At 17:30 on August 11th, the No. 1 unit of the Yingbulu hydropower station in the Congo (Bhubu), which was built by the 14th Bureau of the China Water Conservancy and Hydropower Construction Co., Ltd., was successfully connected to the grid for power generation. At this point, all four units at the Yingbola Power Plant were connected to the grid for power generation, and major node targets in the construction of the power station have been achieved.
The Yingbulu Hydropower Station is the largest power station in the Congo so far. It has installed 4 sets of 30,000-kilowatt generating units with a total installed capacity of 120,000 kilowatts. The annual average generating capacity is 681.5 million kilowatt-hours, which will become the national grid of Congo (Brazzaville) after completion. The main power station, the capital city of Brazzaville, Congo, and other cities along the route will bid farewell to the era of power shortage, and the supply and demand contradictions of the Congo as a whole are expected to reach a balance.
Since the foundation of the power plant in 2004, the construction of the staff of the China National Bureau of Hydro-Electricity 14 has overcome many difficulties such as complex geological terrain, difficult construction, transportation difficulties, scarcity of supplies, and disease epidemics, and it has finally completed most of the key nodes of the project. On June 22, units No. 4 and No. 3 of Yingbuzol Power Station were connected to the grid in advance. On July 8th, Unit 2 was connected to the grid in advance. On August 11th, the last unit of the power station was connected to the grid in advance. China's hydropower fulfilled its solemn promise with its strength and reputation, fully demonstrated its performance ability and technology level, and won honors for Chinese enterprises.
An air heat exchanger is a device that is used to transfer heat between two air streams. It is commonly used in heating, ventilation, and air conditioning (HVAC) systems. The heat exchanger can be designed to allow the two air streams to be either separately or together.
Generally, we classify the air heat exchanger into Finned Tube Heat Exchanger, Plate Type Air Heat Exchanger, Seamless Pipe Air Heat Exchanger, Twisted Heat Exchanger, etc. according to its structure.
Air heat exchangers are commonly used for a variety of applications in the HVAC system, such as space heating, cooling, humidification and air circulation. In space heating applications, air heat exchangers are used to transfer heat from outside air to indoor air, in order to provide heat for the building. In cooling and air circulation applications, air heat exchangers are used to transfer heat from an indoor space to the outside. in order to keep the building cool.
The main advantage of using an air heat exchanger is that it is very efficient in transferring heat energy between the two streams without any loss. It is also relatively inexpensive, compared to other types of heat exchangers. Additionally, air heat exchangers are small and compact, making them ideal for applications in tight spaces.
Air Heat Exchanger,Fin Fan Exchanger,Fin Fan Air Cooler,Fin Type Heat Exchanger
Guangdong Jiema Energy Saving Technology Co.,Ltd , https://www.heatexchangerjiema.com