With the rapid development of 5G, the Internet of Things and smart cities, the number of communication base stations has grown at an extremely fast pace. As a key node for information transmission, base stations not only require stable power supply but also have to deal with complex and changeable external environments. The traditional energy supply methods have gradually become outdated, so "integrated energy containers" are becoming an inevitable choice for the development of base stations.
In areas without municipal electricity or with unstable power supply, base stations often rely on diesel engines for power supply.
High costs: The operation and maintenance expenses of oil engines are high, and fuel replenishment is difficult.
High risk: There are safety hazards in oil storage, and carbon emissions do not meet green requirements.
Low efficiency: The traditional power supply method is decentralized, making it difficult to achieve remote monitoring and intelligent operation and maintenance.
With the rise in energy prices and the acceleration of low-carbon transformation, the telecommunications industry urgently needs a new solution.
The innovative products represented by the HJ-SG series of site energy photovoltaic containers of Huijue Group integrate "power generation, energy storage, power distribution and communication monitoring" in a standard container, truly achieving integrated energy management.
Multi-energy complementarity: Supports mixed power supply of photovoltaic, wind power, oil turbine and energy storage to ensure the stable operation of base stations around the clock.
Plug and play: Factory prefabrication, ready for use after on-site hoisting, significantly shortening the construction period.
Intelligent control and management: Built-in monitoring system, enabling remote control of switches and real-time monitoring of energy status.
Strong environmental adaptability: It adopts an aluminum alloy +FRP corrosion-resistant design, capable of withstanding harsh environments such as coastal areas and mountainous regions.
Meeting the high power consumption requirements of 5G: With the development of 5G and edge computing, the energy consumption of base stations is higher than that in the 4G era. Integrated energy containers provide reliable power supply guarantees.
Supporting the carbon neutrality goal: By introducing clean energy sources such as photovoltaic and wind power, the carbon emissions from base station operation and maintenance have been significantly reduced.
Reduce operation and maintenance costs: Remote management and modular design enable operators to save a significant amount of labor and maintenance expenses.
Adapting to globalization: It can be implemented in remote mountainous areas, islands, and edge nodes of smart cities.
The communication base stations of the future will no longer merely be devices for information transmission, but also the infrastructure of smart cities and the digital economy. To ensure the stability, greenness and efficiency of the communication network, an integrated energy container is the best solution. It enables base stations to no longer be constrained by power conditions, bringing lower costs, higher reliability and a more sustainable development path to the industry.
In other words, future base stations without integrated energy containers would be as unimaginable as smartphones without batteries.
