漂浮式海上风电离网制氢联合仿真实验平台  

作　　者：孟庆伟[1] 王国玉 孙浩[1] 钟振芳[1] 朱明晓[1] MENG Qingwei;WANG Guoyu;SUN Hao;ZHONG Zhenfang;ZHU Mingxiao(College of New Energy,China University of Petroleum(East China),Qingdao 266580,China)

机构地区：[1]中国石油大学(华东)新能源学院,山东青岛266580

出　　处：《实验技术与管理》2024年第9期146-157,共12页Experimental Technology and Management

基　　金：创新型人才培养引领的“电力工程课程设计”一流课程建设与改革(CM2022056);厚基础强特色促创新的“高等电力网络分析”动态案例库建设(YJG2022040);面向创新能力培养的电气专业实验立体式教学建设与改革(QN2022019);院级教改“电力工程课程设计”专创融合特色课程建设(ZCRH202201)。

摘　　要：海上风电制氢有助于解决海上风电消纳和远海输电难题,但目前的仿真缺乏海上环境对制氢影响的模拟,限制了相关研究与教学发展,因此亟需开发充分考虑海洋环境载荷的海上风电离网制氢仿真实验平台。该文将风机一体化仿真工具FAST和MATLAB/Simulink电力系统工具箱相结合,实现海上风机与发电机的联合仿真,在MATLAB内部通过设计接口实现电力系统与数学模型的两工具箱的联合仿真,以此构建两软件三工具箱联合的海上风电离网制氢一体化仿真实验平台。仿真结果表明,该平台能实现漂浮式海上风电离网制氢联合仿真,可为海上风电制氢有关研究和实验教学提供有力支撑。[Objective]Hydrogen production from offshore wind power is an effective way to address the issues surrounding large-scale grid-connected offshore wind power,including the high cost of power delivery in the deep and distant sea.However,the current status of simulation research is directed either toward onshore wind power hydrogen production scenarios or the simulation of isolated offshore wind power platforms.The research is relatively somewhat unidirectional,and it cannot reflect the impact of the complex offshore environment on the hydrogen production system.This has facilitated an urgent need to develop a full consideration of the marine environment loads of the offshore wind power off-grid hydrogen production simulation experimental platform.[Methods]In this paper,tools integrated into a wind turbine system,in particular,the simulation tools FAST and MATLAB/Simulink power system toolbox,are combined to achieve the joint simulation of offshore wind turbines and wind turbine generators.This experimental platform adopts the S-function interface to achieve the interaction between the two simulation environments;the current-type ideal transformer interface is used in MATLAB to achieve the joint simulation of the power system and mathematical model of the two toolboxes to construct an integrated simulation experimental platform for offshore wind power off-grid hydrogen production based on the combination of two software and three toolboxes.In this study,the NERL 5MW horizontal axis wind turbine and semi-submersible floating platform are selected on the FAST side.The wind-power off-grid hydrogen production system is connected to the Simulink side to simulate and analyze the dynamic response of the floating wind-power platform and the working state of the hydrogen production system under four different working conditions.[Results]The results of the dynamic response under four working conditions show that the vertical oscillatory motion of the wind turbine platform is primarily affected by waves,while the impact of win

关 键 词：风电离网制氢仿真 漂浮式海上风电 FAST和MATLAB联合仿真 电力与制氢跨箱联合仿真接口 

分 类 号：TM614[电气工程—电力系统及自动化]