Ardakanian, Omid.
Integration of Renewable Generation and Elastic Loads into Distribution Grids [electronic resource] / by Omid Ardakanian, S. Keshav, Catherine Rosenberg. - XV, 79 p. 15 illus. online resource. - SpringerBriefs in Electrical and Computer Engineering, 2191-8112 . - SpringerBriefs in Electrical and Computer Engineering, .
Introduction -- Related Work -- System Model -- Optimal Control of Active End-nodes -- Evaluation -- Conclusion.
This brief examines the challenges of integrating distributed energy resources and high-power elastic loads into low-voltage distribution grids, as well as the potential for pervasive measurement. It explores the control needed to address these challenges and achieve various system-level and user-level objectives. A mathematical framework is presented for the joint control of active end-nodes at scale, and extensive numerical simulations demonstrate that proper control of active end-nodes can significantly enhance reliable and economical operation of the power grid.
9783319399843
10.1007/978-3-319-39984-3 doi
Engineering.
Computer communication systems.
Electrical engineering.
Engineering.
Communications Engineering, Networks.
Computer Communication Networks.
TK1-9971
621.382
Integration of Renewable Generation and Elastic Loads into Distribution Grids [electronic resource] / by Omid Ardakanian, S. Keshav, Catherine Rosenberg. - XV, 79 p. 15 illus. online resource. - SpringerBriefs in Electrical and Computer Engineering, 2191-8112 . - SpringerBriefs in Electrical and Computer Engineering, .
Introduction -- Related Work -- System Model -- Optimal Control of Active End-nodes -- Evaluation -- Conclusion.
This brief examines the challenges of integrating distributed energy resources and high-power elastic loads into low-voltage distribution grids, as well as the potential for pervasive measurement. It explores the control needed to address these challenges and achieve various system-level and user-level objectives. A mathematical framework is presented for the joint control of active end-nodes at scale, and extensive numerical simulations demonstrate that proper control of active end-nodes can significantly enhance reliable and economical operation of the power grid.
9783319399843
10.1007/978-3-319-39984-3 doi
Engineering.
Computer communication systems.
Electrical engineering.
Engineering.
Communications Engineering, Networks.
Computer Communication Networks.
TK1-9971
621.382