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- Safety_instrumented_system abstract "A Safety Instrumented System (SIS) consists of an engineered set of hardware and software controls which are especially used on critical process systems. A critical process system can be identified as one which, once running and an operational problem occurs, may need to be put into a "Safe State" to avoid adverse Safety, Health and Environmental(SH&E) consequences. Examples of critical processes have been common since the beginning of the Industrial Age. One of the more well known critical processes is the operation of a steam boiler. Critical parts of the process would include the lighting of the burners, controlling the level of water in the drum and controlling the steam pressure.A SIS is engineered to perform "specific control functions" to failsafe or maintain safe operation of a process when unacceptable or dangerous conditions occur. Safety Instrumented Systems must be independent from all other control systems that control the same equipment in order to ensure SIS functionality is not compromised. SIS is composed of the same types of control elements (including sensors, logic solvers, actuators and other control equipment) as a Basic Process Control System (BPCS). However, all of the control elements in an SIS are dedicated solely to the proper functioning of the SIS.The specific control functions performed by an SIS are called Safety Instrumented Functions (SIF). They are implemented as part of an overall risk reduction strategy which is intended to eliminate the likelihood of a, previously identified, SH&E event that could range from minor equipment damage up to an event involving an uncontrolled catastrophic release of energy and/or materials.A Safe State is a process condition, whether the process is operating or shutdown, such that a hazardous SH&E event cannot occur. The safe state must be achieved in a timely manner or within the "process safety time".A formal process of hazard identification is performed by the project team engineers and other experts at the completion of the engineering design phase of each section of the process, known as a Unit of Operation. This team performs a systematic, rigorous, procedural review of each point of possible hazard, or "node", in the completed engineering design. This review and its resulting documentation is called a HAZOP study. A HAZOP study typically reveals hazardous scenarios which require further risk mitigating measures which are to be achieved by SIFs. Via a Layer of Protection Analysis (LOPA) or some other approved method, Integrity Levels (IL) are defined for the SIFs in their respective scenarios. The Integrity Levels may be categorised as Safety Integrity Level (SIL) or Environmental Integrity Level (EIL). Based on HAZOP study recommendations and the IL rating of the SIFs; the engineering (including the BPCS and the SIF designs) for each unit operation is finalized.The correct operation of an SIS requires a series of equipment to function properly. It must have sensors capable of detecting abnormal operating conditions, such as high flow, low level, or incorrect valve positioning. A logic solver is required to receive the sensor input signal(s), make appropriate decisions based on the nature of the signal(s), and change its outputs according to user-defined logic. The logic solver may use electrical, electronic or programmable electronic equipment, such as relays, trip amplifiers, or programmable logic controllers. Next, the change of the logic solver output(s) results in the final element(s) taking action on the process (e.g. closing a valve) to bring it to a safe state. Support systems, such as power, instrument air, and communications, are generally required for SIS operation. The support systems should be designed to provide the required integrity and reliability.International standard IEC 61511 was published in 2003 to provide guidance to end-users on the application of Safety Instrumented Systems in the process industries. This standard is based on IEC 61508, a generic standard for design, construction, and operation of electrical/electronic/programmable electronic systems. Other industry sectors may also have standards that are based on IEC 61508, such as IEC 62061 (machinery systems), IEC 62425 (for railway signaling systems), IEC 61513 (for nuclear systems), and ISO 26262 (for road vehicles, currently a draft international standard).".
- Safety_instrumented_system wikiPageExternalLink find.asp?.
- Safety_instrumented_system wikiPageExternalLink Safety-Equipment-Reliability-Handbook-4th-Edition.
- Safety_instrumented_system wikiPageExternalLink www.instrumentedprotectivesystems.com.
- Safety_instrumented_system wikiPageExternalLink ProductDisplay.cfm&ProductID=7763.
- Safety_instrumented_system wikiPageExternalLink t0234.htm.
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- Safety_instrumented_system wikiPageLength "7798".
- Safety_instrumented_system wikiPageOutDegree "30".
- Safety_instrumented_system wikiPageRevisionID "681196049".
- Safety_instrumented_system wikiPageWikiLink Actuator.
- Safety_instrumented_system wikiPageWikiLink Actuators.
- Safety_instrumented_system wikiPageWikiLink Amplifier.
- Safety_instrumented_system wikiPageWikiLink Category:Risk.
- Safety_instrumented_system wikiPageWikiLink Category:Safety_engineering.
- Safety_instrumented_system wikiPageWikiLink Control_system.
- Safety_instrumented_system wikiPageWikiLink Distributed_control_system.
- Safety_instrumented_system wikiPageWikiLink FMEDA.
- Safety_instrumented_system wikiPageWikiLink Failure_Modes,_Effects,_and_Diagnostic_Analysis.
- Safety_instrumented_system wikiPageWikiLink Hazard_and_operability_study.
- Safety_instrumented_system wikiPageWikiLink IEC_61508.
- Safety_instrumented_system wikiPageWikiLink IEC_61511.
- Safety_instrumented_system wikiPageWikiLink IEC_62061.
- Safety_instrumented_system wikiPageWikiLink IEC_62425.
- Safety_instrumented_system wikiPageWikiLink ISO_26262.
- Safety_instrumented_system wikiPageWikiLink Industrial_control_system.
- Safety_instrumented_system wikiPageWikiLink Industrial_control_systems.
- Safety_instrumented_system wikiPageWikiLink Industrial_safety_system.
- Safety_instrumented_system wikiPageWikiLink Industrial_safety_systems.
- Safety_instrumented_system wikiPageWikiLink Integrity_Level.
- Safety_instrumented_system wikiPageWikiLink Interlock_(engineering).
- Safety_instrumented_system wikiPageWikiLink Interlocking.
- Safety_instrumented_system wikiPageWikiLink Life-critical_system.
- Safety_instrumented_system wikiPageWikiLink Logic_solver.
- Safety_instrumented_system wikiPageWikiLink Process_Control.
- Safety_instrumented_system wikiPageWikiLink Process_control.
- Safety_instrumented_system wikiPageWikiLink Programmable_Logic_Controller.
- Safety_instrumented_system wikiPageWikiLink Programmable_logic_controller.
- Safety_instrumented_system wikiPageWikiLink Relay.
- Safety_instrumented_system wikiPageWikiLink Reliability_engineering.
- Safety_instrumented_system wikiPageWikiLink Risk_reduction.
- Safety_instrumented_system wikiPageWikiLink SCADA.
- Safety_instrumented_system wikiPageWikiLink Safety_critical_system.
- Safety_instrumented_system wikiPageWikiLink Safety_integrity_level.
- Safety_instrumented_system wikiPageWikiLink Sensor.
- Safety_instrumented_system wikiPageWikiLink Sensors.
- Safety_instrumented_system wikiPageWikiLink Spurious_trip_level.
- Safety_instrumented_system wikiPageWikiLinkText "Safety instrumented system".
- Safety_instrumented_system wikiPageWikiLinkText "safety function".
- Safety_instrumented_system wikiPageWikiLinkText "safety instrumented system".
- Safety_instrumented_system wikiPageWikiLinkText "safety instrumented systems (SIS)".
- Safety_instrumented_system hasPhotoCollection Safety_instrumented_system.
- Safety_instrumented_system subject Category:Risk.
- Safety_instrumented_system subject Category:Safety_engineering.
- Safety_instrumented_system comment "A Safety Instrumented System (SIS) consists of an engineered set of hardware and software controls which are especially used on critical process systems. A critical process system can be identified as one which, once running and an operational problem occurs, may need to be put into a "Safe State" to avoid adverse Safety, Health and Environmental(SH&E) consequences. Examples of critical processes have been common since the beginning of the Industrial Age.".
- Safety_instrumented_system label "Safety instrumented system".
- Safety_instrumented_system sameAs Sicherheitssystem.
- Safety_instrumented_system sameAs m.0f8mq2.
- Safety_instrumented_system sameAs Аварийная_защита.
- Safety_instrumented_system sameAs Аварійний_захист.
- Safety_instrumented_system sameAs Q825237.
- Safety_instrumented_system sameAs Q825237.
- Safety_instrumented_system wasDerivedFrom Safety_instrumented_system?oldid=681196049.
- Safety_instrumented_system isPrimaryTopicOf Safety_instrumented_system.