中文
Recently, the Central Committee of the Communist Party of China and the State Council issued the Outline for the Construction of a Transport Power, and issued a circular, requiring all departments in various regions to implement it conscientiously in accordance with the actual situation.
It mentions:
1. Promote new energy, clean energy, intellectualization, digitization, lightweight, environmentally friendly transportation equipment and complete sets of technical equipment.
2. Encourage and guide green bus travel, and advocate the concept of green low-carbon travel.
3. Strengthen energy conservation, emission reduction and pollution prevention. Optimize the energy structure of transportation, promote the application of new energy and clean energy, promote energy saving and emission reduction of road freight, and promote the realization of electrification, new energy and cleanliness of all urban public transport and urban logistics distribution vehicles.
In fact, China’s green traffic has already quietly developed.
Photovoltaic + Airport
The distributed photovoltaic power generation project located on the south side of runway 1 north of Beijing Daxing International Airport and the roof of its freight area has been successfully connected to the grid. As the closest photovoltaic system to the runway in the world and the first one laid near the runway in China, the construction scale of the system is 5.61MWp (Mega Watt Peak, peak output power). After grid-connected operation, it is estimated that 6.1 million kilowatt-hours of green power will be provided to the power grid every year, which is equivalent to saving 1900 tons of standard coal, reducing 966 tons of carbon dioxide and reducing carbon dioxide. 14.5 tons of sulphur dioxide are discharged, and all kinds of atmospheric pollutants are simultaneously reduced.
Photovoltaic + Aircraft
Mozi II is designed with a wingspan of 15 meters, covered with 12 square meters of solar panels and four propeller engines. Its take-off weight is only 45 kilograms. It can fly at altitudes of 6 to 8 kilometers. At a cruising speed of 65 kilometers per hour at altitude of 6,000 meters, it can be driven completely by light energy converted into electric energy. There is no exhaust emission during the flight.
Photovoltaic + High-speed Rail
Guangzhou Metro Yuzhu Depot’s 5 MW photovoltaic project has been formally connected to the grid, which is the largest domestic distributed photovoltaic power station combined with Metro traffic. It is understood that the photovoltaic project is located in Yuzhu depot of Line 5. About 70,000 square meters of solar photovoltaic power generation equipment is installed on the roof of depot using depot, main maintenance depot and so on. It adopts the mode of spontaneous self-use and surplus electricity access to the Internet. It is estimated that the average annual power generation of the project will reach 4.2 million kilowatt-hours, which will replace 1623.45 tons of coal consumption annually.
Photovoltaic + High Speed
The North Connection Line of Hangzhou Bay Sea-Crossing Bridge uses the roof of Jiaxing Nanhu Service Zone for photovoltaic project. The pavement area of photovoltaic project components is 5000 square meters, the total investment is 2 million, the project capacity is 250 KW, and the annual power generation is expected to reach 250,000 kW.
Photovoltaic + Car shed
Hangzhou Bay solar photovoltaic shed is the largest photovoltaic building integration project in the world. The project utilizes the finished car parking garage and staff parking lot of Shanghai Volkswagen Ningbo Branch.
The total installed capacity of the project is 55MW, equivalent to the size of 20 football fields, with more than 20,000 parking spaces. The project is a typical case of speeding up the implementation of “space land exchange” in Hangzhou Bay New Area of Ningbo to promote comprehensive land development.
Photovoltaic + Gas Station
The project is an integrated photovoltaic project of gas station+car shed+street lamp. It mainly uses the surrounding space of gas station to build photovoltaic parking shed and photovoltaic street lamp. The project will lay 120 photovoltaic modules on the roof of the gas station.
The project has been running safely for more than three years. The total installed capacity of the system is 30 kW, generating about 30,000 degrees of electricity per year, saving 12,000 kg of standard coal, and the annual yield is about 18%.