Transcript Document
PowerPoint® Presentation Chapter 3 Electrical Safety Electrical Safety • Personal Protective Equipment • Lockout/Tagout • Lockout Devices • Fire Safety • Confined Spaces • Overhead Power Line Safety Chapter 3 — Electrical Safety Article 430 of the NEC® covers requirements for motors, motor circuits, and controllers. Chapter 3 — Electrical Safety Safety labels are used to indicate a situation with different degrees of likelihood of death or injury to personnel. Chapter 3 — Electrical Safety Electrical shock is a condition that results any time a body becomes part of an electrical circuit. Chapter 3 — Electrical Safety Grounding provides a direct path for unwanted (fault) current to the earth without causing harm to individuals or equipment. Chapter 3 — Electrical Safety A GFCI compares the amount of current in the ungrounded (hot) conductor with the amount of current in the neutral conductors. Chapter 3 — Electrical Safety When taking measurements in an electrical circuit, transient voltages can cause electrical shock and/or damage to equipment. Chapter 3 — Electrical Safety The applications in which a DMM may be used are classified by the IEC 1010 standard into four overvoltage installation categories. Chapter 3 — Electrical Safety Motor guards are used for protection from rotating parts of a motor or anything connected to the motor. Chapter 3 — Electrical Safety Personal protective equipment is used to reduce the possibility of an injury. Chapter 3 — Electrical Safety Per NFPA 70E, the type of PPE required depends on the voltage and where work is being performed. Chapter 3 — Electrical Safety The approach boundary is the distance at which PPE is required while working on energized circuits to prevent burns if an arc occurs. Chapter 3 — Electrical Safety Eye protection must be worn to prevent eye or face injuries caused by flying particles, contact arcing, or radiant energy. Chapter 3 — Electrical Safety Hand protection includes gloves worn to prevent injuries to hands caused by cuts or electrical shock. Chapter 3 — Electrical Safety Knee pads are used to provide protection and comfort to technicians who spend considerable time on their knees. Chapter 3 — Electrical Safety Rubber insulating matting provides protection from electrical shock when working on live electrical circuits. Chapter 3 — Electrical Safety Equipment must be locked out and/or tagged out before installation, preventive maintenance, or servicing is performed. Chapter 3 — Electrical Safety Lockout devices are available in various shapes and sizes that allow for the lockout of standard control devices. Chapter 3 — Electrical Safety Lockout/tagout kits comply with OSHA lockout/tagout standards. Chapter 3 — Electrical Safety An oily waste can seals out oxygen to prevent spontaneous combustion. Chapter 3 — Electrical Safety Fire extinguisher classes are based on the combustibility of the material. Chapter 3 — Electrical Safety Article 500 of the NEC® covers hazardous locations. Chapter 3 — Electrical Safety An energized electrical work permit documents all electrical work performed on the premises. Chapter 3 — Electrical Safety Oxygen-deficient atmospheres in confined spaces can cause life-threatening conditions. Chapter 3 — Electrical Safety For maximum safety, procedures for entering a confined space must follow established OSHA standards. Chapter 3 — Electrical Safety Confined space entry permit forms document preparations, procedures, and required equipment.