PV Generation Case

Hitachi Astemo Automotive Powertrain Systems (Dongguan) Co., Ltd.

This project involves the installation of 7,232 monocrystalline silicon modules rated at 280 WP each, mounted on both color steel tile rooftops and concrete rooftops. The installation not only ensures optimal energy generation but also provides shading and cooling benefits for the roofs. The system operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 2.2953 million kWh, with a cumulative output of about 51.6445 million kWh over 25 years.

Hitachi Astemo Electric Motor Systems (Guangzhou) Co., Ltd.

This project involves the installation of 10,528 monocrystalline silicon modules rated at 455 Wp each, mounted on color steel tile rooftops. The installation not only achieves optimal energy generation but also provides shading and cooling benefits for the roofs. The system is connected to the grid at a voltage level of 10 KV and operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 5.2 million kWh, with a total of around 119.6 million kWh over 25 years.

Dongguan Hongda Electrical Products Co., Ltd.

This project involves the installation of 11,556 monocrystalline silicon modules rated at 450 Wp each, directly mounted on color steel tile rooftops and the ground of the factory premises. The installation not only achieves optimal energy generation but also provides shading and cooling benefits for the roofs. The system operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 6.24 million kWh, with a total of around 156 million kWh over 25 years.

Guangdong Little Genius Technology Co., Ltd.

This project involves the installation of 1,485 monocrystalline silicon bifacial modules rated at 450 Wp each, directly mounted on the concrete rooftop. The installation not only achieves optimal energy generation but also provides shading and cooling benefits for the roof. The system operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 724,000 kWh, with a total of around 16.68 million kWh over 25 years.

Nachi Precision Bearings (Dongguan) Co., Ltd.

This project involves the installation of 3,750 monocrystalline silicon modules rated at 545 Wp each, mounted on color steel tile rooftops. The installation not only achieves optimal energy generation but also provides shading and cooling benefits for the roof. The system operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 2.2 million kWh, with a total of around 50.8 million kWh over 25 years.

Dongguan Ricoh Intelligent Manufacturing Co., Ltd.

This project involves the installation of 3,216 monocrystalline silicon modules rated at 280 Wp each, mounted on concrete rooftops. The installation not only achieves optimal energy generation but also provides shading and cooling benefits for the roof. The system operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 980,000 kWh, with a total of around 22.3 million kWh over 25 years.

Dongguan Bosch Laser Instrument Equipment Co., Ltd.

This project involves the installation of 118 monocrystalline silicon modules rated at 545 Wp each, mounted on a concrete rooftop. The installation not only achieves optimal energy generation but also provides shading and cooling benefits for the roof. The system operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 700,000 kWh, with a total of around 16.4 million kWh over 25 years.

Luxottica Hua Hong (Dongguan) Eyewear Co., Ltd.

This project involves the installation of 1,910 monocrystalline silicon modules rated at 545 Wp each, mounted on a concrete rooftop. The installation not only achieves optimal energy generation but also provides shading and cooling benefits for the roof. The system operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 1.17 million kWh, with a total of around 26.5 million kWh over 25 years.

Guangdong Xinneng’an Technology Co., Ltd.

This project involves the installation of 1,289 monocrystalline silicon modules, each rated at 450 Wp, mounted on a concrete rooftop. The installation not only achieves optimal energy generation but also provides shading and cooling benefits for the roof. The system operates under a “self-consumption with surplus electricity fed into the grid” model. The estimated annual power generation is approximately 628,000 kWh, with a total of around 14.47 million kWh over 25 years.

Häagen-Dazs Automotive Components (Dongguan) Co., Ltd.

In this project, a total of 4,828 units of 435Wp monocrystalline silicon modules were installed on the color steel tile roof. This setup not only achieves the desired installation effect but also provides shading and cooling for the roof. The system operates on a self-consumption basis, with excess electricity fed into the grid. The annual power generation is approximately 2.31 million kWh, and over 25 years, it can generate a total of around 57.75 million kWh.

Dongguan Xinyi Electric Heating Machinery Co., Ltd.

Phase 1 (Capacity: 570.24 KW)
Total Solar Panels Installed: 2112 panels, each with 270Wp
Roof Type: Concrete roof
System Setup: Self-consumed electricity with surplus fed to the grid
Annual Generation: Approximately 646,700 kWh
Total 25-Year Generation: Approximately 14,450,300 kWh

Phase 2 (Capacity: 645 KW)
Total Solar Panels Installed: 2345 panels, each with 275Wp
Roof Type: Concrete roof
System Setup: Self-consumed electricity with surplus fed to the grid
Annual Generation: Approximately 731,300 kWh
Total 25-Year Generation: Approximately 16,454,700 kWh

LINGYI Itech (Guangdong) Company

This project installed 4,910 pieces of 545Wp monocrystalline silicon modules, which are mounted on a concrete roof. This installation not only achieves a good installation effect but also provides shading and cooling for the roof. The system operates in a self-consumption mode, with surplus electricity fed back to the grid. The annual electricity generation is approximately 2.899 million kWh, and the total electricity generation over 25 years is about 66.786 million kWh.

Nanxing Machinery Co., Ltd.

This project installed a total of 9,300 270Wp polycrystalline silicon modules, which were mounted on both color steel tile roofs and concrete roofs. This setup not only achieves an optimal installation effect but also provides shading and cooling for the roofs. The system operates in a self-consumption mode with surplus electricity fed back into the grid. The annual electricity generation is approximately 2.8476 million kWh, and over 25 years, it is expected to generate approximately 64.0709 million kWh.

Dongguan Yuanli Lighting Co., Ltd.

This project installed 5,426 pieces of 270Wp polycrystalline silicon modules, which were mounted on a concrete roof. The installation not only achieves the desired effect but also provides shading and cooling for the roof. The system operates on a self-generation and self-consumption basis, with surplus electricity being fed back into the grid. The annual electricity generation is approximately 1.758 million kWh, and the total electricity generation over 25 years is estimated to be around 43.95 million kWh.

EDIFIER

This project involves the installation of 1,402 pieces of 545Wp monocrystalline silicon modules, which are installed on a concrete roof. The installation not only achieves the desired effect but also provides shading and cooling for the roof. The system operates on a self-consumption basis, with excess electricity fed back into the grid. The annual power generation is approximately 867,000 kWh, and over 25 years, it is expected to generate a total of around 19.5 million kWh.

Dongguan Yakangning Fiber Products Co., Ltd.

The project installed 4,640 pieces of 270Wp polycrystalline silicon modules, which were mounted on the color steel tile roof. This setup not only achieves the desired installation effect but also provides shading and cooling for the roof. The system operates in a self-consumption mode with surplus electricity fed into the grid. The estimated annual power generation is approximately 1.3586 million kWh, and over 25 years, it is expected to generate about 30.5683 million kWh.

Huizhou Gaode Electromechanical Co., Ltd.

This project involves the installation of 3,166 units of 270Wp polycrystalline silicon modules, which are mounted on concrete roofs. This installation not only achieves optimal setup but also provides shading and cooling for the roof. The system operates in a self-consumption mode with excess power fed into the grid. The estimated annual power generation is approximately 969,400 kWh, with a total accumulated power generation of around 21.81 million kWh over 25 years.

Metro Mall, Wanjiang District, Dongguan City

This project installed 3,300 pieces of 260Wp polycrystalline silicon modules, directly mounted on the colored steel tile roof, achieving both installation effectiveness and providing shading and cooling for the roof. The system adopts a self-generation, self-use model, with excess electricity fed into the grid. The annual power generation is approximately 973,000 kWh, and the total power generation over 25 years is about 21,892,800 kWh.

Dongguan Weili Sheng Electronics Co., Ltd.

The project involved the installation of 798 units of 545Wp monocrystalline silicon modules, which were mounted on concrete rooftops. This setup not only achieved the desired installation effect but also provided shading and cooling for the roof. The system operates on a self-consumption basis, with excess power fed back into the grid. The estimated annual electricity generation is approximately 488,000 kWh, with a total of around 11.3 million kWh expected over 25 years.

Cheng Loong (Guangdong) Paper Co., Ltd.

This project involves the installation of 3,066 units of 450Wp monocrystalline silicon modules, directly mounted on a color steel tile roof. The installation not only achieves the desired result but also provides shading and cooling to the roof. The system adopts a self-consumption model with surplus electricity fed back into the grid. The annual power generation is approximately 1.518 million kWh, with a total cumulative power generation of about 37.95 million kWh over 25 years.

Dongguan Inoue High Polymer Materials Co., Ltd.

The project installs a total of 3,556 units of 450Wp monocrystalline silicon modules, directly mounted on the color steel tile roof. This not only achieves the installation effect but also provides shading and cooling for the roof. The system operates in a self-consumption mode, with surplus electricity fed into the grid. The annual electricity generation is approximately 1.738 million kWh, with a total of about 39.938 million kWh generated over 25 years.

Dongguan Jingda Electronics Co., Ltd.

The project involves the installation of 1,950 pieces of 455Wp monocrystalline silicon modules, which are mounted on a concrete roof. This setup not only achieves the desired installation effect but also provides shading and cooling for the roof. The system operates in a self-consumption mode, with excess electricity fed into the grid. The annual power generation is approximately 996,000 kWh, and the total energy generated over 25 years is approximately 22.64 million kWh.

Huizhou Chao Kuei Electronics Co., Ltd.

This project involves the installation of 2,066 pieces of 545Wp monocrystalline silicon modules, which are mounted on concrete rooftops. This setup not only achieves the desired installation effect but also provides shading and cooling for the rooftop. The system operates on a self-consumption model with surplus electricity fed into the grid. The annual electricity generation is approximately 1.226 million kWh, with a total of about 28.22 million kWh generated over 25 years.