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164 Table 38 provides summary descriptions of a selection of hazard identification and hazard analysis tools. This information was obtained from the FAA Safety Management System Manual (2004)(13), which also provides more detailed information about the toolsâ utility and use. A N N E X E Hazard Identification Tools
Hazard Identification Tools 165 Tool or Method Summary Description Functional Hazard Analysis (FHA) Uses Functional Analysis to determine âwhatâ a system (e.g., equipment procedures or operations) must do to complete a mission or higher function. The failure or anomalous behavior of these functions is identified as a hazard and ranked according to severity based on its operational effect. Fault/Failure Hazard Analysis Tool to identify and evaluate component hazard modes, determine causes of these hazards, and determine resultant effects to the subsystem and its operation. Failure Modes and Effects Analysis (FMEA) and Failure Modes, Effects, and Criticality Analysis (FMECA) Hypothesizes failure events, which impact the operation or system. These events are identified as hazards. Often used as an input to a sub-system hazard analysis. This provides an itemized sequence of eventsOperations Analysis or flow diagrams depicting the major events of an operation or system. Failure or anomalous behavior in these events is identified as a hazard. Preliminary Hazard Analysis (PHA) The PHA provides an initial overview of the hazards present in the overall flow of the operation. It provides a hazard assessment that is broad, but not usually deep. The âwhat if...â tool is a brainstorming method.âWhat if...â Tool It is designed to add discipline and structure to the experiential and intuitive expertise of operational personnel. This tool diagrams events in their logical Scenario Process Tool relationships. These events or their anomalous behavior are identified as hazards. Identifies planned and potential unplanned Change Analysis changes to a system (e.g., operation, equipment, or procedure). Hazards are then identified using one of the other tools. Cause and Effect Tool Also known as the âfish boneâ and Ishikawa Diagram. This is a variation of the Logic Diagram. Effects are depicted as horizontal lines with causes entering the effect line diagonally (like a fish bone). The result is the hazard. Hazard and Operability (HAZOP) Tool Highly structured hazard identification tool. It uses a standard set of guide terms that are then linked to a tailored set of process terms. Each link is evaluated for its validity. Valid links are identified as hazards. Also known as Map Analysis and Zonal SafetyMapping Tool Analysis. Uses models and schematics to identify and evaluate hazards and hazard causes. Depicts energies and sources of hazards relative to vulnerable entities. Used to discover the hazardous linkagesInterface Analysis between interfacing systems. Accident and Incident Analysis Uses data on recorded hazardous events. These events are grouped in various ways according to a pre-established criteria usually a common cause or outcome. The groupings are identified as hazards. Table 38. Hazard analysis tools. (continued on next page)
166 Safety Management Systems for Airports Tool or Method Summary Description Knowledgeable operational personnel are Interview Tool queried or interviewed confidentially. They are asked to freely describe things that have gone or could go wrong in a system. Also called the Survey Tool. Hazards areInspection Tool identified by direct observation of a system. Job Hazard Analysis (JHA) Used to examine the safety of a single job in detail. The job is broken down into individual stages. Each stage is then analyzed for events associated with that stage that can go wrong. These events are identified as hazards. Opportunity Assessment Identifies opportunities for expansion of an organizationâs capabilities. Risk-related barriers to this expansion are identified as hazards. The hazards are then risk managed. Energy Trace-Barrier Analysis (ETBA) Highly structured. Documents all energy sources in system. The energy sources are identified as hazards. Barrier between the energy sources and the operators, maintainers, and other systems are identified as mitigations. Fault Tree Analysis (FTA) Similar to a negative Logic Diagram but with the addition of terms (and, or, and/or, exclusion) that aid in the assessment of probability. Multi-Linear Event Sequencing (MES) Tool Also called the timeline tool and the sequential time event plot (STEP). Used to detect hazards from the time relationship between various operational or systemic events. Management Oversight and Risk Tree (MORT) Very structured and time consuming. Very detailed logic diagram useful for assessing the highest risks and most operational critical activities. FAA Operational Support Test and Evaluation (T&E) Gold Standard for National Airspace Systems Hardware and Software Modifications Multi-step process used by all FAA secondary maintenance organizations to design, develop, test and evaluate, and deliver hardware and software modifications to existing operational NAS systems. This process ensures that existing functionality is maintained and that modifications add new capability or improve existing capability. All safety significant functionality is verified with each delivered product baseline. Table 38. (Continued).