Modelling electricity markets when renewable power increases
Description
This data set contains files to allow the replication of results found in the article "Modelling electricity markets when renewable power increases" by Clas Eriksson, Johan Lindén and Christos Papahristodoulou. The abstract below describes the article, its research question and its findings. The files in the data set are the following. readme.txt - containing an overview of the material and instructions for replication elsim16.r - a program in the R programming language, used for simulating the theoretical model in the article plots16.zip - a compressed directory containing all graphs generated by the simulation model in the eps and png formats Abstract of the article We analyze theoretically a simple model of the electricity market where the supply of Variable Renewable Electricity (VRE) and demand are both shifting stochastically over time. The correlation between these shifts is crucial for the equilibrium price of electricity. Based on hourly equilibria we compute yearly producer surpluses, consumer utility and the value factor of VRE, under different conditions. While an increasing correlation between VRE and demand causes a decline in average price and total producer surplus, the VRE producer surplus increases, because these producers sell much when price is high. Higher VRE and peak capacities reduce the average price and the total producer surplus, but a negative correlation can counteract this, by causing high prices more frequently. In addition, the value factor of VRE does not decline monotonously, contrary to findings in previous studies.
Files
Steps to reproduce
In order to replicate all simulations in the article, execute simulation the program elsim16.r in the R programming environment. In a command interpreter, the command for this is: rscript elsim16.r