Lab Home | Phone | Search
Center for Nonlinear Studies  Center for Nonlinear Studies
 Home 
 People 
 Current 
 Executive Committee 
 Postdocs 
 Visitors 
 Students 
 Research 
 Publications 
 Conferences 
 Workshops 
 Sponsorship 
 Talks 
 Seminars 
 Postdoc Seminars Archive 
 Quantum Lunch 
 Quantum Lunch Archive 
 P/T Colloquia 
 Archive 
 Ulam Scholar 
 
 Postdoc Nominations 
 Student Requests 
 Student Program 
 Visitor Requests 
 Description 
 Past Visitors 
 Services 
 General 
 
 History of CNLS 
 
 Maps, Directions 
 CNLS Office 
 T-Division 
 LANL 
 
Sunday, July 14, 2013
2:00 PM - 3:30 PM
CNLS Conference Room (TA-3, Bldg 1690)

Seminar

Toward renewable and efficient power systems

Dennice Gayme
Johns Hopkins University

The electric power grid is undergoing rapid changes driven by demand growth, rising energy costs, concerns about energy security and the desire to integrate more renewable energy sources. In order to facilitate these changes a greater understanding of how they will affect both the stability and performance of the power system is required. For example, the addition of inherently intermittent renewable energy sources such as solar and wind power will affect the power balance on the grid. The nature of these resources also has the potential to make the power system more distributed through the addition of numerous small wind and solar plants. This talk illustrates the use of control and optimization based methods to provide insight into a few example problems related to the design, operation and management of the envisioned new power system. First, we discuss the use of storage to provide greater system flexibility and to mitigate the inherent variability of renewable sources. We then extend this idea to investigate the factors that drive optimal storage sizing and siting in a transmission network. The second part of the talk will briefly introduce two complementary problems. The first examines how increasing amounts of distributed generation will affect power system efficiency. In particular, we evaluate the losses associated with synchronizing a power system after a transient disturbance or in maintaining synchrony in the face of ongoing disturbances and their relationship to the network properties. Finally, we address the question of how wind farm placement affects system damping and offers control strategies to drive the frequency response of the integrated system to a desired shape. The array of problems discussed represent results and analysis for a small subset of stability and performance issues related to grid efficiency and are meant to demonstrate the fact that achieving the full potential of “smart” and clean power systems is a multifaceted problem that will require a combination of strategies.

Host: Misha Chertkov