01-12-2012, 05:03 PM
electrical
ElectricalPPTGI.ppt (Size: 3.79 MB / Downloads: 22)
introduction
This module addresses OSHA’s General Industry electrical standards contained in 29 CFR 1910 Subpart S. OSHA also has electrical standards for construction and maritime, but recommends that employers in these industries follow the general industry electrical standards whenever possible for hazards that are not addressed by their industry-specific standards.
Suitability of electrical equipment for an identified purpose may be evidenced by listing or labeling by a nationally recognized testing laboratory which makes periodic inspections of equipment production and states that such equipment meets nationally recognized standards or tests to determine safe use in a specified manner.
The Lockout/Tagout (LOTO) standard, 29 CFR 1910.147, is not covered in this presentation. However, you can find information on the Lockout-Tagout Interactive Training Program, under “OSHA Advisors” on the OSHA web site, www.osha.gov.
Electricity is one of the most common causes of fire in homes and workplaces. Explosions have also resulted from electrical sources.
Resistance
- Dry skin has a fairly high resistance, but when moist, resistance drops radically, making it a ready conductor.
- Measured in ohms.
Use extra caution when working with electricity when water is present in the environment or on the skin. Pure water is a poor conductor, but small amounts of impurities, such as salt and acid (both are contained in perspiration), make it a ready conductor.
Grounding is a physical connection to the earth, which is at zero volts.
Electricity travels in closed circuits, and its normal route is through a conductor. Electric shock occurs when the body becomes a part of the circuit. Electric shock normally occurs in one of three ways - when an individual is in contact with the ground and contacts:
1. Both wires of an electric circuit, or
2. One wire of an energized circuit and the ground, or
3. A metallic part that has become energized by contact with an energized conductor. The metal parts of electric tools and machines may become energized if there is a break in the insulation of the tool or machine wiring. A worker using these tools and machines is made less vulnerable to electric shock when there is a low-resistance path from the metallic case of the tool or machine to the ground. This is done through the use of an equipment grounding conductor—a low-resistance wire that causes the unwanted current to pass directly to the ground, thereby greatly reducing the amount of current passing through the body of the person in contact with the tool or machine.