Hazard analysis operational risk management

Identify Process Controls and Risk Management Options Process Risk Management Process Hazard Analysis Operational Control... 

Document Chemical Reactivity Risks and Management Decisions Process Knowledge and Documentation Process Risk Management Process Safety Information Process Hazard Analysis Operating Procedures Operational Control... 

Procedural controls, process controls, 98-99 Process controls, 96-100 active controls, 98 inherently safer approach, 97 mitigation techniques, 99 passive controls, 97-98 procedural controls, 98-99 safe operating limits, 99-100 Process definition, documentation, 102-104 Process design, documentation, 105 Process hazard analysis (PHA) risk assessment, 92-93 screening methods, 63 Process risk management decisions, documentation, 105-106... 

For workplace design, management and operations, and task performance aspects of safety, application of hazard analysis and risk assessment methods are vital to achieving an acceptable risk level. 

All the hazard analysis and risk assessment techniques previously discussed relate principally to the design process or achieving risk reduction in the operational mode before hazards-related incidents occur. MORT was developed principally for incident investigations. In the Abstract for the Guide To Use Of The Management Oversight And Risk Tree, this is how MORT is described ... 

Incident Investigation Studies of Quality Hazard analysis is the most important safety process. If that process fails, all other processes are likely to be ineffective. Incident investigation serves as one, vital basis for hazard analysis. Several studies of the quality of incident investigations were made by this author to provide an information base for consideration by those who undertake to improve investigation systems. Unfortunately, this author has concluded from the studies made that this vital element in operational risk management is very often done poorly. 

In ANSI/ASSE Z590.3—2011, the Prevention through Design standard, Addendum G comments on only eight hazard analysis and risk assessment techniques, intentionally. They are Preliminary Hazard Analysis, What-If Analysis, Checklist Analysis, What-If Checklist Analysis, Hazard and Operability Analysis, Failure Mode and Effects Analysis, Fault Tree Analysis, and Management Oversight and Risk Tree (MORT). It was also said in Z590.3 that ... 

The Chemical Process Industry (CPI) uses various quantitative and qualitative techniques to assess the reliability and risk of process equipment, process systems, and chemical manufacturing operations. These techniques identify the interactions of equipment, systems, and persons that have potentially undesirable consequences. In the case of reliability analyses, the undesirable consequences (e.g., plant shutdown, excessive downtime, or production of off-specification product) are those incidents which reduce system profitability through loss of production and increased maintenance costs. In the case of risk analyses, the primary concerns are human injuries, environmental impacts, and system damage caused by occurrence of fires, explosions, toxic material releases, and related hazards. Quantification of risk in terms of the severity of the consequences and the likelihood of occurrence provides the manager of the system with an important decisionmaking tool. By using the results of a quantitative risk analysis, we are better able to answer such questions as, Which of several candidate systems poses the least risk Are risk reduction modifications necessary and What modifications would be most effective in reducing risk ... 

Hazard and risk analysis is a vast subject by itself and is extensively covered in the literature [22]. In order to plan to avoid accidental hazards, the hazard potential must be evaluated. Many new methods and techniques have been developed to assess and evaluate potential hazards, employing chemical technology and reliability engineering. These can be deduced from Fault Tree Analysis or Failure Mode Analysis [23], In these techniques, the plant and process hazard potentials are foreseen and rectified as far as possible. Some techniques such as Hazards and operability (HAZOP) studies and Hazard Analysis (HAZAN) have recently been developed to deal with the assessment of hazard potentials [24]. It must be borne in mind that HAZOP and HAZAN studies should be properly viewed not as ends in themselves but as valuable contributors to the overall task of risk management... 

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