Author:
Iranmehr Hamid,Aazami Rahmat,Tavoosi Jafar,Shirkhani Mohammadamin,Azizi Amir-Reza,Mohammadzadeh Ardashir,Mosavi Amir H.,Guo Wei
Abstract
The law of free access to the transmission network obliges the transmission network to be in orbit, and on the other hand, the high loads in the transmission network, and economic uncertainties cause that the owners of transmission companies, don’t have sufficient motivation and resources to rebuild and develop the network. The main objective of this paper is the modeling the price of emergency power transmission lines in the reserve markets. This paper presents a method for calculating the reference price that a transmission line owner uses to bid on a price in excess of the nominal capacity of the transmission line under his ownership. For this purpose, first, the effects of operating a transmission line at a power greater than the rated power are described. After that, the reduction rate of the transmission line due to operation in these conditions is calculated, and finally the price determination is calculated based on the reduction rate of the generated life. In the next stage, this excess capacity is entered the two-stage model of energy market and reservation considering renewable energy sources as a price offer function. Numerical results of 6-Shin network show that the entry of renewable energy sources reduces energy costs, but the costs of the reserve market increases due to uncertainty. However, despite the emergency capacity, these costs are reduced due to the use of cheap resources in the network.
Subject
Economics and Econometrics,Energy Engineering and Power Technology,Fuel Technology,Renewable Energy, Sustainability and the Environment
Reference26 articles.
1. The Electrochemical Characteristics and Applicability of an Amorphous Sulfide-Based Solid Ion Conductor for the Next-Generation Solid-State Lithium Secondary Batteries;Aihara;Front. Energ. Res.,2016
2. Transmission Line Ampacity Improvements of Altalink Wind Plant Overhead Tie-Lines Using Weather-Based Dynamic Line Rating;Bhattarai,2017
3. Improvement of Transmission Line Ampacity Utilization by Weather-Based Dynamic Line Rating;Bhattarai;IEEE Trans. Power Deliv.,2018
4. Analyzing the Future Role of Power Transmission in the European Energy System;Cao;Front. Energ. Res.,2020
5. Impact of Dynamic Line Rating on Power Systems;Fu,2011
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