English: Integrated hydrogen-electricity-thermal energy systems hold significant strategic importance in both national economic development and defense sectors, serving as a vital component of future energy infrastructures. By utilizing hydrogen-electricity conversion devices such as fuel cells and renewable-energy-powered hydrogen production, this track explores pathways for clean and low-carbon hydrogen applications in industrial sectors. It aims to construct efficient, low-carbon, and intelligent integrated hydrogen-electricity-thermal energy systems, promoting diversified, clean, and smart energy development. The track focuses on key technologies of hydrogen-electricity conversion devices, hydrogen-electricity-thermal energy flow management, hydrogen-electricity-thermal microgrid cogeneration systems, and ammonia-hydrogen fusion hybrid power generation. Key discussion topics include: the design of highly efficient and long-lifetime devices, system dynamic response mechanisms under source-load fluctuations, coupling analysis and collaborative optimization of hydrogen-electricity-thermal energy, and the self-consistency of zero-carbon fuels throughout the "production-storage-utilization" full lifecycle.

中文: 氢电热综合能源系统在国民经济和军事国防领域具有重要的战略意义，是未来能源系统的重要组成部分。通过燃料电池、可再生能源制氢等氢电转换器件，探索工业领域清洁低碳氢应用途径，构建高效、低碳、智能的氢电热综合能源系统，推动能源多元化、清洁化和智能化发展。论坛围绕氢电转换器件关键技术、氢电热能流管理方法、氢电热微网多联供系统、氨氢融合混合发电技术等主题，重点探讨：高效长寿命器件设计、源荷波动性特征及系统动态响应机制、氢电热耦合分析与协同优化、零碳燃料“制储用”全过程自洽。