Optimal demand response strategy of commercial building‐based virtual power plant using reinforcement learning

Tao Chen; Qiushi Cui; Ciwei Gao; Qinran Hu; Kexing Lai; Jianlin Yang; Ran Lyu; Hao Zhang; Jinyuan Zhang

doi:10.1049/gtd2.12179

IET Generation, Transmission & Distribution (Aug 2021)

Optimal demand response strategy of commercial building‐based virtual power plant using reinforcement learning

Tao Chen,
Qiushi Cui,
Ciwei Gao,
Qinran Hu,
Kexing Lai,
Jianlin Yang,
Ran Lyu,
Hao Zhang,
Jinyuan Zhang

Affiliations

Tao Chen: School of Electrical Engineering Southeast University Nanjing China
Qiushi Cui: Department of Electrical and Computer Engineering Arizona State University Tempe Arizona USA
Ciwei Gao: School of Electrical Engineering Southeast University Nanjing China
Qinran Hu: School of Electrical Engineering Southeast University Nanjing China
Kexing Lai: Optimization Division Hitachi ABB Power Grids San Jose California USA
Jianlin Yang: Wind Power Industry Innovation Center State Power Investment Corporation Limited's (SPIC) Shanghai China
Ran Lyu: Economic Technology Research Institute State Grid Corporation of China‐Shanghai Company Shanghai China
Hao Zhang: Department of Technology and Management Tengtian Energy Saving Technology Corporation Limited's Shanghai China
Jinyuan Zhang: Administration Office Shanghai Huangpu District Development and Reform Commission Shanghai China

DOI: https://doi.org/10.1049/gtd2.12179
Journal volume & issue: Vol. 15, no. 16
pp. 2309 – 2318

Abstract

Read online

Abstract In this paper, the optimal demand response strategy of a commercial building‐based virtual power plant with real‐world implementation in heavily urbanised area is studied. Instead of modelling the decision‐making process as an optimisation problem, a reinforcement learning method is used to seek the optimal strategy, which could update its performance with minimal manpower manipulation. Specifically, the data collection from several commercial buildings, including hotel, shopping mall and office, in Huangpu district, Shanghai city is analysed to deploy the demand response program. Compared with the conventional demand response strategy based on optimisation, the learnt strategy does not rely on the forecasting information as input and could adapt to the changing demand response incentive automatically. It may not produce the best result every time, but can guarantee the benefit in a non‐deterministic way in long‐term operation. The real‐world deployment of the Huangpu virtual power plant involving hardware and software platform is also introduced, as well as its future development projection.

Published in IET Generation, Transmission & Distribution

ISSN: 1751-8687 (Print); 1751-8695 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Distribution or transmission of electric power; Technology: Electrical engineering. Electronics. Nuclear engineering: Production of electric energy or power. Powerplants. Central stations
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17518695

About the journal

Abstract

Keywords