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A Graph Theoretic Framework for Integrated and Co‐optimized Power System Planning
Author(s) -
Khiyami Abdulaziz,
Ishimatsu Takuto,
Alfaris Anas,
de Weck Olivier L.
Publication year - 2016
Publication title -
incose international symposium
Language(s) - English
Resource type - Journals
ISSN - 2334-5837
DOI - 10.1002/j.2334-5837.2016.00298.x
Subject(s) - nexus (standard) , electricity , renewable energy , electric power system , environmental economics , electricity generation , electricity system , computer science , graph , graph theory , power network , power (physics) , operations research , engineering , economics , electrical engineering , theoretical computer science , mathematics , physics , quantum mechanics , combinatorics , embedded system
Increased interest in renewable generation has made siting constraints more prominent in power system planning. In addition the power system is increasingly being considered as one of many coupled critical infrastructure systems in nexus’ such as the food‐energy‐water nexus and the gas‐electricity nexus. This paper describes a power system planning approach within a graph theoretic framework that allows for the handling of the geographical aspects of electricity production and distribution as well as the interaction of electricity network with other critical infrastructures.