Reducing Electricity Consumption Peaks with Parametrised Dynamic Pricing Strategies Given Maximal Unit Prices

Author

Honing, Nicolas ; La Poutre, Han

Author_Institution

CWI, Amsterdam, Netherlands

fYear

2013

fDate

26-30 Aug. 2013

Firstpage

171

Lastpage

175

Abstract

Demand response is a crucial mechanism for flattening of peak loads. For its implementation, we not only require consumers who react to price changes, but also intelligent strategies to select prices. We propose a parametrised meta-strategy for dynamic pricing and identify suitable strategies for given scenarios through offline optimisation using a population model. We also model an important and novel constraint: a price cap (a maximal unit price) for consumer protection. We show in computational simulations that the maximal unit price influences the peak reduction potential of dynamic pricing. We compare our dynamic pricing approach with a constant pricing approach and show that our approach, used by a profit-optimising seller, is both peak-reducing and equally profitable.

Keywords

electricity supply industry; optimisation; power consumption; power system economics; pricing; profitability; consumer protection; electricity consumption reduction; maximal unit prices; offline optimisation; parametrised dynamic pricing strategies; peak load reduction; population model; price cap; profit-optimising seller; Computational modeling; Electricity; Optimization; Power cables; Pricing; Sociology; Vehicle dynamics;

fLanguage

English

Publisher

ieee

Conference_Titel

Database and Expert Systems Applications (DEXA), 2013 24th International Workshop on

Conference_Location

Los Alamitos, CA

ISSN

1529-4188

Print_ISBN

978-0-7695-5070-1

Type

conf

DOI

10.1109/DEXA.2013.46

Filename

6621366