Summary: | Thesis: S.M. in Engineering and Management, Massachusetts Institute of Technology, System Design and Management Program, September, 2020 === Cataloged from the official version of thesis. === Includes bibliographical references (pages 208-217). === Considering the large capital outlay and the long duration for recouping investments on Oil and Gas projects, it is concerning that a number of projects in the Industry continue to exceed their approved cost and schedules by significant margins. Engineering is often named as a culprit for Project execution issues manifesting in engineering and construction rework, start-up delays, startup performance and early facility life issues. Worthy of note is the increasing complexities of Oil and Gas production facilities and systems stemming from more remote operational locations, newer production technologies and a drive for autonomous facilities. Hence, the need for an Engineering approach to address current system development issues and poised to take on the complexity challenges of the systems of the future. Despite the benefits of Model Based System Engineering (MBSE), and System Engineering broadly, in addressing system complexities in industries like Aerospace, there are sparse references that address benefits of such as approach in the Oil and Gas industry. In addition, there is a gap in literature on the Oil and Gas Industry that analyze the underlying design approach, used over decades in the industry, relative to project outcomes. This research attempts to address the gaps using a case-study approach to analyze MBSE implementation in Aerospace for insights towards an implementation in the Oil and Gas Industry. This research evaluates the underlying discipline-based design approach in the industry against a System Engineering benchmark; analyzes key design issues categories in the industry identifying candidates for MBSE Application; and presents an MBSE Implementation scorecard for the Oil and Gas Industry. The main contribution of this research is the development of a framework for System design in the Oil and Gas Industry as part of the System/Product Development cycle. The framework addresses the underlying design approach as a contributor to Engineering process outcomes; and provides a method that facilitates a systemic approach to design enabled by appropriate modeling to ensure systemic emergence is understood; and adequately characterized with direct impacts to the Engineering process and downstream System development activities. It proffers a new way of thinking design on Oil and Gas projects. === by Funmilola Adeoti Asa. === S.M. in Engineering and Management === S.M.inEngineeringandManagement Massachusetts Institute of Technology, System Design and Management Program
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