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氨经济中的关键下游催化过程
Critical downstream catalytic processes for an NH3 economy
| 作者 | Keshia Saradima Indriadiab1 · Yankun Duc1 · Qian Hecd · Ning Yanab |
| 期刊 | Applied Energy |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 393 卷 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | Challenges abound in catalyst material reactor design and separation processes for obtaining high purity H2 from NH3. |
语言:
中文摘要
摘要 氨(NH₃)因其高能量密度、易于液化以及在大规模合成、运输和储存方面已有的技术积累,被认为是极具前景的绿色能源载体之一。然而,要有效利用氨作为能源,许多下游过程仍需进一步发展。本综述重点讨论了两个关键催化过程所面临的主要障碍与挑战,即氨分解和催化氨燃烧。在第一部分中,我们探讨了在不同应用场景下通过氨分解获得高纯度、高压氢气所面临的技术难题。随后,我们分析了氨分解与催化氨燃烧在将氨直接用作燃烧燃料的过程中可能发挥的作用。深入理解并进一步优化这些催化过程,对于推动氨经济的发展至关重要,有助于构建更加环境友好的能源体系。
English Abstract
Abstract Ammonia (NH 3 ) is among the most promising green energy carriers, due to its high energy density, ease of liquification, and existing know-hows for its large-scale synthesis, transportation, and storage. However, to effectively harness NH 3 as an energy source, many downstream processes still need further development. This review highlights the barriers and challenges in two of the critical catalytic processes, namely ammonia decomposition and catalytic ammonia combustion. In the first part, we discuss the challenges of obtaining high purity and high-pressure hydrogen via ammonia decomposition in various application scenarios. Then, we discuss the potential roles of ammonia decomposition and catalytic ammonia combustion in the processes where NH 3 is directly used as a combustion fuel. Understanding and further optimizing these catalytic processes are crucial to facilitate an NH 3 economy, thereby fostering a more environmentally conscious energy landscape.
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SunView 深度解读
该氨能催化技术研究对阳光电源储能系统具有前瞻价值。氨作为高密度能量载体,其分解制氢及催化燃烧技术可与ST系列PCS及PowerTitan储能系统形成互补方案。氨储能可解决长时储能难题,通过氨-氢转换为储能系统提供稳定氢源,配合燃料电池实现季节性能量管理。建议关注氨制氢电力调节技术,探索氨储能与电化学储能混合系统架构,为iSolarCloud平台拓展多元储能调度算法,提升可再生能源消纳能力和系统经济性。