分布式光伏发电作为绿色能源的重要应用形式，正逐步融入工业园区、商业建筑及居民住宅等场景。其全生命周期涵盖策划、设计、安装、并网及运维五大阶段，每个环节均需科学规划与精细操作。

　　Distributed photovoltaic power generation, as an important application form of green energy, is gradually integrating into industrial parks, commercial buildings, and residential areas. Its entire lifecycle covers five stages: planning, design, installation, grid connection, and operation and maintenance, each of which requires scientific planning and precise operation.

　　一、前期策划阶段：精准定位与可行性评估

　　1、 Pre planning stage: precise positioning and feasibility assessment

　　资源勘查与业主沟通

　　Resource exploration and communication with property owners

　　需筛选光照充足、屋顶结构稳固的场地，如工业厂房或商业综合体。通过实地勘查，记录屋顶朝向、倾角、遮挡物分布及用电负荷特性。以某制造企业为例，其屋顶彩钢瓦使用年限需低于5年，且变压器容量需满足光伏发电自用比例不低于70%的要求。

　　It is necessary to select sites with sufficient lighting and stable roof structures, such as industrial plants or commercial complexes. Through on-site investigation, record the orientation, inclination angle, distribution of obstructions, and electrical load characteristics of the roof. Taking a manufacturing enterprise as an example, the service life of its roof color steel tiles must be less than 5 years, and the transformer capacity must meet the requirement that the proportion of photovoltaic power generation for self use is not less than 70%.

　　技术经济测算

　　Technical and Economic Calculation

　　基于年有效光照时长与屋顶面积，测算装机容量。例如，在山东地区，1000平方米混凝土屋顶可安装150kWp光伏系统，年发电量约18万kWh。通过LCOE（平准化度电成本）模型，对比当地电价与补贴政策，评估项目收益率。

　　Calculate the installed capacity based on the annual effective light duration and roof area. For example, in the Shandong region, a 1000 square meter concrete roof can be equipped with a 150kWp photovoltaic system, generating approximately 180000 kWh of electricity annually. Using the LCOE (Levelized Cost of Electricity) model, compare local electricity prices and subsidy policies to evaluate project profitability.

　　协议签订与备案

　　Agreement signing and filing

　　与业主签订屋顶租赁或能源管理合同，明确产权归属与责任划分。随后向发改委提交项目备案申请，需准备企业营业执照、土地证、电网接入意见函等文件，通常15个工作日内可获备案批复。

　　Sign a roof lease or energy management contract with the property owner to clarify the ownership and division of responsibilities. Subsequently, the project filing application shall be submitted to the National Development and Reform Commission, and documents such as the enterprise business license, land certificate, and power grid access opinion letter shall be prepared. Generally, the filing approval can be obtained within 15 working days.

　　二、系统设计阶段：技术集成与安全规范

　　2、 System design phase: Technical integration and security specifications

　　组件选型与布局设计

　　Component selection and layout design

　　根据场地条件选择单晶硅或多晶硅组件，考虑组件效率与温度系数。例如，在高温地区宜选用温度系数低于-0.38%/℃的组件。通过PVsyst软件模拟阴影遮挡，优化组件排列间距，确保冬季日照无遮挡。

　　Choose monocrystalline silicon or polycrystalline silicon components based on site conditions, considering component efficiency and temperature coefficient. For example, components with a temperature coefficient lower than -0.38%/℃ should be selected in high-temperature areas. Simulate shadow occlusion through PVsyst software, optimize component arrangement spacing, and ensure unobstructed winter sunlight.

　　电气系统设计

　　Electrical system design

　　设计逆变器配置方案，组串式逆变器适用于复杂屋顶，而集中式逆变器则适合开阔场地。电缆选型需符合IEC 60502标准，直流侧采用光伏专用电缆，交流侧使用YJV型电缆，并设置过流保护装置。

　　Design inverter configuration scheme, string inverters are suitable for complex roofs, while centralized inverters are suitable for open spaces. The cable selection must comply with the IEC 60502 standard, with photovoltaic specific cables used on the DC side and YJV type cables used on the AC side, and overcurrent protection devices installed.

　　结构安全与防雷设计

　　Structural safety and lightning protection design

　　依据GB 50797《光伏发电站设计规范》，支架系统需满足25年使用年限要求。混凝土屋顶采用配重式基础，彩钢瓦屋顶则使用夹具固定。防雷接地电阻应低于4Ω，并安装浪涌保护器。

　　According to GB 50797 "Design Code for Photovoltaic Power Stations", the support system must meet the requirement of a 25 year service life. The concrete roof adopts a weighted foundation, while the color steel tile roof is fixed with fixtures. The lightning protection grounding resistance should be lower than 4 Ω, and surge protectors should be installed.

　　三、安装施工阶段：标准作业与质量控制

　　3、 Installation and construction phase: Standard operations and quality control

　　基础施工与支架安装

　　Basic construction and bracket installation

　　混凝土基础施工需控制标高误差在±5mm以内，采用C30混凝土浇筑。支架安装时，使用激光水平仪校准方位角，确保组件阵列朝向正南方向，倾角误差不超过±1°。

　　The construction of concrete foundation should control the elevation error within ± 5mm and use C30 concrete pouring. When installing the bracket, use a laser level to calibrate the azimuth angle, ensuring that the component array is facing due south and the tilt angle error does not exceed ± 1 °.

　　组件安装与电气连接

　　Component installation and electrical connection

　　组件安装遵循“从下到上、从左到右”顺序，使用扭矩扳手固定螺栓，扭矩值控制在15-20N·m。电气连接采用MC4插头，直流电缆穿金属管敷设，交流电缆沿桥架布置，避免与屋顶排水系统交叉。

　　The component installation follows the sequence of "from bottom to top, from left to right", using a torque wrench to fix the bolts, with a torque value controlled at 15-20N · m. The electrical connection adopts MC4 plug, and the DC cable is laid through metal pipes. The AC cable is arranged along the bridge to avoid crossing with the roof drainage system.

　　逆变器与监控系统调试

　　Inverter and monitoring system debugging

　　逆变器安装位置需通风良好，周围预留50cm散热空间。调试时设置最大功率点跟踪参数，并验证防孤岛保护功能。监控系统接入云端平台，实现发电量、设备状态及故障预警的实时监测。

　　The installation location of the inverter should have good ventilation and a 50cm heat dissipation space should be reserved around it. Set the maximum power point tracking parameter during debugging and verify the anti islanding protection function. The monitoring system is connected to the cloud platform to achieve real-time monitoring of power generation, equipment status, and fault warning.

　　四、并网验收阶段：合规接入与电能计量

　　4、 Grid acceptance stage: compliant access and energy metering

　　并网申请与现场勘查

　　Grid connection application and on-site investigation

　　向电网公司提交并网申请表、设备型式认证报告及系统接入图。电网受理后，安排人员现场核查设备参数、保护装置及接地系统，确保符合DL/T 5729《配电网规划设计技术导则》。

　　Submit the grid connection application form, equipment type certification report, and system access diagram to the power grid company. After the acceptance of the power grid, personnel will be arranged to conduct on-site verification of equipment parameters, protective devices, and grounding systems to ensure compliance with DL/T 5729 "Technical Guidelines for Distribution Network Planning and Design".

　　计量装置安装与调试

　　Installation and commissioning of measuring devices

　　安装双向智能电表，精度等级不低于0.5S级。并网点设置断路器，具备过流、欠压保护功能。调试时验证关口电能计量装置的数据传输准确性，确保与电网调度系统无缝对接。

　　Install bidirectional smart meters with an accuracy level of no less than 0.5S. Install circuit breakers at the grid connection point with overcurrent and undervoltage protection functions. Verify the accuracy of data transmission of the gateway energy metering device during debugging to ensure seamless integration with the power grid dispatch system.

　　验收测试与并网运行

　　Acceptance testing and grid connected operation

　　进行绝缘电阻测试、极性校验及功率因数测试，所有指标合格后签署并网验收报告。并网后需通过72小时试运行，期间发电量偏差不超过±3%。

　　Conduct insulation resistance testing, polarity verification, and power factor testing, and sign the grid connection acceptance report after all indicators are qualified. After grid connection, a 72 hour trial operation is required, during which the deviation of power generation should not exceed ± 3%.

　　五、运维管理阶段：智能监测与预防性维护

　　5、 Operation and Maintenance Management Stage: Intelligent Monitoring and Preventive Maintenance

　　日常巡检与数据监测

　　Daily inspection and data monitoring

　　制定巡检计划，重点检查组件热斑、逆变器散热风扇及电缆接头。通过红外热成像仪检测组件温度，异常温升超过20℃时立即处理。利用监控平台分析发电曲线，识别效率衰减组件。

　　Develop an inspection plan, focusing on checking component hot spots, inverter cooling fans, and cable joints. Detect the temperature of the components using an infrared thermal imaging device, and handle any abnormal temperature rise exceeding 20 ℃ immediately. Analyze the power generation curve using a monitoring platform and identify efficiency degradation components.

　　定期维护与故障处理

　　Regular maintenance and troubleshooting

　　每季度清洗组件表面，使用软毛刷与去离子水，避免机械损伤。每年进行接地电阻测试，确保值低于4Ω。建立故障响应机制，一般故障24小时内处理，重大故障48小时内恢复。

　　Clean the surface of the components quarterly using a soft bristled brush and deionized water to avoid mechanical damage. Conduct an annual grounding resistance test to ensure that the value is below 4 Ω. Establish a fault response mechanism, generally handling faults within 24 hours and restoring major faults within 48 hours.

　　性能优化与寿命管理

　　Performance optimization and lifespan management

　　定期评估系统效率，对比设计值与实际发电量，通过调整逆变器参数或优化组件布局提升效率。对运行超过10年的系统，进行支架防腐处理及电缆绝缘检测，延长设备寿命。

　　Regularly evaluate system efficiency, compare design values with actual power generation, and improve efficiency by adjusting inverter parameters or optimizing component layout. Perform bracket anti-corrosion treatment and cable insulation testing on systems that have been in operation for over 10 years to extend equipment lifespan.

　　分布式光伏发电项目的成功实施，需贯穿全生命周期的精细化管理。从前期资源评估到后期智能运维，每个环节均需以技术标准为准绳，以数据驱动决策，方能实现清洁能源的高效利用与长期收益。

　　The successful implementation of distributed photovoltaic power generation projects requires refined management throughout the entire lifecycle. From early resource assessment to later intelligent operation and maintenance, each link needs to be guided by technical standards and data-driven decision-making in order to achieve efficient utilization and long-term benefits of clean energy.

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