![]() In this way, ABB’s Augmented Operator will help operators to grapple with and resolve abnormal plant situations. These tools access and analyze existing data sources such as historical process, alarm and event data, audit trails, engineering documents, standards, and safety procedure. ABB developed comprehensive and easy-to-use decision-support tools using deep learning and transformer models, process mining, graph search and causal analysis methods. ![]() The Augmented Operator project was initiated in 2020, thanks to a long term association between the oil and gas company, OKEA, and ABB, with the aim of supporting plant operators to achieve operational excellence. Recognizing these possibilities, ABB has taken the initiative to develop analytical tools to get the most out of this data. centerīy combining data with deep learning models, profound and transformative opportunities are possible. 01 The Draugen oil platform, operated by OKEA in the Norwegian Sea. ![]() To ensure consistent and efficient operation, operators can now draw on the vast amount of available relevant industrial data. Read the latest issue of the OGV Energy magazine HERE.Ruomu Tan, Benedikt Schmidt, Benjamin Kloepper, Arzam Kotriwala, Pablo Rodriguez ABB Process Automation, Corporate Research Ladenburg, Germany, Divya Sheel, Chandrika KR ABB Process Automation, Corporate Research Bangalore, India, Anne Lene Rømuld OKEA Kristiansund, Norway Hadil Abukwaik Former ABB employeeĬontrol room operator actions have a significant and direct impact on uptime, product quality and production output as well as safety basically on all aspects of industrial plant performance →01. OKEA took over operation of Draugen in 2018. The platform is in a water depth of 250 m. A plan for development and operation was approved in 1988, and production started in 1993. The Draugen oil field was discovered in 1984 by Shell. In August 2021, Odfjell Oceanwind was awarded a pre-project grant from Enova, Norway’s fund for climate and energy technology, to mature its first commercial contracts for MOWUs and its ‘WindGrid’ concept to electrify oil and gas installations. “The Draugen windfarm project also fits well with Odfjell Oceanwind’s long-term strategy to become a leading global floating wind O&M and technology provider.” Odfjell Oceanwind chief executive Per Lund said, “We look forward to further exploring this exciting opportunity in close collaboration with OKEA and TrønderEnergi. ![]() The study will include early stage technical, economic and regulatory evaluation, as well as the potential impact on the environment and climate. Odfjell Oceanwind believes they are well-suited to providing power to oil and gas installations that require power for a limited period. MOWUs are floating wind turbines that can move from location to location as and when there is a need for renewable power. The windfarm could also serve as a flexible storage location for Odfjell Oceanwind’s Mobile Offshore Wind Units (MOWUs), producing renewable energy in between contract periods for off-grid applications. The intention is to use renewable electricity from the floating windfarm to provide power to the Draugen platform and utilize its infrastructure, including a cable from shore to the platform which is also being planned. Odfjell Oceanwind has entered into a memorandum of understanding with Norwegian exploration and production company OKEA and utility TrønderEnergi to evaluate the use of a floating windfarm connected to the Draugen platform. Draugen oil platform evaluated as first-use of Norwegian floating power plant
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |