Scalable methodology for large scale building energy improvement: Relevance of calibration in model-based retrofit analysis

The increasing interest in retrofitting of existing buildings is motivated by the need to make a major contribution to enhancing building energy efficiency and reducing energy consumption and CO2 emission by the built environment. This paper examines the relevance of calibration in model-based analy...

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Veröffentlicht in:	Building and environment 2015-05, Vol.87 (C), p.342-350
Hauptverfasser:	Heo, Yeonsook, Augenbroe, Godfried, Graziano, Diane, Muehleisen, Ralph T., Guzowski, Leah
Format:	Artikel
Sprache:	eng
Schlagworte:	Bayesian calibration Buildings Calibration Computing time Construction Decision making Energy management Large-scale retrofit analysis Mathematical models Normative model Retrofitting Uncertainty analysis
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container_end_page	350
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container_title	Building and environment
container_volume	87
creator	Heo, Yeonsook Augenbroe, Godfried Graziano, Diane Muehleisen, Ralph T. Guzowski, Leah
description	The increasing interest in retrofitting of existing buildings is motivated by the need to make a major contribution to enhancing building energy efficiency and reducing energy consumption and CO2 emission by the built environment. This paper examines the relevance of calibration in model-based analysis to support decision-making for energy and carbon efficiency retrofits of individual buildings and portfolios of buildings. The authors formulate a set of real retrofit decision-making situations and evaluate the role of calibration by using a case study that compares predictions and decisions from an uncalibrated model with those of a calibrated model. The case study illustrates both the mechanics and outcomes of a practical alternative to the expert- and time-intense application of dynamic energy simulation models for large-scale retrofit decision-making under uncertainty. •We present a retrofit analysis methodology to support large scale energy retrofit.•The methodology is based on Bayesian calibration and normative energy models.•We examine the relevance of calibration in retrofit decision-making situations.•Case studies demonstrate the value of the method for risk-conscious decision-making.
doi_str_mv	10.1016/j.buildenv.2014.12.016
format	Article
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source	ScienceDirect Journals (5 years ago - present)
subjects	Bayesian calibration Buildings Calibration Computing time Construction Decision making Energy management Large-scale retrofit analysis Mathematical models Normative model Retrofitting Uncertainty analysis
title	Scalable methodology for large scale building energy improvement: Relevance of calibration in model-based retrofit analysis
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