Читать книгу Risk Assessment - Georgi Popov - Страница 28

1 ANSI B11.0‐2020: Safety of Machinery. B11Standards, POB 690905, Houston, TX 77269, USA, 2020.

2 ANSI/ASSP Z10 – 2019 (2019). Occupational Health and Safety Management Systems. Park Ridge, IL: American Society of Safety Professionals.

3 ANSI/ASSP Z590.3 – 2011 (2011). American National Standard: Prevention through Design: Guidelines Addressing Occupational Hazards and Risks in Design and Redesign Processes. Park Ridge, IL: American Society of Safety Professionals (R2016).

4 ANSI/ASSP Z690 Series (2011). Risk Assessment Techniques. Park Ridge, IL: American Society of Safety Professionals.

5 ANSI/ASSP/ISO 45001 – 2018 (2018). Occupational Health and Safety Management Systems – Requirements with Guidance for Use. Park Ridge, IL: American Society of Safety Professionals.

6 ASSP Risk Assessment Institute and Committee. https://www.assp.org/advocacy/risk‐assessment‐committee

7 Bureau of Labor Statistics Reports on Occupational Fatalities, 2003 through 2016. Washington, DC: Bureau of Labor Statistics.

8 En ISO 12100‐2010 (2010). Safety of Machinery. General Principles for Design. Risk Assessment and Risk Reduction. Geneva, Switzerland: International Organization for Standardization.

9 EPA: Risk Management Programs for Chemical Accidental Release Prevention. http://www.epa.gov/emergencies/content/lawsregs/rmpover.htm

10 EXXONMOBIL’S OIMS. https://corporate.exxonmobil.com/en/energy‐and‐environment/tools‐and‐processes/risk‐management‐and‐safety/operations‐integrity‐management‐system (accessed May 2020).

11 Guidelines for Hazard Evaluation Procedures, Second Edition with Worked Examples. New York: Center for Chemical Process Safety of the American Institute of Chemical Engineers, 1992.

12 ISO 12100‐1 (2003). Safety of Machinery – Basic Concepts, General Principles for Design; Part 1. Basic Terminology, Methodology. Geneva, Switzerland: International Organization for Standardization.

13 ISO 12100‐2 (2003). Safety of Machinery – Basic Concepts, General Principles for Design; Part 2. Technical Principles and Specifications. Geneva, Switzerland: International Organization for Standardization.

14 ISO 14121 (1999). Safety of Machinery – Principles for Risk Assessment. Geneva, Switzerland: International Organization for Standardization.

15 Manuele, F.A. (2020). Advanced Safety Management: Focusing on Z10. 45001 and Serious Injury Prevention, 3e. Hoboken, NJ: Wiley.

16 MIL‐STD‐882E (2012). Standard Practice for System Safety. Washington, DC: Department of Defense. https://www.dau.edu/cop/esoh/DAU%20Sponsored%20Documents/MIL%20STD%20882E%20Final%202012%2005%2011.pdf

17 NIOSH: Howard, John, M.D. eNews Volume 17, Number 11. Science to Assess Workplace Hazards: NIOSH Practices in Occupational Risk Assessment, March 2020.

18 OSHA’s Rule for Process Safety Management of Highly Hazardous Chemicals, 1910.119. Washington, DC: Department of Labor, Occupational Safety and Health Administration, 1992.

19 Prevention and Control Strategies. OSHWIKI at https://oshwiki.eu/wiki/Prevention_and_control_strategies.

20 Risk Management Programs for Chemical Accidental Release Prevention, 40 CFR Part 68. Washington, DC: Environmental Protection Agency, 1996.