Electricity Market Theory Based on Continuous Time Commodity Model

TL;DR

This paper introduces a continuous time commodity model for electricity markets, addressing limitations of traditional spot pricing by incorporating time continuity and load duration, supported by mathematical derivation and simulations.

Contribution

It proposes a novel continuous time pricing framework using Riemann and Lebesgue integrals, improving market efficiency and fairness over traditional models.

Findings

Load duration pricing accurately values generator attributes.

It reduces total electricity purchasing costs.

It promotes equitable profit distribution among power plants.

Abstract

The recent research report of U.S. Department of Energy prompts us to re-examine the pricing theories applied in electricity market design. The theory of spot pricing is the basis of electricity market design in many countries, but it has two major drawbacks: one is that it is still based on the traditional hourly scheduling/dispatch model, ignores the crucial time continuity in electric power production and consumption and does not treat the inter-temporal constraints seriously; the second is that it assumes that the electricity products are homogeneous in the same dispatch period and cannot distinguish the base, intermediate and peak power with obviously different technical and economic characteristics. To overcome the shortcomings, this paper presents a continuous time commodity model of electricity, including spot pricing model and load duration model. The market optimization models under the two pricing mechanisms are established with the Riemann and Lebesgue integrals respectively and the functional optimization problem are solved by the Euler-Lagrange equation to obtain the market equilibria. The feasibility of pricing according to load duration is proved by strict mathematical derivation. Simulation results show that load duration pricing can correctly identify and value different attributes of generators, reduce the total electricity purchasing cost, and distribute profits among the power plants more equitably. The theory and methods proposed in this paper will provide new ideas and theoretical foundation for the development of electric power markets.