The first building photovoltaic integration project in the Winter Olympics

The first building photovoltaic integration project in the Winter Olympics

  Yesterday (10th), the Beijing Municipal Development and Reform Commission has been disclosed, the construction of the building photovoltaic integrated application project in the mountain news center of Beijing Winter Olympics Yanqing District.

According to reports, this facility expects annual power generation 10,000 to reduce carbon dioxide tons per year.

This is also the first building photovoltaic integration application project in the 2022 Winter Olympics. According to the plan, the renewable energy in the city in 2022 has more than 10% of the total amount of energy consumption in energy consumption.

The photovoltaic power generation has significant energy, environmental protection and economic benefits, one of the high quality green energy. According to the "Notice on Further Supporting Photovoltaic Power Generation System Promotion Applications last year" Six major sunshine projects are implemented in the fields of rural, infrastructure, and public institutions. New areas, new construction priority application photovoltaic power generation, driving urban transformation through photovoltaic power generation, driving the relevant industrial optimization and upgrading. New sunroems for Winter Olympics can light, will power generation, not only beautiful, but also provide an effective way to reduce carbon emissions in the building. From the appearance, the Mountain News Center Building Photovoltaic Integrated Application Project is an arrangement black skylight on the building. The project will be part of the skylight building materials in the news media, which is installed in 64 square skylights over the news media hall, combined with the inclination of the sunroofed, realizing the double function of architectural lighting and photovoltaic power generation.

This photovoltaic power generation facility uses spontaneous self-use, and the operating mode of the 余 电电 is connected to the mountain news center low voltage distribution system.

  From the technical application and design details, the project is different from the previous conventional distributed roof photovoltaic system, which has achieved multiple innovations in design implementation. "The photovoltaic module is set on the roof sunroof. As part of the sunroof building, it fully reflects the design concept of the photovoltaic building integrated system." The relevant person in charge said that the sunroof is a side-optometry, the photovoltaic module is black, every 4 The block assembly is mounted on one skylight, such as the black glass curtain wall is placed above the sunroof, so that the mountain news center is full of modern, scientific skills, and achieves the combination of photovoltaic power generation and building landscape.

  "Mountain News Center Building PV integration application project total capacity kW, expects to generate electricity, is the first building photovoltaic integration application project in Beijing 2022 Winter Olympics Yanqing Division.

"The relevant person in charge of the Beijing Development and Reform Commission said that the building photovoltaic integration is one of the form of technological innovation, the broad market prospects wide, has a variety of application scenarios, high-level combination with building combination, and can be fully developed with urban development Fusion.

  The reporter learned that according to the average annual power generation, the project can save approximately coal tons per year, carbon dioxide reduction tons, and the energy saving and emission reduction is significant.

Next, the Beijing Municipal Development and Reform Commission will also accelerate research on the promotion of building photovoltaic integration techniques and land in a broader field. (Reporter Cao Zheng) (Original title: The first building photovoltaic integration project in Yanqing Division in Winter Olympics is completed by more than 36 tons of carbon dioxide per year).