Adoption of Innovation and Technological Advancement Deployment

Abstract

The main objective of the paper is to outline initiatives associated with leveraging creativity and innovation to sustain operational excellence. It will cover processes, applications and best practices toward continually leveraging creative and innovation such as the development of innovation team toward creating a collaborative environment in the generation, identification and development of ideas and new technological advancement deployment. The processes described will cover (1) the continuous monitoring and management update of innovation submissions, implementation and self-development course completion, (2) recognition for value addition resultant from technological deployment, (3) Technical Review Committee (TRC) centralization and streamlining of evaluating technologies and best practices, (4) the assignment of challenging targets and (5) the initiation of special innovation campaigns for pressing and challenging matters has resulted in various major accomplishments. The establishment of the 4th Industrial Revolution (IR 4.0) team to address production engineering and well services challenges and collaborate for articulate, smart, more efficient and effective resolutions, process improvements and decision making. The results were remarkable with an incremental increase into intent to submit a patent file consideration, patenting, technology deployment and production of technical manuscripts addressing the unique achievements as well as the submission of awards applications. Technical collaboration toward triggering resolutions to ongoing operational challenges has resulted in various internal in-house built strides of best practices and other collaborative initiatives with other services providers such as: Intelligent Field Equipment Industrial Professionals Training: Special training for intelligent field equipment associated with smart well completion (SWC) exercising and optimization, data retrieval from multiphase flow meters (MPFMs) as well as a permanent downhole monitoring system (PDHMS) and conducting basic preventative maintenance (PM) requirements. Multiphase Flow Metering (MPFM) Advanced Monitoring System: An in-house developed MPFM system advanced monitoring to enable production/Intelligent Field engineers to monitor and diagnose MPFMs healthiness in all fields. It includes a validation mechanism to monitor and verify the different MPFM diagnostic data, alarming mechanism, flow rates and data visualization tools to verify the health of the installed base of equipment toward higher testing efficiency, reduction of manpower exposure to the field, and cost avoidance through minimizing operational logistical arrangements and minimization of unnecessary field visits by service providers. The ultimate intent is to heavily depend upon all employees to successfully propose solutions, and subject matter experts to coach employees in the successful implementation of practical resolutions to improve operations, optimize cost, and enhance employees’ satisfaction and engagement.