The paradigm of future power systems described here offers a method of standardizing the interface of all electrical supplies, including conventional power plants and new add-ons, such as wind/solar farms, electrical vehicles and energy storage systems, and a majority of loads with the transmission and distribution networks, by exploiting the synchronisation principle of synchronous machines. This model opens the prospect of achieving completely autonomous operation of power systems.
How to Achieve Completely Autonomous Power in the Next Generation of Smart Grids
Posted: 13 Sep 2013
Primary Committee:IEEE Smart Grid Newsletters
Sponsoring Society Members: Free
IEEE Members: $5.00
Please sign in at the top of the page. If you are not an IEEE member, please create a free account to make a purchase or become a society member to have access to all materials for free.
Overview of the Microgrid Controller Innovation Challenge at the NREL presented by Sarah Truitt, Przemyslaw Koralewicz, Erfan Ibrahim, and Anne Miller
DER and Grid Management - Putting DERMS on the Desk presented by Alex Portilla, Jesse Gantz and Ethan Boardman
Architectures and Algorithms for Distributed Generation Control of Inertia-Less AC Microgrids presented by Alejandro Dominguez-Garcia
P2030.10 Standard for DC Microgrids for Rural and Remote Electricity Access Applications presented by Brian T. Patterson
EVs, Chargers, Grid Integration and Lessons Learned from Public Chargers presented by Doug Houseman, Sean Morash and Scott Fisher
Interview with Peter Cappers - Impacts of SGIG Consumer Behavior Studies of Time-Based Rates on Customer Acceptance, Retention and Response
Impacts of SGIG Consumer Behavior Studies of Time-Based Rates on Customer Acceptance, Retention and Response with Peter Cappers