Posts Tagged ‘ hazard controls ’

Unsafe Action to Leave Forklift Machine Running

unsafe-act-forklift

Forklift Operation

A day ago, I found an unsafe action relation with forklift operation that I have never thought it before. When I was inspecting preparation work before product delivery, a forklift driver left the forklift machine running while it was holding 2 tons of hazardous material. The forklift driver was doing another job at an area about 10 meters away from the forklift.

At least two hazards that I was immediately thinking about. First, if the forklift fails to hold the load then the hazardous material will be spilled out. Second, if the forklift accidentally moves it will strike something or somebody in front of it. (more…)

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How to Find Information in MSDS in Minutes

how-to-read-msdsMSDS or Material Safety Data Sheet is a form of hazard controls. It is devoted to control chemical-related hazards. MSDS is classified into administrative control in hazard control hierarchy. Each hazardous chemical shall be completed with its MSDS.

MSDS is divided into several sections. MSDS contents may differ slightly from one organization to another organization. But they must contain the same basic information. They include hazardous chemical ingredients, health effect, exposure limit, physical and chemical properties and special control methods.

To find out information we require in MSDS, refer to the following section for quick reference. (more…)

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Steps in Risk Assessment

Having finished hazard identification or hazard recognition work, the next step we shall do is to perform risk assessment. According to hse.co.uk, a risk assessment is simply a careful examination of what, in your work, could cause harm to people, so that you can weigh up whether you have taken enough precautions or should do more to prevent harm.

Risk assessment is used for determining priorities in risk control. It means that high risk work or situation will be addressed first and those with low risk level will be considered afterwards.

Now we are going to talk about steps in risk assessment. Follow these steps one by one and finish step 1 before going down to the next step. (more…)

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12 Confined Spaces Hazards

confined-spaces1Confined space is one of the most deadly spaces in the workplaces. It is because of confined spaces contain many potential hazards and have restricted exits way.

Related to confined spaces, OSHA requires that:
a. All confined spaces in the workplaces shall be identified.
b. Confined spaces shall be treated as hazardous until proven.
c. All confined space hazards shall be identified.
d. Appropriate response should be given to these hazards before entry.

Confined space hazards can be classified into hazardous atmosphere, physical hazard, chemical contact hazard and biological hazard. The hazard list below is hazards that are commonly identified in a confined space.

  1. Oxygen rich (greater than 23.5%). This condition will introduce fire or explosion, especially when flammable vapor exists. So never use pure oxygen for ventilating a confined space. Use normal air supply only.
  2. Oxygen deficient (less than 19.5%). Oxygen deficient or lack of oxygen can cause unconsciousness to death. Oxygen concentration in a confined space can be declined due to nitrogen intrusion, welding, grinding, oxidation, sandblasting or coating.
  3. Oxygen and the existence of flammable vapors or gases can create flammable atmosphere. Chemical reaction and concentration of combustible dust may also create flammable atmosphere.
  4. Toxic atmosphere. It is introduced when a toxic chemical or gas is stored in a tank/holder, when carbon monoxide or hydrogen sulphide is produced through decomposition or work being done in the confined space.
  5. Corrosive atmosphere. Hydrochloric acid and ammonia are examples of chemicals that can build up a corrosive atmosphere.
  6. Physical configuration hazards. The use of ladder and scaffolding, wet surface, uneven bottom, bends in tunnels, narrow area or poor lighting can cause physical hazards to the workers inside confined spaces.
  7. Mechanical hazards. Mixing vessel, which is equipped with blades, can introduce mechanical hazard when workers come into the confined space (mixing vessel). Including in mechanical hazard is falling object.
  8. Surface hazard, for instance slips and falls.
  9. Noise hazards. Grinding work inside a confined space can result high level noise.
  10. Vibration hazards.
  11. Engulfment hazards. Engulfment hazard may happen when worker is entrapped by content of the confined space.
  12. Temperature hazards. Cold temperature and heat create temperature hazard inside a confined space.

Always bear in mind that hazards identification shall be finished before entering a confined space. Then, provide appropriate hazard controls to these potential hazards afterward.

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Safety Tips on Compressed Gas Cylinders

compressed-gas-cylinders-safetyCompressed gas cylinders have to be handled properly. Otherwise, associated hazards such as fall, fire, explosion or hazardous gas leakage may happen. That’s why a safety guide on compressed gas cylinders handling is vitally important.

Here are some safety tips on how to handle gas cylinders safely:

  • Compressed gas cylinder should be kept in a special room, fenced and locked.
  • Authorized and trained workers can only have access to the gas cylinders room.
  • Protect gas cylinder against mechanical damage, by using appropriate racks or other means to hold them securely.
  • When the gas cylinder is not used, valve caps should always be in place.
  • To move the gas cylinders manually use sturdy hand trucks, which can hold one or two gas cylinders.
  • Do not handle gas cylinder with electromagnets, ropes or slings.
  • Put appropriate label and symbol on the cylinders, which describes content and pressure.
  • Do not allow cylinders to direct sunshine or expose to high temperature (>52degC).
  • Keep flame away from contact with cylinder surface.
  • Keep flammable materials away from the cylinders.
  • Use suitable piping, valves, fittings and others apparatus for the contained gas and pressure.
  • Make sure we have provided valves, regulators and safety relief devices.
  • Always open cylinder valve slowly to wide-open position.
  • Maintain gas cylinder and its accessories in good condition.
  • Never use defective safety relief device and leaked cylinder. Mark it and separate from the good ones.
  • Separate and mark empty gas cylinders from the stock.
  • Do not accept gas cylinders without clear gas name and good gas cylinder condition.
  • Calculate exactly your compressed gas consumption. It is unsafe to store many compressed gas cylinders for 1 year consumption.

Compressed gas cylinder is a typical source of hazards found in chemical plants. So take it into account when we will do hazard identification task. And the above safety tips are forms of hazard controls.

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Hazard Control Methods

hazard-contols In the previous post, we had talked about hazard control hierarchy. Now we are going to talk about each hazard control method in more detail and show up examples of their implementation.

Hazard Elimination

Hazard elimination is the process of removing the hazards completely from the workplaces. The hazards are not present anymore. That’s why hazard elimination is the most effective method in controlling hazard. Whenever possible use this method to control hazards.

An example of hazard elimination is to design a low-temperature and pressure reaction conditions instead of the high-temperature and pressure condition. High temperature hazard is completely removed and over-pressure condition will no longer exist.

Another example of this is using automatic mode operation rather than manual operation. So that hazards that are associated with manual operation removed to zero level. Elimination of hazards is usually performed at the design or preparation phase and implemented at the source of hazards.

Hazard Reduction

Hazard reduction is the effort to reduce or lessen hazard level from the workplaces to an acceptable level. In this case hazards are still present. It is generally chosen whenever hazard elimination is not feasible.

Hazard reduction is implemented during the design phase and in some cases as a result of evaluation on the existing equipments, jobs, tasks or activities. An example of this is to substitute a hazardous chemical with a less hazardous chemical.

Engineering Control

Including in engineering control are isolation, ventilation, containment and process control. Engineering control deals with the design of workplaces and their related processes.

Isolation of the hazards may come in the form of machine guard, blast shield, welding curtains and hot surface insulation. Exhaust fan that removes catalyst dust and hazardous chemical vapor from a building are examples of hazard control by ventilation, where at the same adds fresh air into that building. Another example of ventilation is fume hood inside the laboratory room.

In case of containment, hazards are enclosed by using enclosed cabs, enclosing noisy equipment, providing a noise-insulated work booth and installation of silencer at the discharge pipe of a compressor.

Process control is the most common hazard control method in chemical plant operation, such as isolation by interlock and safety valve to prevent over pressure.

Administrative control

Administrative control is selected when elimination and substitution is not feasible, and engineering control could not provide adequate control on hazards. Typical examples of administrative controls are provisions of operation procedures, safety signs, safety talks, setting up new safety policies, scheduling working hour to limit exposure to the hazard, implementing job rotation, work permits, alarms and training.

Personal Protective Equipment

Personal protective equipment provides a barrier between workers and the chemical, material, hot surface or noise. As I mentioned in my previous post about personal protective equipment video, it includes respirators, goggles, hand gloves, face shields, hard hat, ear plug and footwear.

Personal protective equipment shall be used when hazard elimination, reduction and engineering control are not feasible, and the administrative control could not provide sufficient additional safety protection.

The above hazard control methods can be applied in combination one with another in order to provide the most effective hazard control.

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Why We Should Follow Hazard Control Hierarchy

hazard-control-hierarchyHazard recognition-hazard control-and hazard assessment cycle is an ongoing process and should be improved continuously. Identified hazards are useless unless followed up and appropriate controls are provided. Hazard control ideally could eliminate hazards from the sources.

However, not all hazard controls have same capability in eliminating, reducing or controlling hazards. Some hazard controls are powerful than others. What we have to do is following hazard control hierarchy, which is mentioned below, ensuring that we have tried the most effective method to eliminate hazards.

1. Hazard elimination
2. Hazard reduction
3. Provide engineering controls
4. Using administrative controls
5. Wearing Personal Protective Equipment (PPE)

Don’t try to jump to the lower hazard control in the above hierarchy when we are attempting to choose hazard control. We have to start from number 1, 2 and up to 5. Hazard control number 2 to 5 could not eliminate the hazards and it means the hazards still exist.

If hazard elimination, reduction and engineering control are not feasible, implementing administrative control, such as providing SOP, and appropriate personal protective equipment would be the choices. Next, we should evaluate their effectiveness on controlling hazards.

In the next post, we will learn in more detail about the 5 hazard control methods above.

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