Uncertainty analysis of the impact of increasing levels of gas and electricity network integration and storage on Techno-Economic-Environmental performance

Seyed Hamid Reza Hosseini*, Adib Allahham, Sara Louise Walker, Phil Taylor

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

13 Citations (Scopus)

Abstract

This paper presents an evaluation framework for Techno-Economic-Environmental (TEE) impact of different networks integration levels and storage devices on performance of Integrated Gas and Electricity Networks (IGENs). Probabilistic distributions for modelling sources of uncertainty (loads, Renewable Energy Sources (RESs), economic and environmental analysis) were sampled through Monte Carlo Simulation. The framework performs the TEE operational analysis of IGENs for future possible scenarios for different technology development status and different levels of load and RESs. Then, it calculates the energy imported from upstream networks, operational costs, and emissions. In this way, the framework provides a basis for making well-informed and risk-based decisions of design choices for meeting 2050 carbon targets in the presence of aforementioned sources of uncertainty. Analysis of the results of application of the framework to a real-world case study shows that as the electrical renewable generation grows with respect to the total demand, the value of integrated operation of the networks also grows as shown by the reduction in the TEE parameters. Given that demand reduction and decarbonisation of electricity and gas networks is a priority, the coupled configurations are likely to become more attractive between now and 2050, in the presence of the considered sources of uncertainty.

Original languageEnglish
Article number119968
JournalEnergy
Volume222
Early online date30 Jan 2021
DOIs
Publication statusPublished - 1 May 2021

Bibliographical note

Funding Information:
This work has been funded by EPSRC National Centre for Energy Systems Integration (CESI) (grant number: EP/P01173/1). The authors would like to acknowledge Professor Michael Goldstein, from Department of Mathematical Sciences at Durham University, for providing advice on simulation of the sources of uncertainty. Also, the first author acknowledges the useful feedback from Dr Dario Domingo from Department of Mathematical Sciences at Durham University. The support from the Institute for Sustainable Building Design at Heriot Watt University, a partner of CESI, is acknowledged for supplying the case study data.

Funding Information:
This work has been funded by EPSRC National Centre for Energy Systems Integration (CESI) (grant number: EP/P01173/1 ).

Publisher Copyright:
© 2021 Elsevier Ltd

Keywords

  • Gas and electricity storage devices
  • Integrated gas and electricity networks
  • Networks integration level
  • Power-to-Gas
  • Techno-economic-environmental
  • Uncertainty analysis

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