Synergistic Planning of Multi-Path Low-Carbon Transition for Coal Power and Green Ammonia Production
石炭火力とグリーンアンモニア生産のマルチパス低炭素転換の協調計画 (AI 翻訳)
Yuantao Hu, Ming Zhou, Zhibin Song, Conghao Zhao, Zhi Zhang, Zhaoyuan Wu
🤖 gxceed AI 要約
日本語
本論文は、中国の砂漠・ゴビ・荒廃地域における大規模新エネルギー基地において、石炭火力の低炭素転換とグリーンアンモニア生産を統合した計画手法を提案する。エネルギー貯蔵、アンモニア混焼、石炭火力の低炭素化、グリーンアンモニア生産を組み合わせることで、新エネルギー利用率99.82%、化石燃料からのCO2排出10%削減、年間44.8万トンのグリーンアンモニア生産を実現する。これにより、電力システムとエネルギー部門の連携強化、新エネルギー利用率向上、国内のグリーンアンモニア供給不足の解消に貢献する。
English
This paper proposes a planning method integrating energy storage, ammonia co-firing, coal power low-carbon transformation, and green ammonia production for large-scale renewable bases in desert-gobi-wasteland areas in China. It achieves 99.82% renewable utilization, 10% CO2 reduction from fossil fuel power, and 448,000 tons/year green ammonia production. This approach enhances power system flexibility, reduces emissions, and addresses domestic green ammonia supply gaps.
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
日本でもアンモニア混焼が注目される中、中国の砂漠地域での大規模実装計画は参考になる。日本は石炭火力のフェードアウトとアンモニアサプライチェーン構築を進めており、本手法は協調計画の具体例として示唆に富む。
In the global GX context
This integrated planning model for coal-to-ammonia transition is globally relevant as countries explore ammonia co-firing for decarbonization. It demonstrates a practical pathway for combining renewable expansion with coal phase-down and green ammonia production, particularly applicable in regions with high renewable potential and existing coal infrastructure.
👥 読者別の含意
🔬研究者:Provides a novel optimization framework for multi-path low-carbon transition integrating energy storage, co-firing, and green ammonia production from renewable energy.
🏢実務担当者:Offers a concrete planning methodology for energy companies to design integrated coal power and ammonia production systems improving renewable utilization.
🏛政策担当者:Shows feasibility of achieving high renewable penetration with coal power transition and green ammonia production, informing national energy transition policies.
📄 Abstract(原文)
Abstract With the proposal of the "dual carbon" goals and the transformation and upgrading of China’s energy structure, large-scale new energy bases—particularly those in desert-gobi-wasteland areas—are being developed and constructed at an accelerated pace. The installed capacity of wind and solar power has increased rapidly. To enhance the power supply reliability of clean energy bases, improve the utilization rate of new energy, and reduce carbon emissions from fossil fuel power within these bases, this paper conducts planning research on multi-path low-carbon transition of coal power and green electricity-based ammonia production. It proposes a planning method that integrates energy storage, co-firing of coal with green ammonia, low-carbon transformation of coal power, and green ammonia production to improve the utilization rate of new energy. This planning approach achieves a new energy utilization rate of 99.82% in desert-gobi-wasteland areas, realizes a 10% reduction in carbon emissions from fossil fuel power, and enables the stable annual production of 448,000 tons of green ammonia. It can effectively promote interaction between the power system and the energy sector, improve the utilization rate of new energy, reduce carbon emissions, and address the domestic gap in green ammonia supply.
🔗 Provenance — このレコードを発見したソース
- openalex https://doi.org/10.1088/1742-6596/3233/1/012011first seen 2026-05-20 05:05:48
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