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Forecasting Operation of a Chiller Plant Facility Using Data Driven Models

Published

Author(s)

Behzad Salimian Rizi, Afshin Faramarzi, Amanda Pertzborn, Mohammad Heidarinejad

Abstract

In recent years, data-driven models have enabled accurate prediction of chiller power consumption and chiller coefficient of performance (COP). This study evaluates the usage of time series Extreme Gradient Boosting (XGBoost) models to predict chiller power consumption and chiller COP of a water-cooled chiller plant. The 10-second measured data used in this study are from the Intelligent Building Agents Laboratory (IBAL), which includes two water-cooled chillers. Preprocessing, data selection, noise analysis, and data smoothing methods influence the accuracy of these data-driven predictions. The data intervals were changed to 30 s, 60 s, and 180 s using down-sampling and averaging strategies to investigate the impact of data preprocessing methods and data resolutions on the accuracy of chiller COP and power consumption models. To overcome the effect of noise on the accuracy of the models of chiller power consumption and COP, two data smoothing methods, the moving average window strategy and the Savitzky-Golay (SG) filter, are applied. The results show that both methods improve the predictions compared to the baseline, with the SG filter slightly outperforming the moving average. Particularly, the mean absolute percentage error of the chiller COP and power consumption models improved from 4.8 to 4.9 for the baseline to 1.9 and 2.3 with the SG filter, respectively. Overall, this study provides a practical guide to developing XGBoost data-driven chiller power consumption and COP prediction models.
Citation
International Journal of Refrigeration
Volume
167

Keywords

Chiller plant, Data-driven models, XGBoost, Energy efficiency, Coefficient of performance

Citation

Rizi, B. , Faramarzi, A. , Pertzborn, A. and Heidarinejad, M. (2024), Forecasting Operation of a Chiller Plant Facility Using Data Driven Models, International Journal of Refrigeration, [online], https://doi.org/10.1016/j.ijrefrig.2024.07.019, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=956472 (Accessed December 26, 2024)

Issues

If you have any questions about this publication or are having problems accessing it, please contact reflib@nist.gov.

Created July 23, 2024, Updated August 16, 2024