocution (PAT TESTING)

 

 What is Machine Guarding? Part 2



Earthquake Safety Manual


Accidents

Contact Injuries 60%:

Touching wheel, burns, cuts, gashes, possible

Amputations, inadvertent, behavioral.

These can be prevented by training in the correct use.

 

Eye Injuries 30%:

Caused by lack of eye protection –

Must be impact 1grade Goggles or Full-face visor Grade 1B

These injuries can be prevented by wearing the correct PPE and deploying the

guard/deflector as trained

 

Burst Wheels 10%:

Various Causes, Manufacturing defect, incorrect use, behavioral, incorrect disc for application of work.

 

Safe Electrical Safety Practices


Control Measures

Guarding is provided to contain fragments of the wheel that might fly off if it did burst so preventing injury to the user and others in the workplace.

The guards secondary use is deflection of the debris and sparks away from the operator.

Operators suitably trained in the correct handling and mounting of abrasive wheels (This is for portable grinders only)

Correct mounting will reduce the risk of bursting.

Use the double insulated body machines only.

 

Abrasive Wheel Use

To prevent cracking:

Fit the wheel freely on the spindle.

Tighten the spindle nut enough to hold the wheel in place without distorting the flange with spanner.

Let the tool come up to speed prior to grinding or cutting.

Don’t stand in front of the wheel as it comes up to full speed.

Use eye and/or face protection.

Ensure to do the pre inspection of machine, wheel and all the Personal Protective Equipment's.

 

 How to Manage Workplace Stress


Power Tools - Precautions

Disconnect tools when not in use, before servicing and cleaning, and when changing accessories.

Keep people not involved with the work away from the work.

Secure work with clamps or a vise, freeing both hands to operate the tool.

Don’t hold the switch button while carrying a plugged-in tool.

Keep tools sharp and clean.

Remove damaged electric tools & tag them: “Do Not Use”.


Remember User Inspections

Portable Handheld Grinders

Inspect grinder housing to ensure no cracking/breakage.

Ensure that the cable is free from cracking/burning/broken sheath and that the plug is in good condition.

Must be 110 volts & Pat Tested

Discs inspected and in good condition (correct disc speed for grinder)

Second Handle fitted.

No exposed wires or lacerations on the cable

 

 Construction Workplace Safety | Do & Dont Cartoons for Training



 How to Conduct a Workplace Risk Assessment



 



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