太阳能可利用率分析与碳排放减少量计算+光储充一体化运营数据

数据适用条件： 固定容量光储充一体化设施：数据来源为德阳地区内固定发电容量与充电能力的光储充一体化设施，确保数据的一致性和可比性。 数据适用范围： 2023.08-2024.12：评估周期限定在2023年8月1日至2024年12月31日，确保数据的时效性和相关性。 碳排放减少量与光伏发电评估研究：可用于研究光伏发电系统的能源供应能力与碳减排效益的匹配程度，通过对光伏组件性能参数、逆变器效率、本期发电量、当月最大日光伏发电量、单日太阳能辐照量与碳排放减少量的对比分析，评估光伏发电对碳减排目标的支撑能力，为光储充一体化设施的发电运行和碳交易机制建设提供数据支撑。 电动汽车充电需求与光伏发电匹配研究 ：可用于研究电动汽车的充电需求与光伏发电的供应能力之间的匹配程度，通过对充电次数、当月总充电量、最大日充电量与光伏发电量的对比分析，评估光伏发电对电动汽车充电的支撑能力，为电动汽车充电设施的规划和布局提供参考。 数据适用对象 政府管理部门、光储充一体化设施运营公司、能源研究机构：通过对德阳地区太阳能发电数据、电动汽车充电需求的深入分析，优化光储充一体化设施的运营

Applicable Conditions of the Dataset: Fixed-capacity photovoltaic-storage-charging integrated facilities: The data is sourced from photovoltaic-storage-charging integrated facilities with fixed power generation capacity and charging capacity in Deyang, ensuring data consistency and comparability. Applicable Scope of the Dataset: 2023.08–2024.12: The evaluation period is limited to August 1, 2023 to December 31, 2024, ensuring data timeliness and relevance. Research on Carbon Emission Reduction and Photovoltaic Power Generation Assessment: This dataset can be used to study the matching degree between the energy supply capacity of photovoltaic power generation systems and carbon emission reduction benefits. Through comparative analysis of photovoltaic module performance parameters, inverter efficiency, current-period power generation, monthly maximum daily photovoltaic power generation, daily solar irradiation and carbon emission reduction, the supporting capacity of photovoltaic power generation for carbon emission reduction targets can be evaluated, providing data support for the power generation operation of photovoltaic-storage-charging integrated facilities and the construction of carbon trading mechanisms. Research on Matching between Electric Vehicle Charging Demand and Photovoltaic Power Generation: This dataset can be used to study the matching degree between electric vehicle charging demand and photovoltaic power generation supply capacity. Through comparative analysis of charging times, monthly total charging volume, maximum daily charging volume and photovoltaic power generation, the supporting capacity of photovoltaic power generation for electric vehicle charging can be evaluated, providing references for the planning and layout of electric vehicle charging facilities. Applicable Targets of the Dataset: Government management departments, photovoltaic-storage-charging integrated facility operation companies, and energy research institutions: They can conduct in-depth analysis of solar power generation data and electric vehicle charging demand in Deyang to optimize the operation of photovoltaic-storage-charging integrated facilities.