Why do we need microgrids when we have traditional grids?
Some may question the necessity of microgrids alongside traditional grids. Indeed, microgrids serve as a hybrid power solution, supporting load reduction through integration with the main grid. However, their value extends far beyond this.
In today’s dynamic energy landscape, hybrid power solutions represent innovative energy management systems. They offer flexible and sustainable energy solutions, leveraging energy storage batteries and energy control systems. Microgrids can connect to the main grid while maintaining autonomous operation and energy regulation, thereby enabling smart energy management and optimization.
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Take the Nanjing microgrid project, for example. Typically, commercial and industrial buildings rely on the main grid. During peak loads, commands are transmitted via dedicated wireless networks to the microgrid’s distribution center, enabling remote control. This effectively mitigates fluctuations from renewable sources like wind and solar. Integrated energy storage batteries ensure stable energy reserves, while energy control systems optimize energy usage intelligently.
Beyond Nanjing, numerous successful microgrid cases underscore their indispensable role in energy systems. By adopting hybrid power solutions, energy storage batteries, and energy control systems, microgrids provide reliable support for energy transition and sustainable development.
Moreover, microgrids enhance energy supply resilience and stability. In the face of natural disasters or grid failures, they can operate independently, ensuring energy supply for critical facilities and communities, thus mitigating disruptions to daily life and productivity.
In summary, as a supplement to traditional power grids and hybrid power solutions, microgrids, with their unique innovative technologies and advanced energy control systems, inject new vitalit into future energy infrastructure.
