Coordination of interdependent natural gas and electricity systems based on information gap decision theory
|Title:||Coordination of interdependent natural gas and electricity systems based on information gap decision theory||Authors:||Sohrabi, Farnaz; Jabari, Farkhondeh; Mohammadi-Ivatloo, Behnam; Soroudi, Alireza||Permanent link:||http://hdl.handle.net/10197/11373||Date:||6-Aug-2019||Online since:||2020-05-06T12:16:57Z||Abstract:||The interactions of the natural gas (NG) network and the electricity system are increased by using gas-fired generation units, which use NG to produce electricity. There are various uncertainty sources such as the forced outage of generating units or market price fluctuations that affect the economic operation of both NG and electricity systems. This study focuses on the steady-state formulation of the integrated NG transmission grid and electricity system by considering the uncertainty of electricity market price based on information gap decision theory. The higher and lower costs than the expected cost originated from the fluctuations of electricity market price are modelled by the robustness and opportunity functions, respectively. The objective is to minimise the cost of zone one while satisfying the constraints of two interdependent systems, which can obtain revenue from selling power to its connected zones in short-term scheduling. The capability of the proposed method is demonstrated by applying it on a 20-node NG network and IEEE RTS 24-bus. The proposed short-term coordination between NG and electricity infrastructures is solved and discussed.||Funding Details:||Science Foundation Ireland||Type of material:||Journal Article||Publisher:||Institution of Engineering and Technology||Journal:||IET Generation, Transmission and Distribution||Volume:||13||Issue:||15||Start page:||3362||End page:||3369||Copyright (published version):||2019 Institution of Engineering and Technology||Keywords:||Power system reliability; Power generation economics; Pricing; Decision theory; Power markets; Interdependent natural gas; Electricity system; Information gap decision theory; Gas-fired generation units; Market price fluctuations; Integrated NG transmission grid; Electricity market price; Interdependent systems; NG network; Electricity infrastructures||DOI:||10.1049/iet-gtd.2018.6895||Language:||en||Status of Item:||Peer reviewed|
|Appears in Collections:||Electrical and Electronic Engineering Research Collection|
Energy Institute Research Collection
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