An algorithm for optimal management of aggregated HVAC power demand using smart thermostats

Authors: Rajendra Adhikari, M. Pipattanasomporn, S. Rahman
Publisher: Applied Energy Volume 217, 1 May 2018, Pages 166-177
Published on: 02/11/2018
DOI: https://doi.org/10.1016/j.apenergy.2018.02.085
Download the Paper

Abstract:

This paper presents an algorithm for optimal management of aggregated power demand of a group of heating, ventilating and air-conditioning (HVAC) units. The algorithm provides an advanced direct load control mechanism for HVACs that leverages the availability of smart thermostats, which are remotely programmable and controllable. The paper provides a theoretical basis and an optimal solution to the problem of cycling a large number of HVAC units while respecting customer-chosen temperature limits for the purpose of maximum load reduction. The problem is presented in a new light by transforming it into a job scheduling problem and is solved using a combination of a novel greedy algorithm and a binary search algorithm. By leveraging widespread availability of smart internet-based (also referred to as IoT-based) thermostats in today’s environment, the proposed approach can be readily applied to residential buildings without additional electrical/IT infrastructure changes.


Keywords:
Direct load control, Demand response, HVAC control, IoT-based thermostats