Estimating Electric Power Consumption of Grid-Enabled Residential Heat Pump Water Heaters

Authors

Dana Paresa, Portland State UniversityFollow
Robert Bass, Portland State UniversityFollow

Document Type

Presentation

Publication Date

2025

Subjects

Electric water heaters -- Energy consumption, Heat pumps -- Mathematical models

Abstract

We present two methods for estimating compressor electric power consumption of residential heat pump water heaters. Power is calculated using data from voltage and current instrumentation, which add costs and potential failure points to the unit. The two methods presented herein use thermal instrumentation or derived data that are typically included within modern residential heat pump water heaters. One method uses data from lower and upper tank temperature sensors. The other method uses an attribute that is commonly available within grid-enabled flexible load heat pump water heaters. For both methods, fit equations were derived, for which coefficients are tuned to achieve a reasonable fit between estimated and measured electric power consumption. Within this paper, we describe the fit equations and the methods for tuning the equation coefficients. We also present metrics of fit between measured and estimated power consumption, sensitivity analyses of the fit equation coefficients, and validation analyses of a tuned fit equation using multiple data sets.

Rights

This is the post-print version of a work that was published and copyrighted by IEEE: 10.1109/SusTech63138.2025.11025724

DOI

10.1109/SusTech63138.2025.11025724

Persistent Identifier

https://archives.pdx.edu/ds/psu/43897

Citation Details

Published as: Paresa, D., & Bass, R. B. (2025, April). Estimating Electric Power Consumption of Grid-Enabled Residential Heat Pump Water Heaters. In 2025 IEEE Conference on Technologies for Sustainability (SusTech) (pp. 1-7). IEEE.