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  • Intelligent Power Generation

    Intelligent Power Generation

    Digital Technology Solves Three Problems of the New Power System: Safety, Greenness and Efficiency

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  • Solutions

Huawei works with top ecosystem partners to build intelligent power plants

China's dual-carbon goals, the deep peak regulation, achieving ultra-low carbon emissions, and ensuring flexible operations have become popular areas for research and have created inevitable trends for development in the field of power generation. Power generation enterprises urgently need to adopt new technologies to achieve goals of intelligent transformation. The State Council, local governments, and power generation groups have all issued documents on the construction of intelligent power plants, which call for measures to improve the level of intelligence in power supply, strengthen the construction of plant-level intelligence for both traditional and new energy power generation, and promote power generation-grid-load. The ultimate goals are to improve the quality and efficiency of power generation, promote multi-energy complementation, and increase the percentage of renewable energy consumption.

Centered on Spark architecture, Huawei's intelligent power generation solution offers digital power infrastructure, smart thermal power, smart new energy, smart hydropower, and smart nuclear power solutions at the four layers of cloud, pipe, edge, and device. The solution aims to build a secure, efficient, user-friendly, and intelligent green power generation ecosystem, helping power generation companies go digital and improve efficiency and intrinsic safety.

Solutions

Huawei Galaxy AI Power Plant Network Solution

Huawei Galaxy AI Power Plant Network Solution

As a new energy source, wind power is becoming increasingly popular, but the large-scale deployment of wind turbines brings many challenges to the O&M of wind farms. Difficult security: Wind farms are located in remote areas with poor public network coverage. Operators cannot connect to the Internet once they leave the booster station. There is no signal in the wind turbine, which means accidents cannot be detected in time. Low inspection efficiency: Wind turbines are distributed in huge areas that are often hundreds of kilometers in size. The manual entry of inspection data means a heavy workload, and the efficiency of issuing work tickets is low. High turnover leads to an insufficient number of operators and the delayed handling of onsite problems.

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