主讲专家 :Atilla Incecik 教授
主 持人:何广华 教授
报告时间 :2024年7月12日14:00-15:00
报告地点 :研究院1号楼中厅606会议室
报告人简介:
Atilla Incecik is Professor of Offshore Engineering. During the last sixteen years he served as the Head of Department of Naval Architecture, Ocean and Marine Engineering, and Associate Principal and the Executive Dean of the Faculty of Engineering. Professor Incecik’s research activities include the development of hydrodynamic design and analysis tools and model testing of marine and offshore engineering systems, including marine renewable energy devices. Professor Incecik was the Research Manager of Industrial Doctoral Centre for Offshore Renewable Energy (IDCORE) and is a Chair Professor at Zhejiang University. Professor Incecik was Editor-in-Chief of Ocean Engineering Journal between 2006 and 2023. In 2019 Professor Incecik was awarded an Honorary Doctorate by Chalmers University of Technology, Sweden in recognition of his research on green shipping and environmental sustainability. In 2022, Professor Incecik was recipient of The Royal Institution of Naval Architects’ William Froude Medal awarded for making a conspicuous contribution to naval architecture and/or shipbuilding. The William Froude Medal is the Institution’s highest award for professional achievement. In 2022 Professor Incecik was awarded the Confederation of European Maritime Technology Societies (CEMT) award in recognition of his ‘significant contribution to the advancement of knowledge in the field of ocean engineering’.
报告简介:
The demand for energy will increase as the world population and the prosperity in the world increase. By 2050, it is expected that the global population will increase by about 20% to 9.6 billion. This presentation will focus on how the world’s energy demand can be met by offshore oil and gas and renewable sources in the ‘energy transition’ era.
Today about 28% of oil and 38% of gas are produced from the offshore locations. However, only 14 percent of all energy production comes from renewable sources. Renewable energy is estimated to make up 77% of the world's primary energy supply by 2050. Today 16% of electricity output produced from offshore wind. For the near future (2030), it is expected that global installed capacity of offshore wind will reach 130–140 GW, compared to less than 20 GW installed at the end of 2018. By 2050, the capacity in Europe is expected to reach 400 GW and globally well above 500 GW.
The presentation will start by describing the primary energy consumption by fuel types as function of three different scenarios: “Accelerated” and “Net Zero” when the world collectively takes actions for CO2-equivalent emissions to fall by around 75% by 2050 (relative to 2019 levels) in “Accelerated” and 95% in “Net Zero”. In the ‘New Momentum’ scenario CO2 emissions peak in the 2020s and are around 30% below 2019 levels by 2050.
The presentation will continue by illustrating the locations of the global deep-water oil and gas reserves and different types of oil and gas exploration and production platform. The design principles in selecting different types of oil and gas production platform and analysis methods will be discussed.
The presentation will be concluded by describing the offshore renewable energy devices, life cycle assessment of these devices, and some recent floating offshore wind turbine installations in Scotland.
