「現在および新たな電解技術を用いたグリーン・アンモニア製造」(DTU、2024年)
Shows that maximizing economic efficiency (minimizing Levelized Cost of Ammonia, LCOA) often requires curtailing intermittent renewables, and introduces the metric LCOU (Levelized Cost of Utilization). It provides a framework for designing integrated green ammonia plants accounting for renewable intermittency and synthesis flexibility. Evaluates transforming conventional HB ammonia plants to operate with green hydrogen, assessing pathways including PEM and SOEC electrolyzers and electrochemical nitrogen reduction (e‑NRR). Emphasizes decarbonization potential, energy system synergies, scalability, and the critical challenges for adoption. Analyzes a full Power-to-Ammonia plant layout: renewable generation, hydrogen/nitrogen supply, synthesis, and storage. Highlights flexible operation strategies, energy storage optimization, load-ramping in HB synthesis, and cost sensitivity analyses in Italian case studies—optimal […]
「現在および新たな電解技術を用いたグリーン・アンモニア製造」(DTU、2024年)
Shows that maximizing economic efficiency (minimizing Levelized Cost of Ammonia, LCOA) often requires curtailing intermittent renewables, and introduces the metric LCOU (Levelized Cost of Utilization). It provides a framework for designing integrated green ammonia plants accounting for renewable intermittency and synthesis flexibility. Evaluates transforming conventional HB ammonia plants to operate with green hydrogen, assessing pathways including PEM and SOEC electrolyzers and electrochemical nitrogen reduction (e‑NRR). Emphasizes decarbonization potential, energy system synergies, scalability, and the critical challenges for adoption. Analyzes a full Power-to-Ammonia plant layout: renewable generation, hydrogen/nitrogen supply, synthesis, and storage. Highlights flexible operation strategies, energy storage optimization, load-ramping in HB synthesis, and cost sensitivity analyses in Italian case studies—optimal […]
エンビジョン、AIを活用した世界最大のグリーン水素・アンモニアプラントを稼動(千豊ネット・ゼロ・パーク)
Shows that maximizing economic efficiency (minimizing Levelized Cost of Ammonia, LCOA) often requires curtailing intermittent renewables, and introduces the metric LCOU (Levelized Cost of Utilization). It provides a framework for designing integrated green ammonia plants accounting for renewable intermittency and synthesis flexibility. Evaluates transforming conventional HB ammonia plants to operate with green hydrogen, assessing pathways including PEM and SOEC electrolyzers and electrochemical nitrogen reduction (e‑NRR). Emphasizes decarbonization potential, energy system synergies, scalability, and the critical challenges for adoption. Analyzes a full Power-to-Ammonia plant layout: renewable generation, hydrogen/nitrogen supply, synthesis, and storage. Highlights flexible operation strategies, energy storage optimization, load-ramping in HB synthesis, and cost sensitivity analyses in Italian case studies—optimal […]
「アンモニア生産の移行:グリーン水素ベースのハーバーボッシュ」(MethodsX、2023年)
Shows that maximizing economic efficiency (minimizing Levelized Cost of Ammonia, LCOA) often requires curtailing intermittent renewables, and introduces the metric LCOU (Levelized Cost of Utilization). It provides a framework for designing integrated green ammonia plants accounting for renewable intermittency and synthesis flexibility. Evaluates transforming conventional HB ammonia plants to operate with green hydrogen, assessing pathways including PEM and SOEC electrolyzers and electrochemical nitrogen reduction (e‑NRR). Emphasizes decarbonization potential, energy system synergies, scalability, and the critical challenges for adoption. Analyzes a full Power-to-Ammonia plant layout: renewable generation, hydrogen/nitrogen supply, synthesis, and storage. Highlights flexible operation strategies, energy storage optimization, load-ramping in HB synthesis, and cost sensitivity analyses in Italian case studies—optimal […]