水力发电2024,Vol.50Issue(12):100-104,5.
风电供能的海上油气平台电缆连接规划
Cable Connection Planning for Wind Energy Supplied Offshore Oil and Gas Platforms
摘要
Abstract
The oil and gas platforms consume a lot of energy which results in the CO2 emissions.Offshore wind energy is considered to be a potential solution for realizing a carbon neutral energy system for supplying the oil and gas platforms and thus draws worldwide attentions.In this paper,an integer programming model for the cable routine planning of floating offshore wind farm which is used to meet partial energy demand of five oil and gas platforms is proposed.The proposed model considers all possible wind turbine connections,including the stochastic variations in wind speed and direction,and the wake effect within the wind farm.In addition,the model also includes the dynamic power cables used to connect floating offshore wind turbines,along with their respective costs for acquisition and installation.Lastly,the developed optimization model is validated on a 95 MW floating offshore wind farm case.The optimized collection grid results in a decrease of 13.82%of the total cost and a reduction of the energy losses by 45.16%compared to contrast algorithm.关键词
油气平台/漂浮式风电场/电缆线路规划/整数规划Key words
oil and gas platform/floating wind farm/cable routine planning/integer programming分类
能源科技引用本文复制引用
戚远航,罗育辉,罗浩宇..风电供能的海上油气平台电缆连接规划[J].水力发电,2024,50(12):100-104,5.基金项目
广东省基础与应用基础研究基金(2022A1515240058) (2022A1515240058)
广东省普通高校重点领域专项(2022ZDZX1045、2023ZDZX1040) (2022ZDZX1045、2023ZDZX1040)
中山市社会公益与基础研究项目(2021B2063) (2021B2063)
