An IGDT-Stochastic Model for Low-Carbon Economic Dispatch of Integrated Electricity-Natural Gas Systems Considering Grid-Enhancing Technologies

Amir Talebi , Masoud Agabalaye-Rahvar, Behnam Mohammadi-ivatloo, Kazem Zare, Amjad Anvari-Moghaddam

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Abstract

Utilizing wind power alongside flexible resources such as power-to-gas technology, gasfuel generator, demand response (DR) program, grid-enhancing technologies, and carbon capture and storage can help to low carbon operation of integrated electricity-gas systems (IEGSs). Accordingly, this paper proposes a low-carbon economic dispatch model for the IEGS, in which gas-fuel generators, DR, and gas-fuel generator are considered to realize the economic and environmentally friendly operation of these systems. Also, the flexible AC transmission system device as one of the grid-enhancing technologies is innovatively included in IEGSs to guarantee that wind power is deliverable entire the electricity system. Besides, power-to-gas equipped with hydrogen storage is used to absorb the excess wind power to produce CH4. On the other hand, to capture the inherent flexibility of the gas network, the gas-storing characteristic of pipelines is shown by line pack modelling. To manage uncertainties associated with wind power and DR program, the proposed model is formulated as an IGDT-stochastic problem. For efficient computation purposes, the present work follows the mixed-integer linear programming framework. Different case studies are performed on an integrated test system. Numerical simulation results show that the proposed model leads to reducing the total cost, carbon emissions, and wind curtailment by 29%, 16.4%, and 100%, respectively. It can be seen that the proposed low-carbon ED model is environmentally friendly and has economic benefits.
Original languageEnglish
JournalIET Generation, Transmission & Distribution
Volume18
Issue number24
Pages (from-to)4042-4064
Number of pages23
ISSN1751-8687
DOIs
Publication statusPublished - Dec 2024

Keywords

  • Economic dispatch
  • IGDT
  • Stochastic Model
  • grid‐enhancing technologies
  • integrated energy systems
  • carbon capture and storage
  • risk management
  • renewables and storage
  • uncertainty handling
  • mathematical programming
  • sustainable development
  • power generation dispatch
  • global warming
  • power system interconnection
  • flexible alternating current transmission system

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