ICPRE Tracks | ICPRE 分论坛

Track 20: Green Hydrogen and Power-to-X Technologies for Energy Transition 能源转型中的绿色氢能与Power-to-X技术

Organizers / 组织者

Xinhai Xu (徐心海)
Professor, Harbin Institute of Technology (Shenzhen)
教授, 哈尔滨工业大学(深圳)

Zehua Pan (潘泽华)
Associate Professor, Harbin Institute of Technology (Shenzhen)
副教授, 哈尔滨工业大学(深圳)

Can Wang (王灿)
Associate Professor, Harbin Institute of Technology (Shenzhen)
副教授, 哈尔滨工业大学(深圳)

Abstract / 论坛简介

English: The global energy transition faces dual challenges of renewable energy intermittency and deep industrial decarbonization. Green hydrogen, produced through renewable-powered water electrolysis and coupled with Power-to-X (PtX) technologies to convert surplus electricity into hydrogen-based fuels or chemical feedstocks, provides a critical pathway to address the volatility of wind/solar power and meet end-use zero-carbon demands. Current research focuses on three key directions: enhancing electrolyzer flexibility to match renewable output fluctuations, developing "electricity-hydrogen-grid" coordination mechanisms for peak shaving and renewable integration, and innovating PtX coupling modes to synthesize zero-carbon methanol/ammonia. Breakthroughs in PtX technologies will reshape the "source-grid-load-storage" interaction paradigm and enable high-penetration renewable power systems.

中文: 全球能源转型面临可再生能源间歇性与工业深度脱碳的双重挑战。绿色氢能通过可再生能源电解水制备,耦合Power-to-X(PtX)技术将富余电能转化为氢基燃料或化工原料,为破解风光波动性与终端零碳需求提供关键路径。当前核心研究围绕三大方向:一是提升电解系统灵活性以匹配风光出力波动;二是构建"电-氢-网"协同调峰机制提升消纳能力;三是创新PtX耦合模式合成零碳甲醇/氨等。PtX的技术突破将重塑"源-网-荷-储"互动范式,赋能高比例可再生能源电力系统。

Topics / 主题范围

  • Flexible Coupling of Renewable Hydrogen Production with Power Grids / 可再生能源制氢柔性耦合与电网协同
  • Innovations in High-Efficiency Low-Carbon Electrolysis Technologies / 高效低碳电解制氢技术创新
  • Green Power-Hydrogen-Fuel System Integration / 绿电-绿氢-绿色燃料系统集成
  • Cross-Industry Zero-Carbon Fuel Substitution / 跨产业零碳燃料替代
  • Flexible Operation Control Strategies for Electrolysis Systems Driven by Renewable Energy Sources such as Wind and Solar Power/风光等可再生能源驱动下的电解系统柔性运行控制策略