Track 32: DC Collection, Conversion, and Control for Marine Energy Systems海洋能源电气化汇集、变换与控制
Organizers / 组织者
Associate Professor, Guangdong University of Technology
副教授, 广东工业大学
Assistant Professor, Jinan University
助理教授, 暨南大学
Engineer, Power Dispatching and Control Center, Guangxi Power Grid Co., Ltd.
工程师, 广西电网调度控制中心
Abstract / 论坛简介
English: Marine energy generation and interconnection face critical challenges in achieving long-distance, high-efficiency power delivery. Conventional AC systems struggle with transmission losses and reliability under large-scale deployment, driving urgent demand for fully DC solutions. This track explores the DC technology chain for marine energy interconnection: Medium-Voltage DC (MVDC) network design and fault protection (collection), high-gain DC/DC converters (conversion) and control, VSC-HVDC systems with offshore platform integration (transmission), wind power prediction, wind turbine load analysis and control. It seeks efficient, reliable, and cost-effective solutions.
中文: 海洋能源发电与互联在实现远距离高效电力输送方面面临关键挑战。传统交流系统在大规模部署下存在传输损耗和可靠性问题,这推动了对全直流解决方案的迫切需求。本专题探讨海洋能源互联的直流技术链:中压直流(MVDC)网络设计与故障保护(汇集)、高增益DC/DC变换器(变换)与控制、海上平台集成的VSC-HVDC系统(传输)、风电功率预测、风机载荷分析与控制。寻求高效、可靠且经济实惠的解决方案。
Topics / 主题范围
- Medium-Voltage DC (MVDC) Network Architectures for Marine Energy Interconnection / 海洋能源互联的中压直流网络架构
- Fault Isolation Technologies in MVDC Networks with Marine Energy Generation / 含海洋能源发电的MVDC网络故障隔离技术
- Grid-Stability Enhancement Strategies for Marine Energy Interconnection / 海洋能源互联的电网稳定性增强策略
- Advanced Control Strategies for DC-DC Converters in Marine Energy Harvesting and Conversion / 海洋能源收集与转换中DC-DC变换器的先进控制策略
- Rapid Fault Detection, Localization, and Isolation Protection Schemes for HVDC Transmission Systems / HVDC输电系统的快速故障检测、定位与隔离保护方案
- Intelligent Control Architecture for Hybrid Renewable Microgrids in Isolated Marine Territories / 孤岛海洋区域混合可再生能源微电网的智能控制架构
- Marine power prediction / 海洋能源功率预测
- Load analysis and control for marine renewable energy equipment / 海洋可再生能源装备载荷分析与控制