surge control

Beschreibung

Normal-level (N-level) Transmission and Storage Notiz am surge control , erstellt von Yasmina Moussa am 28/10/2015.
Yasmina Moussa
Notiz von Yasmina Moussa, aktualisiert more than 1 year ago
Yasmina Moussa
Erstellt von Yasmina Moussa vor etwa 9 Jahre
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Surge Control

surge control: to protect the pipeline system by reducing the magnitude of surges to the allowable strength limits of pipe, valves, and pumping Two methods for managing surge: direct control of the surge extra protection of the pipeline or equipment The Largest surges are generated during the following operations: start-up and shut down operations valve operation and now control injection and delivery condition changes Levels of control strategies: training the pipeine system operation and maintenance staff in operating and maintaining their pipeline system as per ASME standards installing basic control devices such as valves reinforcing pipelines and implementing a special surge relief device in areas that are expected to suffer from surges List of undesirable operational problems: Valve failure Power failure Accidents Equipment failure Human error An automated surge control system needs to be implemented to operate the system safely and economically Design considerations for controlling surges and reducing potential risks: installing thicker pipes at locations where severe surges are expected installing block and check valves along the pipeline and at each pump station installing automated control system such as a PID controller at each pump station. avoid high flow rate --> potential surge is proportional to the flow velocity longer station spacing multiple pumping units to minimize the chance for a complete station failure installing variable speed pumps that can reduce surge by ramping pump speed. instaling special control devices such as surge relief tanks avoiding sharp bends and sudden changes in slope

Control Devices valve movements can create a surge, the magnitude of which depends on the type of valve and the valve movement in terms of the position and timing in addition to the liquid compressibility and the elastic properties of the pipe. in general it is safer to close valves slowly in 2l/a check valves: non-return, allow fluid to flow in the normal flowing direction only and therefore they stop any reverse in flow. Pump Unit and Pump Station Operationspump start-up/shut down: remove or add energy from or to the pipeline. In START UP The liquid forces open the check valve downstream of the pump and the liquid in the line begins to move the flowing liquid develops an upsurge in the downstream section of the pipeline and the upstream side. this depends on the starting speed of the pumpdensity and bulk modulus of the liquidSurge control in start up: control valve to open slowly in fixed speed pumps after the motor starts in order to reduce transients by interlocking the pump with control valve variable-speed pumps ramp up the pump speed so slowly that large surges can be avoided if multiple pumps need to be brought online start them one at a time at an interval of two times the critical period Install PID controller to balance the flow movements and pressure behaviors at the pump station it controls control valves. and is used as feedback system. IN SHUT DOWNS:Surges take place due to an increase in suction pressure and a decrease in discharge pressure.surge control in shut down: turning pumps off one at a time at intervals at least two times the critical period fixed speed pumps, close control valve slowly at least two times the critical period before the driver is stopped if variable speed ramp down the pump speed so that the surge pressure can be minimized

Power failure or non-scheduled events at a pumping station can cause pump tripping which happens instantaneously and cannot be avoided. pump tripping: results in an initial rapid down-surge on the discharge side and pipe section close to the pump station. one pump tripping might lead to other pumps tripping which can cause complete shut downtransient flow can occur upon power failure where elevation profile rises steeply downstream of the pump stationfactors considered in the design phase: thicker pipes at the locations where the severe surges are expected avoid high flow rate install multiple variable pumping units install special control devices such as surge relief tanks to relieve surge pressures avoid sudden changes in slope where vapor pockets maybe formed Special Surge Relief Devices pressure relief valves: designed to reduce large upsurges mainly in the pipeline but not to control the down surge that may occur on pump shut-down or power failure surge tanks: rupture discs can be used: they are non technical pressure surge control devices consist of a bursting membrane designed to rupture at pre-set pressure. a tank is attached to rupture disks to accept relief flow. they must be replaced after being ruptured. STEPS FOR SUGGESTED TO DESIGN A SURGE CONTROL SCHEME (LECTURE 4B, SLIDE 13)EXAMPLE OF PIPELINE

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