Advancing the Future of Ammonia: Green Technologies, Process Intensification, and Pathways to Industrial Uptake
アンモニアの未来を拓く:グリーン技術、プロセス強化、産業導入への道筋 (AI 翻訳)
Aniket Samanta, Bittesh Barman, Brindha Ramasubramanian, Nilankar Diyali, Ajay Rathour, Biswajit Mandal, Avijit Ghosh, S. Chakrabortty, Bhaskar Biswas, T. K. Wong, G. Dalapati
🤖 gxceed AI 要約
日本語
本レビューは、グリーンアンモニアを脱炭素化の鍵として位置づけ、電解・プラズマ法等の革新的生産技術と触媒進展を体系的に整理。低温・低圧合成の進歩、アンモニアクラッキング技術、農業・エネルギー・輸送での応用可能性を論じる。
English
This review examines green ammonia as a key decarbonization enabler, covering novel production technologies (electrochemical, plasma, catalysis) and ammonia cracking. It highlights advances in low-temperature, low-pressure synthesis and the potential for scalable, cost-effective green ammonia in agriculture, energy, and transportation.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本は水素キャリア・発電燃料としてアンモニアを重視しており、本レビューは日本のGX戦略におけるアンモニア活用の技術的基盤を提供する。
In the global GX context
Green ammonia is central to global decarbonization efforts as a hydrogen carrier and low-carbon fuel. This synthesis of production technologies and catalysts provides a roadmap for industrial uptake, relevant to ISSB-aligned transition plans and climate disclosure on technology pathways.
👥 読者別の含意
🔬研究者:Provides a comprehensive overview of emerging green ammonia technologies and catalysts, useful for identifying research gaps.
🏢実務担当者:Offers insights into scalable green ammonia production methods that can inform corporate transition strategies.
🏛政策担当者:Highlights the potential of green ammonia for national decarbonization plans, particularly in hard-to-abate sectors.
📄 Abstract(原文)
Green ammonia (NH 3 ) is emerging as a cornerstone for building a sustainable energy economy, aligning with global goals for decarbonization and industrial transformation. Its versatility extends across agriculture, sustainable hydrogen production, and carbon‐neutral transportation, making it a critical enabler of a greener future. While the Haber–Bosch process remains the conventional method for ammonia synthesis, it is highly energy‐intensive and carbon‐heavy. To address these challenges, innovative technologies, including electrochemical and plasma‐based processes, are being developed to enable large‐scale ammonia production with reduced greenhouse gas emissions. Recent advances in catalysis have been central to this transition. Novel catalysts such as metal hydrides, nitrides, and single‐atom systems offer enhanced efficiency, enabling ammonia synthesis at lower temperatures and pressures compared to the traditional Haber–Bosch route. In parallel, electrochemical nitrogen reduction reactions (NRRs) and photocatalytic pathways using advanced materials provide new opportunities for sustainable NH 3 generation. Another important technology is ammonia cracking, which decomposes NH 3 into H 2 and N 2 . Collectively, these developments improve the viability, scalability, and cost‐effectiveness of green ammonia for applications in agriculture, energy, and environmental systems.
🔗 Provenance — このレコードを発見したソース
- semanticscholar https://doi.org/10.1002/ente.202502015first seen 2026-05-28 05:18:40 · last seen 2026-06-03 05:19:36
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