The concept of installing and operating electric generating equipment at or close to the site of in which the power can be used is called “distributed generation” (DG). Distributed generation provides electricity to customers on-site or supports a distribution network, connecting towards the grid at distribution level voltages.
The standard type of electricity generation within the U . s . States, which can be known as “central” generation, includes building and operating large power plants, transmitting the ability over distances after which getting it delivered through power company distribution systems.
The concept of installing and operating electric generating equipment at or close to the site of in which the power can be used is called “distributed generation” (DG). Distributed generation provides electricity to customers on-site or supports a distribution network, connecting towards the grid at distribution level voltages. DG technologies include engines, small (and micro) turbines, fuel cells, and photovoltaic systems.
Distributed generation may provide some or all customers’ electricity needs. Customers may use DG to lessen demand charges enforced by their electric utility in order to provide premium power or reduce ecological emissions. DG may also be used by electric utilities to boost their distribution systems. A number of other applications for DG solutions exist.
With existing technology, every industrial or commercial facility including factories, campuses, hospitals, hotels, shops, malls, airports, and apartment structures can generate enough electricity to satisfy its power needs under normal conditions, in addition to have back-up power throughout a blackout.