PETRONAS is operating more than 10,000km of offshore and onshore pipeline systems. Inspection and monitoring is one of the element in the Pipeline Integrity Management System (PIMS) where it covers critical activities to ensure high integrity and reliability of business operation for transportation of oil, gas and petrochemical products. This will further identify the risk and manage the pipeline through its operating design life. PETRONAS currently facing new challenges in managing onshore pipeline with girth weld anomaly and stress-strain issue due to geohazard threat. This paper will describe the inspection options that have been evaluated in addressing stress-strain and girth weld anomaly threats. MFL technology with enhanced inspection capabilities coupled with Geopig are the most reliable technology to ascertain the weldment integrity threat as well as stress-strain of the pipeline. The replication of inspection tool selection can be applied for offshore pipelines having issues/challenges with respect to geohazards i.e. faults, gas pockets that can induce movement, differential settlement of seabed etc.; and weldment quality verification. The enhanced MFL inspection technology is also collaboration between PETRONAS, local vendor and international inspection company.
Background: A wide variety of additives have been used in a mixture with local anesthetics in PBA to fasten the onset, increase the potency and prolong the duration of the block to cover the long viteroretinalsurgeries. Dexmedetomidine, magnesium sulphateand rocuronium bromidehave been added to local anesthetics to achieve such goal.
This paper is to share the development of Self-Propelling Robotic In-Line Inspection technology that PETRONAS embark as OPEX optimization for un-piggable pipeline. Lack of conventional inspection methods to inspect un-piggable pipelines such as vent pipelines without pig traps facility and low flow pipelines, has prompted PETRONAS to embark on technology development journey for Self-Propelling Robotic ILI. The development of the Self-Propelling Robotic In-Line technology consists enhancement of robotic tethered crawler tool to a wireless robotic tool, testing and validation using actual full scale fabrication test loop. Fabricated test loop includes horizontal and vertical section with bends of 1.5D to simulate the inspection tool travel as per actual site condition representing vent line. The enhancement consists of wireless connection range, optimum speed and distance, movement of slippery surface which grease was applied on the vertical section and emergency extraction of inspection robot. Robotic ILI qualification test which was successfully met PETRONAS requirement based on full scale factory acceptance test. The test was focused and able to meet below success criteria: - Robotic ILI tool able to self-propel on vertical test spool. Robotic ILI tool able to move with wireless connection for the intended travel length. Emergency retrieval tool procedure and mechanism in the event of faulty robotic ILI or loss of connection. Sensor detection capability at POD 90% and POI 80%. Based on the evaluated technology, Robotic ILI solution is feasible in ascertaining the un-piggable pipeline integrity and recommended solution to tackle high operational costs that upstream operators face when inspecting their pipelines using current available methods. Deployment of this technology is estimated to provide up to 30% OPEX optimization. The technology has been evaluated to be technically ready and tested which currently in the stage of pilot testing. Current approach to inspect un-piggable vent or low flow pipeline is Crawler ILI type technology which propelled by umbilical cable whereby the pipeline requires to be in shutdown mode. While inspection using Self-Propelling Robotic ILI can be applied for un-piggable pipeline i.e. low flow pipeline and vent line with short duration or no requirement of shutdown.
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