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Process Safety Management of Highly Hazardous Chemicals

Process Safety Management of Highly Hazardous Chemicals. Nancy J Bethea. Process Safety Management (PSM). Is the proactive identification, evaluation and mitigation or prevention of chemical releases that could occur as a result of failures in processes, procedures, or equipment. Purpose.

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Process Safety Management of Highly Hazardous Chemicals

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  1. Process Safety Managementof HighlyHazardous Chemicals Nancy J Bethea

  2. Process Safety Management (PSM) Is the proactive identification, evaluation and mitigation or prevention of chemical releases that could occur as a result of failures in processes, procedures, or equipment.

  3. Purpose • Prevent Catastrophic Releases of Highly Hazardous Chemicals • Minimize Consequences of Such Releases to Employees and the Community

  4. Catastrophic Events Deaths Injuries • 1984 Mexico City 650 -- • 1984 Bhopal, India 2500 -- • 1984 Chicago area 17 17 • 1985 West Virginia -- 135 • 1988 New Orleans 5 23 • 1988 Henderson, NV 2 350

  5. Catastrophic Events Deaths Injuries • 1989 Pasadena, TX 23 130 • 1990 Houston, TX 17 -- • 1990 Cincinnati, OH 2 72 • 1991 Lake Charles, LA 5 -- • 1991 Sterlington, LA 8 120 • 1991 Charleston, SC 6 33 • 1991 Seadrift, TX 1 32

  6. Process Safety Management Bhopal (’84): focused OSHA’s attention Institute, WV(’85): shows disasters can happen here 1988-1991: concern of public & Congress increases with each event Feb. 24, 1992: standard in Federal Register

  7. 29 CFR 1910.119 OSHA’s Process Safety Management Standard

  8. Anticipated Benefits OSHA estimated that the integrated approach of the PSM standard would reduce the average annual number of deaths (265) by 200 and reduce the average annual number of serious injuries (900) by 700 in industries involved with highly hazardous chemicals.

  9. Resources • European Economic Community (EEC) • World Bank • International Labor Office (ILO) • U.S. Environmental Protection Agency • Superfund Amendments and Reauthorization Act (SARA) • States, Industry, & Labor Organizations

  10. PSM Standard Performance NOT Specification Standard

  11. PSM Standard • Process Safety Information • Process Hazard Analysis • Operating Procedures • Training • Contractors • Pre-startup Safety Review

  12. PSM Standard • Mechanical Integrity • Hot-work Permits • Management of Change • Incident Investigations • Emergency Planning & Response • Compliance Safety Audits

  13. What’s Covered • Listed Chemicals in Appendix A • > 10,000 pounds of Flammable Liquids or Gases

  14. Examples of Covered Chemicals Acetaldehyde Chlorine Nitromethane Ethylamine Perchloric Acid Phosgene Tetramethyl Lead Ketone HF NO

  15. What’s Not Covered • HC fuels used only for workplace consumption and if not a part of a covered hazardous process • Flammable liquids stored or transferred below NBP w/o chilling or refrigeration • Retail facilities • Oil, gas well drilling, servicing • Normally unmanned remote facilities

  16. Process Safety Information:Chemicals • Toxicity • PEL • Physical Data • Reactivity and Corrosivity • Thermal and Chemical Stability • Effects of Mixing Chemicals

  17. Process Safety Information:Process • Block flow or process flow diagram • Process chemistry • Maximum intended inventory

  18. Process Safety Information:Process • Safe upper/lower limits for such items as temperatures, pressures, flows or compositions • Consequences of deviations, e.g. runaway reaction potential

  19. Process Safety Information:Equipment • Materials of construction • P&IDs • Electrical Classification • Relief system design & design basis

  20. Process Safety Information:Equipment • Ventilation system design • Design codes and standards • Material & energy balances • Safety systems

  21. Process Hazard Analysis Organized and systematic effort to identify and analyze the significance of potential hazards associated with the processing or handling of highly hazardous chemicals

  22. Process Hazard Analysis • Causes/consequences of fires & explosions • Releases of toxic or flammable chemicals • Major spills of hazardous chemicals • Methodology depends on the process & its characteristics

  23. PHA Focuses On • Equipment • Instrumentation • Utilities • Human Actions • External Factors

  24. Process Hazard Analysis • What If? • Checklist • What If?/Checklist • Hazard & Operability Study (HAZOP) • Failure Mode & Effects Analysis (FMEA) • Fault Tree Analysis (FTA)

  25. PHA Must Address • Hazards of the process • Engineering & administrative controls • Consequences of failure of controls • Facility siting

  26. PHA Must Address • Human factors • Evaluate potential effects to on-site personnel from failure of controls • Identification of previous incidents

  27. PHA Team • Expertise in engineering & process operations • One member to have knowledge of & experience with process being evaluated

  28. PHA Team • One member knowledgeable in specific PHA methodology used for evaluating the process • Other members with specific knowledge: instrumentation, chemistry, etc.

  29. Employer PHA Actions • Establish system for prompt response • Ensure timely resolution of findings & recommendations • Document actions taken

  30. Employer PHA Actions • Develop written schedule for completions • Complete actions ASAP • Communicate actions to affected employees

  31. Operating Procedures • Provide clear instructions for safely conducting activities involved in each covered process consistent with the process safety information • Address at least the listed elements

  32. Operating Procedures:Steps for Each Operating Phase • Initial startup, operation, shutdown • Temporary & emergency operations, emergency shutdown • Startup following shutdowns

  33. Operating Procedures: Operating limits • consequences of deviations • prevention of deviations

  34. Operating Procedures: Safety & Health Considerations • Chemical properties and hazards • Precautions to prevent exposure • Control measures if contact or airborne exposure occurs

  35. Operating Procedures: Safety & Health Considerations • Quality controls for raw materials • Control of hazardous chemical inventories • Special or unique hazards • Safety systems & their functions

  36. Operating Procedures • Operating procedures readily accessible • Reviewed as necessary to reflect current procedures and changes • Certified annually as current & accurate

  37. Operating Procedures • Develop & implement safe work practices to provide for the control of hazards during operations, e.g. lockout/tagout/ confined space entry, opening equipment & pipes, facility entry • Apply to employees & contractor employees

  38. Training • Process overview • Process hazards • Operating procedures • Emergency procedures • Refresher training at least every 3 yrs • Documentation

  39. Employer Responsibilities • Evaluate contractor’s safety performance & programs • Inform contractor of potential hazards: fire, explosion, toxic release, applicable plant safety rules • Develop/Implement safe work practices • Evaluate contractor performance

  40. Contractor Responsibilities • Advise employer of any unique work hazards of contracted work • Each employee follow all applicable work practices & safety rules of the facility • Ensure each employee is trained in necessary work practices

  41. Contractor Responsibilities • Ensure each employee is instructed in known fire, explosion, or toxic release problems related to his/her job • Document that understanding of training has been evaluated, verified

  42. Pre-startup Safety Review Done when: • New processes • Modified process

  43. Pre-startup Review Verifies • Construction: conforms to design • Procedures: adequate, in place • PHA recommendations resolved or implemented • Management of change requirements met • All affected workers trained

  44. PSM Mechanical Integrity • Pressure vessels, storage tanks • Piping systems, components • Relief & vent systems, devices • Emergency shutdown systems • Controls: monitoring devices, sensors, alarms, interlocks • Pumps

  45. Mechanical Integrity • Written procedures • Training: process hazards, job tasks • Inspections • Testing • Corrective action • Records

  46. Hot Work Permits • Welding, cutting, brazing • Control of ignition sources • Verify safe conditions • Authorization

  47. Management of Change • Establish written procedures • Develop management support • Evaluate safety of any changes to: process chemicals facility technology equipment

  48. MOC Procedures Must Address • Everything except “replacement in kind” • Temporary as well as permanent changes • Technical basis for change • Safety & health effects

  49. MOC Procedures Must Address • Modified operation procedures • Time necessary for change • Authorization for change • Ways to inform & train workers before change

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