Electrical Safety for Residential Construction Susan B. Harwood Grant Training Program

1. Electrical Safetyfor Residential ConstructionSusan B. Harwood Grant Training Program Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

2. Disclaimer/Usage Notes • Photos shown in this presentation may depict situations that are not in compliance with applicable OSHA requirements. • It is not the intent of the content developers to provide compliance-based training in this presentation, the intent is more to address hazard awareness in the residential construction industry, and to recognize the overlapping hazards present in many construction workplaces. • It should NOT be assumed that the suggestions, comments, or recommendations contained herein constitute a thorough review of the applicable standards, nor should discussion of “issues” or “concerns” be construed as a prioritization of hazards or possible controls. Where opinions (“best practices”) have been expressed, it is important to remember that safety issues in general and construction jobsites specifically will require a great deal of site- or hazard-specificity – a “one size fits all” approach is not recommended, nor will it likely be very effective. Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

3. Disclaimer/Usage Notes • No representation is made as to the thoroughness of the presentation, nor to the exact methods of remediation to be taken. It is understood that site conditions vary constantly, and that the developers of this content cannot be held responsible for safety problems they did not address or could not anticipate, nor those which have been discussed herein or during physical presentation. It is the responsibility of the employer, its subcontractors, and its employees to comply with all pertinent rules and regulations in the jurisdiction in which they work. Copies of all OSHA regulations are available from your local OSHA office, and many pertinent regulations and supporting documents have been provided with this presentation in electronic or printed format. This presentation is intended to discuss Federal Regulations only - your individual State requirements may be more stringent. • It is assumed that individuals using this presentation or content to augment their training programs will be “qualified” to do so, and that said presenters will be otherwise prepared to answer questions, solve problems, and discuss issues with their audiences. Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

4. Disclaimer/Usage Notes • Areas of particular concern (or especially suited to discussion) have additionally been marked with a ? symbol throughout the program…as a presenter, you should be prepared to discuss all of the potential issues/concerns, or problems inherent in those photos particularly. Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

5. It’s Just Electricity • Most people assume that electrical power is relatively harmless • Yet many people are killed each year • Most deaths involve 110 volt power Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

6. Temporary Power • Electrical shocks due to temporary power and cords can be controlled by • Ground Fault Circuit Interrupters (GFCI) • Covers on electrical equipment Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

7. Temporary Power • Electrical shocks due to temporary power and cords can be controlled by • Ground Fault Circuit Interrupters (GFCI) • Covers on electrical equipment Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

8. GFCI Systems • GFCI’s don’t eliminate electrical shock, • They reduce the magnitude and duration • At 5 milliamps (mA) or less (Magnitude) • In 1/40th of 1 second (Duration) • They terminate the flow of electricity • But what is a milliamp? Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

9. Amps and Milliamps • One milliamp is one amp divided by 1000 1A/1000=1mA • One mA is an electrical tingle • Similar to touching your tongue to a weak 9 volt battery • Through our skin, it is barely perceptible Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

10. GFCI Systems • At 10 mA nerve impulses are overridden by electrical impulses • This causes us to “grasp and not let go” • Even when we want to let go of a wire Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

11. GFCI Systems • At 70 to 120 mA • The heart goes into ventricular fibrillation • The heart is not able to pump blood • Must be restarted by an Automatic External Defibrillator (AED) Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

12. Dry vs Wet and Ohms Law • If our body is dry the electrical resistance is approximately 100,000 Ohms Using Ohms Law 120volts/100,000 Ohms equals 1.2 mA and is just a tingle Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

13. Dry vs Wet and Ohms Law • If our body is wet the electrical resistance is approximately 1000 Ohms Under Ohms Law 120/1000 Ohms equals 120 mA and is enough to cause ventricular fibrillation Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

14. GFCI Systems • Most circuit breakers are 15 to 20 amps • This is 1500 to 2000 times the energy needed to cause ventricular fibrillation • GFCI systems trip at 5 mA to avoid ventricular fibrillation • This gives us a safety factor of 2 • GFCI systems will not prevent electrocution in a direct short Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

15. GFCI Systems • GFCI’s measure amperage on both the HOT and NEUTRAL of an electrical circuit • Since AC voltage is balanced, both hot and neutral amperage should be the same • If the imbalance is 5 mA or more • The GFCI trips, protecting the worker from shock Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

16. GFCI Systems • When GFCI’s trip repeatedly, the cause is often equipment related • Damaged extension cords often have internal damage, that allow ground faults Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

17. GFCI Systems • Replacing the GFCI will not fix the problem • Replace the damaged tool or cord Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

18. GFCI Systems • GFCI systems must be tested DAILY before use • Use the test button on the device • Use a tool to assure the power stops • GFCI’s can be wired incorrectly Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

19. Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

20. GFCI Systems • Have a qualified electrician check GFCI systems periodically Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

21. Overhead Power • Regulations require we keep 10 feet or more from overhead power lines • This includes; • Backhoes • Forklifts • Cranes • Pier drilling rigs • Concrete pump trucks Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

22. Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

23. Overhead Power • Regulations require grounding and barriers or blankets to cut off power Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

24. Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

25. Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter

26. Questions? • Answers to additional questions can be found in the following source materials • 29 CFR 1926 Construction Regulations • NEC (National Electric Code) Developed under an OSHA Susan B. Harwood Grant, #46F4-HT01, by the Associated Builders and Contractors-Central Texas Chapter