![]() Princeton Siemens’ microgrid demonstrates how innovative technology can be leveraged to achieve ambitious decarbonisation goals and generate substantial energy cost savings. Recently, the company launched its microgrid at the Siemens Corporate Technology North American Headquarters, which serves not only as the primary energy source, but also as the foundation for pioneering research that investigates the multifaceted aspects of energy, such as sustainable development and resilience. The macro impacts of microgrids for sustainabilityĪ major player within the realm of microgrids, Siemens believes that the implementation of cleverly organised microgrids, hybrid power plants, and energy parks has the potential to significantly aid in the process of decarbonisation. They are made up of distributed generators, energy storage systems and flexible loads, and when integrated with a smart grid, can provide a secure and stable electricity supply. Microgrids provide society with continuous, efficient, cheap and clean sources of energy. To meet this demand, there is a shift towards decentralised power plants such as microgrids which have lower capital requirements and reduced reliance on fossil fuels. The demand for electricity is expected to increase by approximately 40% between 20 due to population and economic growth. The transition away from centralised power plants towards decentralised or better distributed power plants is characterised by lower capital requirements and reduced dependence on fossil fuels. Easing reliance on central grids comes in the forms of microgrids – local electrical grids that act as a single, controllable entity – and smart grids, which take form in the utilisation of digital communications technology to better manage networks. Energy network modernisation is a critical factor facing the sector today. ![]()
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