Carport Photovoltaic Power Station Commercial and Industrial Photovoltaic Power Station Investment

Annual Electricity Generation Calculation

Solar Photovoltaic System Efficiency Analysis

1) Photovoltaic Temperature Factor

     Photovoltaic cells efficiency changes with their operating temperature. When their temperature increases, most types of photovoltaic cells show a decreasing trend in efficiency. The derating factor is taken as 96%.

2) Dust Loss of Photovoltaic Array

      Due to pollution caused by dust or accumulated water on photovoltaic modules, statistics show that the impact on frequently rain-washed photovoltaic modules averages between 2~4%, while for dirtier modules without rain washing, the impact averages between 8~10%. The project location experiences windy springs and rainy summers. Considering comprehensively, the derating coefficient is taken as 3%, meaning the pollution derating factor is 95%.

3) Average Inverter Efficiency

Currently, the average efficiency of grid-connected photovoltaic inverters is about 97.5%.

4) DC Power Distribution Loss of Photovoltaic Array

Preliminary estimates indicate that the DC power distribution loss of the photovoltaic array is about 1.5%. The comprehensive distribution loss coefficient is 98.5%.

5) Unit Availability

       Although the failure rate of solar cells is extremely low, regular maintenance and grid faults still cause certain losses. The loss coefficient is taken as 1%, and the availability of the photovoltaic power generation system is 99%.

6) Energy losses such as internal power consumption, step-up transformer loss, and line loss in the photovoltaic power plant account for 2%, with a utilization rate of 98%;

7) Solar panel variability loss is 2%, with a utilization rate of 98%.

8) Unusable radiation loss in the morning and evening is 2%, with a utilization rate of 98%.

Combining the above derating factors, the comprehensive efficiency of the fixed polycrystalline silicon battery array system is 81.6%.

       The photoelectric conversion efficiency of crystalline silicon photovoltaic modules decays year by year. The average annual effective utilization hours over the 25-year lifespan of the entire photovoltaic power generation system also decrease annually. The annual decay of the photovoltaic modules used in this project does not exceed 10% within 10 years and does not exceed 20% within 25 years.

      Jiangsu Mangzhong Construction Co., Ltd. is a comprehensive energy service provider focused on the photovoltaic field, dedicated to being a smart energy enterprise involved in photovoltaic power plant investment, development, design, construction, intelligent operation and maintenance, professional consulting services, and photovoltaic power plant equipment recycling.

Company Name: Jiangsu Mangzhong Construction Co., Ltd.

Business Scope: Photovoltaic power plant EPC and photovoltaic solar power plant investment

Company Landline: 025-5888 3737

Mobile Number: 159 5163 4545

Company Website: http://www.mangz.cn