BRU21-Academy

The starting point for the course is a discussion of basic concepts within safety and reliability analysis. Then we introduce qualitative and quantitative analysis techniques: Functional Failure Analysis, Failure Mode and Effect Analysis, Fault Tree Analysis, Reliability Block Diagram analysis and Markov modelling. Based on these standard techniques we discuss requirements for digital twins and how real-time update of the digital twin can be carried out. Finally we discuss queries and “what-if” analysis to support decision making.

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The starting point for the course is a maintenance management and use of computer based maintenance management systems (CMMS). Specific topics to cover partly depends on the interest by the students, but tentatively we cover the following topics: Age, block and minimal maintenance strategies. Optimization of interval and intervention level in predictive maintenance. Digital twins for the maintenance function. Real-time models for synchronization of operation, operation and maintenance. Grouping of maintenance tasks and optimization of strategies for grouping – Dynamic approaches/real-time updating. Reliability Centred Maintenance (RCM). Collection and analysis of experience data for use in maintenance analysis. Use of numerical methods.

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Remote operations, and remote control or remote monitoring have long been used in oil and gas production facilities, and in several other industries like the utility sector. Remote day-to-day operations, engineering, maintenance, and environmental monitoring are increasingly performed at greater distances from production sites. The primary case for remote operations is usually to limit the number of personnel on a production site and thus limit exposure to hazardous environments, as well as to enable easier and faster access to expert support independently of the location. Ongoing digitalization in the energy sector (e.g., broadband subsea links, sensor networks, Digital Twins, Artificial Intelligence) presents several opportunities but also new challenges for current and future remote operations.

The design, planning, and performance of remote operations requires a multidisciplinary approach to define division of functions and responsibilities between remote and local operations, identify suitable technological solutions, enforce control-of-work policies, assure the reliability of remote communications, and not the least to identify and prevent the operational risks and challenges associated with the use of remote functions including cyber security risks.

Efficient digital transformation of the oil and gas industry relies on people with knowledge of both petroleum and digital domains. However, traditional petroleum engineering education and practice often lacks information on and experience with digital and automation (cybernetics) technologies. This course is intended to fill this gap for (petroleum) engineers, researchers and decision makers.

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The course will give a thorough understanding of concepts, requirements, and methods used in relation to reliability assessments of safety-critical systems, within the frames of standards like IEC 61508. More specifically, the participants will learn about (i) types of safety-critical systems, (ii) key requirements in IEC 61508 and related standards, (iii) methods to use for the derivation of safety-integrity level (SIL) requirements, (iv) constraints for the selection of hardware and software design in light of SIL-requirements, (iii)  commonly used methods for reliability assessment, including the selection of data and considerations to uncertainty .