← 返回
光伏发电技术
★ 5.0
屋顶光伏与作为电池的电动汽车集成对日本所有市町村脱碳潜力的研究
On the decarbonization potentials of rooftop PVs integrated with EVs as battery for all the municipalities of Japan
| 作者 | Nguyen Thi Quynh Trang · Koharu Ok · Yusei Sugiyam · Takahiro Yoshi · Yujiro Hirano · Peraphan Jittrapirom · Tosiyuki Nakaegaw · Takuro Kobashi |
| 期刊 | Applied Energy |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 393 卷 |
| 技术分类 | 光伏发电技术 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | Rooftop PV can generate more electricity than current power generation in Japan. |
语言:
中文摘要
摘要 屋顶光伏(PV)系统在其脱碳潜力方面常常因技术、经济和社会障碍而被低估。然而,光伏技术的快速进步表明,屋顶光伏可能发挥的作用远超普遍认知,特别是当其与作为电池使用的电动汽车(EV)相结合时(即“光伏+电动汽车”,PV + EV)。本文针对日本全部1741个市町村,开展了屋顶光伏与电动汽车(纯电动汽车BEV,配备40 kWh电池,其中约一半容量可用于灵活性调节)集成系统的经济技术分析。假设70%的屋顶面积安装效率为20%的光伏系统,我们估算出日本屋顶光伏总装机容量可达1155吉瓦(GW),年发电量为1017太瓦时(TWh),相当于日本总发电量的1.2倍(2022财年为834.8 TWh)。仅使用“光伏”系统(PV only)平均可满足所有市町村小时级电力需求的45 ± 4%;而通过与电动汽车集成,“光伏+电动汽车”(PV + EV)系统则可满足85 ± 12%的电力需求,使发电和交通领域的碳排放减少87 ± 11%,同时有望节省33 ± 11%的成本。我们还发现,在东京特别区等高度城市化地区,由于屋顶面积相对有限,“光伏+电动汽车”系统的作用较为受限;但在农村地区,该系统最高可满足98%的电力需求,且发电量可达当地需求的数倍以上。日本北部与南部地区在脱碳潜力方面存在显著区域差异,这主要由太阳总辐射量及其季节性和昼夜分布特征以及电力需求特性的不同所驱动。这种南北差异可能影响能源贫困问题,在政府日益强化的脱碳政策背景下亟需政策关注。目前,日本国内车辆到家庭(V2H)和车辆到电网(V2G)的市场总体仍处于有限发展阶段。为充分释放屋顶光伏与电动汽车作为电池集成系统的潜力,以加速城市地区的脱碳进程,迫切需要更多的政策支持,推动全球范围内“光伏+电动汽车”系统在基础设施、研发及示范项目方面的建设与发展。
English Abstract
Abstract Rooftop photovoltaics (PV) systems are often underestimated in their decarbonization potential due to technical, economic, and social barriers. However, rapid advances in PV technology indicate that rooftop PV could play substantially more roles than generally thought, particularly by coupling with EVs as batteries (“PV + EV”). We conducted a techno-economic analysis for rooftop PV integrated with EVs (Battery Electric Vehicles: BEV with 40 kWh battery and about half of the capacity is used as flexibility) for all the 1741 municipalities in Japan. Assuming 70 % of rooftop areas are covered with PV systems with 20 % efficiency, we estimate Japan's total rooftop PV capacity as 1155 GW generating 1017 TWh of electricity. It is 1.2 times larger than Japan's total electricity generation (834.8 TWh in Fiscal Year 2022). The “PV only” system can supply 45 ± 4 % of the hourly electricity demands of all the municipalities on average. By integrating with EVs, the “PV + EV” system can supply 85 ± 12 % of the demands, reducing carbon emissions by 87 ± 11 % from electricity generation and driving, while potentially saving costs by 33 ± 11 %. We also found that “PV + EV” has limited roles in highly urbanized areas such as Tokyo special districts owing to relatively small rooftop areas, but in rural areas, it could supply up to 98 % of electricity demands with multiple times more electricity generated than their demands. We observe significant regional variation in decarbonization potential between northern and southern Japan, driven by differences in total insolation, its seasonal and diurnal distribution, and electricity demand characteristics. The north-south differences may impact energy poverty requiring policy attention under the government's increasing decarbonization policy. At present, the market for Vehicle to Home (V2H)/Vehicle to Grid (V2G) is generally limited in Japan. To unleash the potential of rooftop PV systems integrated with EVs as batteries for rapid urban decarbonization, more policy attention is urgently needed, providing supports for the infrastructure, R&D, and demonstrations of the “PV + EV” systems around the world.
S
SunView 深度解读
该研究验证了光储充一体化系统的巨大潜力,与阳光电源ST系列储能变流器、SG系列光伏逆变器及充电桩产品战略高度契合。研究显示PV+EV系统可满足85%电力需求并减排87%,凸显V2H/V2G双向充电技术的关键价值。阳光电源可基于此优化三电平拓扑和GFM控制策略,提升iSolarCloud平台对分布式光储充系统的智能调度能力,特别针对日本等高纬度地区的季节性波动优化MPPT算法,推动PowerTitan等储能方案与电动汽车电池的协同控制技术创新,抢占全球屋顶光伏与电动汽车融合市场先机。