Energy management algorithm for resilient controlled delivery grids

  title={Energy management algorithm for resilient controlled delivery grids},
  author={Mahmoud Saleh and Yusef Esa and Ahmed A. S. Mohamed and Haim Grebel and Roberto Rojas-Cessa},
  journal={2017 IEEE Industry Applications Society Annual Meeting},
Resilience of the power grid is most challenged at power blackouts since the issues that led to it may not be fully resolved by the time the power is back. In this paper, a Real-Time Energy Management Algorithm (RTEMA) has been developed to increase the resilience of power systems based on the controlled delivery grid (CDG) concept. In a CDG, loads communicate with a central controller, periodically sending requests for power. The central controller runs an algorithm, based on which it may… 
ICT-Enabled Control and Energy Management of Community Microgrids for Resilient Smart Grid Operation
This work designed and implemented a DC MG testbed with minimal off-the-shelf components to enable testing new control techniques with significant flexibility and reconfiguration capability, and developed a communication-based hybrid state/event driven control scheme that aims at reducing the communication load and complexity.
Impact of Communication Latency on the Bus Voltage of Centrally Controlled DC Microgrids During Islanding
This paper investigates the effect of wireless communication technologies latency on the bus voltage and performance of DC CCMGs and how to mitigate it and shows that the impact may be severe depending on the design, and the operational condition of the MG before latency occurs.
Applications of Complex Network Analysis in Electric Power Systems
This paper provides a review of the research conducted on complex network analysis (CAN) in electric power systems. Moreover, a new approach is presented to find optimal locations for microgrids
Optimal microgrids placement in electric distribution systems using complex network framework
This paper provides a new approach to find the optimal location for Microgrids (MGs) in electric distribution systems using complex network analysis. An optimal location in this paper refers to a
Impact of Information and Communication Technology Limitations on Microgrid Operation
This paper provides an extensive review of the conducted research regarding various microgrids (MGs) control techniques and the impact of Information Communication Technology (ICT) degradation on MGs
Development and Research of the Solid State Voltage Regulator Active-Adaptive Control System
The study has proved that the developed SSVR AACS is able to support the electric network optimal operation mode in all modes considered, and its structure, main components and their purpose have been described.


Management of a smart grid with controlled-delivery of discrete levels of energy
At time of energy shortage electrical grids may be exposed to consumption uncertainties, overloads and ultimately power failures. The main reason is that, at present, the response of the power
A Game Theory-Based Energy Management System Using Price Elasticity for Smart Grids
Results based on the IEEE 37-bus feeder system show that the proposed uEMS model can increase DG benefits and improve system stability.
Distributed Optimal Energy Management in Microgrids
This paper formulate microgrid energy management as an optimal power flow problem, and proposes a distributed EMS where the MGCC and the local controllers jointly compute an optimal schedule.
Testbed evaluations of a controlled-delivery power grid
Two testbeds and experimental evaluations of the controlled-delivery power (CDP) grid are presented and the supplier was able to maintain a high satisfaction ratio in terms of requests granted and energy delivered under limited capacity conditions.
Real-Time Energy Management in Microgrids
This paper model the online energy management as a stochastic optimal power flow problem and proposes an online EMS based on Lyapunov optimization that takes into account the power flow and system operational constraints on a distribution network.
Energy Management in Smart Distribution Systems With Vehicle-to-Grid Integrated Microgrids
A novel bidding strategy for PEVs offering V2G by including the projected battery degradation cost to integrate them into microgrid operation and two energy management strategies are proposed for inclusion of V1G into the micro grid operation based on the forecast accuracy on energy supply and demand, and market prices.
Coordinated Charging of Plug-In Hybrid Electric Vehicles to Minimize Distribution System Losses
From these relationships, three optimal charging algorithms are developed which minimize the impacts of PHEV charging on the connected distribution system and show the additional benefits of reduced computation time and problem convexity when using load factor or load variance as the objective function rather than system losses.
Causes of the 2003 major grid blackouts in North America and Europe, and recommended means to improve system dynamic performance
On August 14, 2003, a cascading outage of transmission and generation facilities in the North American Eastern Interconnection resulted in a blackout of most of New York state as well as parts of
An Algorithm for Intelligent Home Energy Management and Demand Response Analysis
An intelligent HEM algorithm for managing high power consumption household appliances with simulation for demand response (DR) analysis is presented and a simulation tool is developed to showcase the applicability of the proposed algorithm in performing DR at an appliance level.
Design and implementation of a Web-based Energy Management Application for smart buildings
Buildings consume a large portion of electric energy worldwide and they are also expected to actively participate in demand response under the concept of smart grid. A key premise for efficient