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Published byCeline Jess Modified over 10 years ago
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Richard (Rick) Elwell Senior Operations and Safety Instructor and Consultant 419-961-8814 rjelwell@lpmgmtservices.com
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Explain how training can save your company money. Discuss proper safety guidelines while placing a work area in an electrically safe condition and restoring equipment to operation, including PPE Selection and the Live-Dead-Live process. Explain safety concerns while troubleshooting and the proper safety techniques for live diagnostic testing: – Voltage measurements – Current Measurements – Insulation Testing Discuss Effective Troubleshooting Techniques using a Systematic Troubleshooting Approach
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Electrical Safety training can save lives by: – Regularly reinforcing safe work practices – Providing employees with the information needed to keep them safe – Helping to reduce the risk of electrical-related accidents
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Initial insurance costs for medical treatment and disability payments. Indirect costs for investigation, production loss, overtime, replacement of equipment impact to site from a loss of experienced employee(s).
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Minimize the potential loss of critical equipment through operational and technical training by: – Creating a more efficient operator/technician with the ability to understand system response and quickly restore system redundancy and reliability – Reducing the potential for personnel (human) error which can lead to unexpected loss of up-time – Eliminating guessing (Easter Egging while troubleshooting) which often leads to replacement of the wrong component, resulting in reduced part replacement costs
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Lock-Out/Tag-Out and check equipment de- energized whenever: – Ohmmeter readings are taken – Connecting clamp-on ammeter probes – Disconnecting or reconnecting wires – Replacing an electrical component – Performing visual inspections and/or adjustments inside electrical enclosures
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… of stored energies. – During the LOTO process, safety discharge capacitors whenever present. Do not rely of bleeder resistor circuits. – If troubleshooting removable ACB-type circuit breakers, discharge closing springs.
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The appropriate level of shock/Arc Flash PPE is required. – Use installed Arc Flash Labels – Or NFPA 70E PPE Selection Tables Energized work permits are not required for diagnostic testing and troubleshooting.
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Do not reclose breaker or replace fuse(s) unless: – It is known to be caused by an overload condition – Circuit has been inspected for down-stream shorts.
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Daily by user = once per shift, unless damage is expected Visual and Air Check
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14 Pressure Waves 200 lbs/sq inch Copper Vapor: Solid to Vapor Expands by 67,000 times Molten Metal Extremely High Temps 15,000- 35,000 °F Shrapnel @700 mph Sound Waves 135+ decibels at 2ft Intense Light
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Boundaries should be set around the work area to prevent: – unqualified workers from coming into contact with live parts. – Injury to those not in the appropriate level of PPE. – Protect the worker 15
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Note: shock boundaries dependent on system voltage level. For <600V the Limited Approach Boundary is 3.5 ft. Equipment Prohibited Shock Boundary:Authorized Qualified Persons Only. PPE as if direct contact with live parts. Restricted Shock Boundary:Authorized Qualified Persons w/PPE Limited Shock Boundary:Authorized Qualified Persons w/PPE. Unqualified allowed only when conducting OJT and accompanied by a qualified person
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Flash Protection Boundary (FPB) – @ 1.2 Cal/cm2 Equipment Must wear appropriate PPE FPB based on available fault current and duration if an Arc Flash Analysis was performed. Values are listed on AF Label attached to equipment.
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This incident energy exposure level shall be based on the working distance of the employees face and chest areas from a prospective arc source for the specific task to be performed. 480V MCC
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Know meter functions and how it is protected. Know how to selected the right meter and its limitations: – Always use CAT 3 (or higher) meter. – A low-budget meter may kill you. Know how to use a device to verify the absence of voltage, including interpreting indications/readings. Inspect meters for safe use.
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Conduct a Live-Dead-Live Test – Check meter on a know live source – Test the equipment (6-point check) Each Phase-to-phase Each Phase-to-Ground – Recheck meter on a know live source
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7-Step Troubleshooting 1. Preparation 2. Observation 3. Defined problem area 4. Identify possible and probable causes 5. Test 6. Repair/replace and confirm 7. Follow-up
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Questions?
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