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基于太阳能和风能的可再生氢气生产的全球技术经济与生命周期温室气体排放评估
Global techno-economic and life cycle greenhouse gas emissions assessment of solar and wind based renewable hydrogen production
| 作者 | Loiy Al-Ghussain · Zifeng Lua · Mohammad Alrbai · Sameer Al-Dahidi · Xin Hed · Amgad Elgowainy · Michael Wanga |
| 期刊 | Applied Energy |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 401 卷 |
| 技术分类 | 光伏发电技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | LCOH and CI of renewable hydrogen systems globally are mapped. |
语言:
中文摘要
摘要 本研究对利用太阳能光伏(PV)、风能以及光伏/风能混合系统结合质子交换膜(PEM)电解槽进行的可再生氢气生产进行了全球评估。采用多目标优化方法,评估了系统的经济技术性能及生命周期温室气体(GHG)排放,并考虑了系统组件中的内含排放。结果确定了以最小化氢气平准化成本(LCOH)和氢气碳强度(CI)为目标的最优配置,展示了到2030年实现成本与碳强度降低的潜力。具体而言,在中东和北非(MENA)地区以及智利等高辐照区域,独立光伏系统可实现氢气平准化成本低于6.5美元/千克H₂,碳强度低于2.5千克CO₂eq/千克H₂。在MENA、澳大利亚和美国中部等地区,风电系统可将氢气平准化成本降至5美元/千克H₂以下,碳强度降至1.5千克CO₂eq/千克H₂以下。混合系统被证明是最有效的配置,能够最大化可再生能源利用率,并同时最小化LCOH和CI。此外,可再生能源技术和PEM电解槽的技术进步及其成本进一步下降,加上氧气副产品的利用,有望使所有基于可再生能源的氢气系统的氢气平准化成本降低至1美元/千克H₂以下,并在多个关键区域实现负碳强度。
English Abstract
Abstract This study conducts a global assessment of renewable hydrogen production using solar photovoltaic (PV), wind, and hybrid PV/wind systems, integrated with proton exchange membrane (PEM) electrolyzers. A multi-objective optimization is applied to evaluate techno-economic performance and life cycle greenhouse gas (GHG) emissions, accounting for embodied emissions in the system's components. Results identify optimal configurations to minimize levelized cost of hydrogen (LCOH) and carbon intensity (CI) of hydrogen, showing potential reductions of cost and CI by 2030. Specifically, standalone PV systems can achieve LCOH less than 6.5 USD/kg H 2 and CI below 2.5 kg CO 2eq /kg H 2 in high-irradiance regions such as Middle East and North Africa (MENA) region and Chile. Wind systems in regions like MENA, Australia and Central USA can reach LCOH below 5 USD/kg H 2 and CI below 1.5 kg CO 2eq /kg H 2 . Hybrid systems emerge as the most effective configuration, maximizing the renewable energy use and minimizing both LCOH and CI. Moreover, technological advancements and further cost reduction in renewable technologies and PEM electrolyzers, along with O 2 co-product utilization, could reduce LCOH of all the RES-based hydrogen systems below 1 USD/kg H 2 and achieve negative CI in several key regions
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SunView 深度解读
该研究对阳光电源光伏制氢系统集成具有重要价值。SG系列光伏逆变器结合ST系列储能PCS可构建混合制氢系统,通过MPPT优化和VSG控制技术提升电解槽供电稳定性。1500V高压系统可降低制氢度电成本,三电平拓扑和SiC器件提高转换效率。iSolarCloud平台可实现光伏-储能-制氢全链路智能调度,优化LCOH和碳强度。研究验证的混合系统最优配置为公司开发光伏制氢一体化解决方案提供技术路径,特别适用于中东北非等高辐照地区项目拓展。