Sign in
Author
|
Conference
|
Journal
|
Organization
|
Year
|
DOI
Look for results that meet for the following criteria:
since
equal to
before
between
and
Search in all fields of study
Limit my searches in the following fields of study
Agriculture Science
Arts & Humanities
Biology
Chemistry
Computer Science
Economics & Business
Engineering
Environmental Sciences
Geosciences
Material Science
Mathematics
Medicine
Physics
Social Science
Multidisciplinary
Keywords
(10)
Autonomic System
Design Principle
Electric Power
Energy Source
Energy Storage
Energy Transfer
Lessons Learned
Network Design
Renewable Energy
United States
Subscribe
Academic
Publications
An Architecture for Local Energy Generation, Distribution, and Sharing
An Architecture for Local Energy Generation, Distribution, and Sharing,10.1109/ENERGY.2008.4781028,Mike M. He,Evan M. Reutzel,Xiaofan Jiang,Randy H. K
Edit
An Architecture for Local Energy Generation, Distribution, and Sharing
(
Citations: 11
)
BibTex
|
RIS
|
RefWorks
Download
Mike M. He
,
Evan M. Reutzel
,
Xiaofan Jiang
,
Randy H. Katz
,
Seth R. Sanders
,
David E. Culler
,
K. Lutz
The
United States
electricity grid faces significant problems resulting from fundamental design principles that limit its ability to handle the key energy challenges of the 21st century. We propose an innovative
electric power
architecture, rooted in
lessons learned
from the Internet and microgrids, which addresses these problems while interfacing gracefully into the current grid to allow for non-disruptive incremental adoption. Such a system, which we term a "Local" grid, is controlled by intelligent power switches (IPS), and can consist of loads, energy sources, and energy storage. The desired result of the proposed architecture is to produce a grid network designed for distributed renewable energy, prevalent energy storage, and stable autonomous systems. We will describe organizing principles of such a system that ensure well-behaved operation, such as requirements for communication and
energy transfer
protocols, regulation and control schemes, and market-based rules of operation.
Conference:
IEEE Energy 2030 Conference - ENERGY
, 2008
DOI:
10.1109/ENERGY.2008.4781028
Cumulative
Annual
View Publication
The following links allow you to view full publications. These links are maintained by other sources not affiliated with Microsoft Academic Search.
(
ieeexplore.ieee.org
)
(
www-power.eecs.berkeley.edu
)
Citation Context
(10)
...In addition, present grid systems are designed for unidirectional power flow [
36
]...
Soma Shekara Sreenadh Reddy Depuru
,
et al.
Smart meters for power grid — Challenges, issues, advantages and statu...
...E. M. R. Mike et al. [
24
] propose innovative electric power architecture, rooted in lessons learned from the Internet and microgrids, which addresses these problems while interfacing seamlessly into the current grid to allow for non-disruptive incremental adoption...
Omid Ameri Sianaki
,
et al.
Intelligent Decision Support System for Including Consumers' Preferenc...
...An exception is He et al. [
5
], which proposes a network architecture for supporting load control...
Ashwin Kashyap
,
et al.
Controlling distributed energy constrained resources for power system ...
...Recently, innovative architectures (e.g., microgrid [5], LoCal grid [
6
]) have been proposed to virtualize a local generator as a constant load, source, or zero load to the grid, greatly simplifying its impact on the grid, and hence offering great promise to connect distributed generation into the grid without sacrificing the reliability of the grid...
...the architectures proposed in existing studies (e.g., [5], [
6
]), we assume a local generator virtualizes itself as a constant source, load, or zero load to the grid...
Xian Chen
,
et al.
Cascading Failures in Smart Grid - Benefits of Distributed Generation
...Fig 2 illustrates the overview of a power grid by using IPS (as discussed in [
7
])...
Gang Lu
,
et al.
SmartGridLab: A Laboratory-Based Smart Grid Testbed
References
(11)
Heading off emergencies in large electric grids
(
Citations: 12
)
N. Grudinin
,
I. Roytelman
Journal:
IEEE Spectrum
, vol. 34, no. 4, pp. 43-47, 1997
Electricity Restructuring: Deregulation or Reregulation?
(
Citations: 36
)
Severin Borenstein
,
James Bushnell
Published in 2000.
Transmission Policy in the United States
(
Citations: 40
)
Paul L. Joskow
Published in 2004.
Transmission policy in the United States
(
Citations: 32
)
Paul L. Joskow
Journal:
Utilities Policy
, vol. 13, no. 2, pp. 95-115, 2005
Renewable Systems Interconnection: Executive Summary
(
Citations: 8
)
B. Kroposki
,
R. Margolis
,
G. Kuswa
,
J. Torres
,
W. Bower
,
D. Ton
Published in 2008.
Sort by:
Citations
(11)
Smart meters for power grid — Challenges, issues, advantages and status
Soma Shekara Sreenadh Reddy Depuru
,
Lingfeng Wang
,
Vijay Devabhaktuni
,
Nikhil Gudi
Conference:
Power Systems Conference and Exposition, PSCE, IEEE - PES
, 2011
An Architecture of MicroGrid Based on Role on Autonomous Decentralized System
Peng Li
,
Tianhu Ma
,
Yongdong Tan
Conference:
International Symposium on Autonomous Decentralized Systems - ISADS
, 2011
Intelligent Decision Support System for Including Consumers' Preferences in Residential Energy Consumption in Smart Grid
(
Citations: 1
)
Omid Ameri Sianaki
,
Omar Hussain
,
Tharam Dillon
,
Azadeh Rajabian Tabesh
Conference:
International Conference on Computational Intelligence, Modelling and Simulation - CSSIM
, 2010
Controlling distributed energy constrained resources for power system ancillary services
(
Citations: 1
)
Ashwin Kashyap
,
Duncan Callaway
Conference:
International Conference on Probabilistic Methods Applied to Power Systems - PMAPS
, 2010
Cascading Failures in Smart Grid - Benefits of Distributed Generation
(
Citations: 1
)
Xian Chen
,
Hieu Dinh
,
Bing Wang
Conference:
IEEE International Conference on Smart Grid Communications - SmartGridComm
, 2010