← 返回
阿塔卡马沙漠1兆瓦光伏电站的环境性能:一项生命周期评估研究
Environmental performance of a 1 MW photovoltaic plant in the Atacama Desert: A life cycle assessment study
| 作者 | D.Soler · Lucia Rigamonti · N.Gazbour · Edward L. Fuenteal |
| 期刊 | Solar Energy |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 292 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 | A 1 MWp grid-connected photovoltaic (PV) system in the Atacama Desert is presented. |
语言:
中文摘要
摘要 光伏(PV)系统是减少环境影响和支持脱碳努力的可行方案,尽管其环境影响因安装地点的不同而存在显著差异。本研究根据ISO 14040和14044标准,采用从摇篮到坟墓的生命周期评估(LCA)方法,分析了位于智利阿塔卡马沙漠的一座1兆瓦并网光伏电站的初级能源消耗和环境性能。功能单元定义为在30年寿命期内向国家电网输送1千瓦时中压电能的生产和交付过程。研究应用ReCiPe 2016中点(H)方法,涵盖17项环境影响指标。阿塔卡马沙漠的独特条件包括高水平的年总水平太阳辐照度(>2600千瓦时/平方米)、每年1.5%的组件衰减率、逆变器等部件的加速磨损、适应盐渍性和腐蚀性土壤的土建工程、较长的运输距离以及有限的水资源。清单模型主要采用实地测量数据和本地运营设施运行经验等一手数据。结果表明,除矿物资源稀缺性外,光伏电能在所有影响类别中的表现均优于智利国家电网,这归因于光伏组件制造过程中所使用的关键战略材料。气候变化影响和能源回收期分别为33.1克二氧化碳当量/千瓦时和1.18年。运维活动在生命周期评估研究中常被低估,但本研究发现其影响显著,由于部件需加速更换,导致其对总体环境影响的贡献达10%–25%。在阿塔卡马沙漠不同区域,因太阳辐照水平的差异,相对影响可能变化高达30%。综上所述,光伏太阳能发电在智利日益广泛的应用展现出一种具有前景、环境友好且具备竞争力的替代能源选择。未来的研究应探索不同配置和组件组合的大型公用规模光伏系统,以更全面地理解其环境影响。
English Abstract
Abstract Photovoltaic (PV) systems are a viable solution for reducing environmental impact and supporting decarbonization efforts, though their impact varies significantly with installation location. This study examines the primary energy consumption and environmental performance of a 1 MW grid-connected PV plant located in the Atacama Desert, Chile, using a cradle-to-grave Life Cycle Assessment (LCA) according to ISO 14040 and 14,044 standards. The functional unit is defined as the production and delivery of 1 kWh of electricity at medium voltage to the national grid over a 30-year lifetime. The ReCiPe 2016 Midpoint (H) method was applied covering 17 environmental impact indicators. The Atacama Desert’s unique conditions include high annual global horizontal irradiance values (>2600 kWh/m 2 ), a module degradation factor of 1.5 % per year, accelerated wear on components like inverters, civil works adapted to saline and corrosive soils, long transport distances, and limited water resources. The inventory models predominantly utilized primary data, including in-situ measurements and operational experiences from a locally operated facility. Results show that PV energy outperforms the Chilean national grid in all impact categories except Mineral Resource Scarcity, due to the strategic materials used in PV module manufacturing. Climate Change impact and Energy Payback Time were 33.1 g CO 2 -eq/kWh and 1.18 years, respectively. Operation and Maintenance activities, often underestimated in LCA studies, were found to be relevant, contributing 10–25 % of the environmental impacts due to accelerated components replacement. Relative impacts can vary by up to 30 % depending on solar irradiation levels across different locations in the Atacama Desert. In conclusion, the increasing adoption of PV solar power generation presents a promising, environmentally friendly, and competitive alternative for Chile. Future research should explore utility-scale PV systems with varied configurations and components to better understand their environmental impacts.
S
SunView 深度解读
该研究揭示阿塔卡马沙漠极端环境下光伏系统面临的挑战,对阳光电源产品优化具有重要参考价值。研究指出逆变器加速老化和运维成本占比10-25%的问题,验证了我司SG系列1500V逆变器高可靠性设计的必要性,以及iSolarCloud智能运维平台预测性维护功能的价值。针对高辐照(>2600 kWh/m²)、高盐碱腐蚀、组件年衰减1.5%等严苛工况,我司可通过三电平拓扑、SiC功率器件提升逆变器耐久性,结合PowerTitan储能系统平抑发电波动,降低全生命周期碳足迹(研究显示为33.1g CO₂-eq/kWh)。该案例为我司拓展南美极端气候市场提供了技术改进方向。