![]() It employs sensors that monitor and report the status of grid-enabled devices. The final part is the digital communication and control infrastructure, which is what makes the grid truly smart. Software programs written for the grid allow utilities to determine electricity efficiency as well as monitor the electrical functions of consumers and generators. The smart devices mentioned above include computer-controlled generators and power sources, as well as meters, smart electronic devices, and dedicated monitors, the sole purpose of which is to gather information about the power demand of smart cities, its availability from diverse sources, the delivery capacity of each component of the grid and the energy flow throughout the system. In addition to the conventional grids’ power-generating facilities and transmission networks, the smart power grid consists of 3 components: Read more: Rollout Strategy for 250 Million Smart Meters in India How Does a Smart Grid Work? Visit our website to learn more about the range of smart electricity meters available at Genus. Changing an unintelligent infrastructure into a smart one lies in creating a system of adaptive feedback loops, allowing the grid itself to learn the ropes rather than requiring human intervention at every turn.Īt Genus, our flagship range of smart Genus meter is capable of handling the elevated functionalities and capabilities of a smart city. On the provider side, a smart grid will bring about an ease in demand and supply management.Īlso, with more and more EVs on the road, having a smart grid infrastructure will help utilize the energy produced/stored by the consumer to compensate for the ‘spinning reserve’ of wind turbines. ![]() As a user, you also get the freedom to control usage from high-wattage appliances like electric water heaters, air conditioning, refrigerators, etc., by virtue of smart grid-enabled functions like peak demand management. Plus, consumers can also review their contribution to carbon emissions, allowing them to make more informed decisions. The most important element in this is the smart meters, which enable the users to calculate real-time and exact electricity usage through functions like dynamic pricing and others at system level. Still, most of them lack bi-directional digital communications capabilities.Īdvanced metering infrastructure (AMI) and smart grids for smart cities fill this gap by connecting the consumers and power generation grid via a bidirectional exchange of information. Of course, in some instances, they are required only for remote reading purposes. How Do Smart Grid Solutions Allay the Shortcomings of Traditional Infrastructures?Ĭurrently, the power distribution system possesses static consumer tariffs, is unidirectional, and typically incorporates simple meters, incapable of two-way data exchange. ![]() As a result, smart grid solutions make up the heart of a smart city. Lastly, it allows for the safe, reliable, and secure integration of renewable and distributed energy resources.Īll these functionalities add up to an energy infrastructure that is more sustainable, reliable, and resilient.It educates and informs consumers about their power usage, allowing them to calculate costs and autonomously make decisions about their power consumption. ![]()
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