EuroMod: Modelling European power markets with improved price granularity
提出EuroMod模型,通过改进发电商报价假设和价格后优化,更准确地模拟欧洲电力市场的批发价格波动,对研究储能和互联线收益的学者有用。
Electricity system models are widely used to study future designs of power markets. They are commonly used to represent electricity dispatch decisions but struggle to reproduce realistic variation in prices. We show that current assumptions of generators bidding their average variable cost (AVC) underestimates the spread and volatility of hourly wholesale prices, and so while existing models can accurately estimate the revenues of conventional (thermal) generators, they fail with the revenues of next-generation technologies such as storage and merchant transmission. Imperfect competition makes market prices differ from the theoretical optimum. In this paper we present a bottom-up electricity market model for Europe called EuroMod: a deterministic linear optimization in GAMS which models generation, storage and transmission dispatch at hourly resolution for European markets connected using net transfer capacities. Two additions are tested for their ability to improve wholesale price formation: a simple modification to the short-run marginal cost approach that allows generators to make bids which diverge from AVC; and a post-optimizer transformation of prices with respect to demand net of renewables. These corrections improve both the representation of prices and dispatch decisions across European markets, and reduce errors by 40% for prices, 6% for revenues of power generators and between 24% to 33% for storage technologies, and 43% on the median arbitrage value of interconnectors when compared to traditional linear models.