DownloadThe Portobello Bookshop Gift Guide 2024

Energy Management System for Dispatchable Renewable Power Generation

Hassan Haes Alhelou editor Amer Al-Hinai editor

Format:Hardback

Publisher:Taylor & Francis Ltd

Published:30th Nov '22

Currently unavailable, and unfortunately no date known when it will be back

Energy Management System for Dispatchable Renewable Power Generation cover

Enhancing the integration of renewable power generation from wind and solar into the traditional power network requires the mitigation of the vulnerabilities affecting the grid as a result of the intermittent nature of these resources. Variability and ramp events in power output are the key challenges to the system operators due to their impact on system balancing, reserves management, scheduling, and commitment of generation units.

This book presents development of energy management system for renewable power generation (EMSRPG) tool that aims to achieve power-dispatching strategies based on forecasting renewable energy resources outputs to guarantee optimal dispatch of hybrid wind-solar photovoltaic power systems (HWSPS). The key selling points of the book include the following:

  • Renewable energy management in modern and future smart power systems
  • Energy management systems
  • Modeling and simulations using a real-time digital simulator (RTDS)

  • High penetration level of renewable energy sources
  • Case studies based on Oman’s power systems and other power grids

This book discusses the challenges of integrating renewable resources, including low inertia systems, hosting capacity limitations of existing power systems, and weak grids. It further examines the detailed topologies, operation principles, recent developments in control techniques, and stability of power systems with a large scale of renewables. Finally, it presents case studies of recent projects from around the world where dispatchable power plant techniques are used to enhance power system operation.

ISBN: 9781032309583

Dimensions: unknown

Weight: 670g

262 pages