Empirical and comparative validation for a building energy model calibration methodology

Gutiérrez-González, V. (Vicente); Ramos-Ruiz, G. (Germán); Fernández-Bandera, C. (Carlos)

Authors:

Gutiérrez-González, V. (Vicente)

Ramos-Ruiz, G. (Germán)

Fernández-Bandera, C. (Carlos)

Keywords:

Building energy models (BEMs)
Calibration
Energy simulation
Sensors saving
Calibrated model validation
Methodology

Issue Date:

2020

Project:

731211 - SABINA - SmArt BI-directional multi eNergy gAteway

Publisher Version:

https://www.mdpi.com/1424-8220/20/17/5003

ISSN:

1424-8220

Citation:

Gutiérrez-González, V. (V.); Ramos-Ruiz, G. (Germán); Fernández-Bandera, C. (Carlos). "Empirical and comparative validation for a building energy model calibration methodology". Sensors. 20 (17), 2020, 5003

Abstract

The digital world is spreading to all sectors of the economy, and Industry 4.0, with the digital twin, is a reality in the building sector. Energy reduction and decarbonization in buildings are urgently required. Models are the base for prediction and preparedness for uncertainty. Building energy models have been a growing field for a long time. This paper proposes a novel calibration methodology for a building energy model based on two pillars: simplicity, because there is an important reduction in the number of parameters (four) to be adjusted, and cost-effectiveness, because the methodology minimizes the number of sensors provided to perform the process by 47.5%. The new methodology was validated empirically and comparatively based on a previous work carried out in Annex 58 of the International Energy Agency (IEA). The use of a tested and structured experiment adds value to the results obtained.

URI:

https://hdl.handle.net/10171/59564

DOI:

https://doi.org/10.3390/s20175003

Appears in Collections:

DA – Arquitectura – Edificación - Artículos de revista

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