"利用现有和新兴电解技术进行绿色氨生产"(德国技术大学,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 […]
"利用现有和新兴电解技术进行绿色氨生产"(德国技术大学,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 […]
全球最大的人工智能绿色氢气和氨气工厂(赤峰零净园区)投入运营
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 […]
"氨生产转型:基于氢的绿色哈伯-博施"(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 […]