Dataset of an in-use tertiary building collected from a detailed 3D mobile monitoring system and building automation system for indoor and outdoor air temperature analysis

Catalina Giraldo-Soto; Aitor Ekoreka; Ander Barragan; Laurent Mora

doi:10.1016/j.dib.2020.105907

Dataset of an in-use tertiary building collected from a detailed 3D mobile monitoring system and building automation system for indoor and outdoor air temperature analysis

Data Brief. 2020 Jun 23:31:105907. doi: 10.1016/j.dib.2020.105907. eCollection 2020 Aug.

Authors

Catalina Giraldo-Soto¹, Aitor Ekoreka¹, Ander Barragan¹, Laurent Mora²

Affiliations

¹ ENEDI research group, Department of Thermal Engineering, Faculty of Engineering of Bilbao, University of Basque Country (UPV/EHU), Pl. Ingeniero Torres Quevedo 1, 48013 Bilbao, Spain.
² I2M - Institute of Mechanics and Engineering - University of Bordeaux CNRS (UMR 5295), site ENSAM, Esplanade des arts et métiers, 33400 Talence, France.

Abstract

A Mobile Monitoring System (MMS) has been designed taking into account the use of technology with high sensor accuracy and the ability to be installed easily and quickly in different cardinal locations, distribution spaces, volumes and at different heights of a tertiary in-use building located in Leioa (Bilbao). Two types of MMS have been designed with the objective of carrying out two types of analysis; one intended to do a global indoor air temperature uncertainty analysis and the other focused on doing a global outdoor air temperature uncertainty analysis. Eight tripods make up the interior MMS with twenty sensors at different heights, which have been installed in different offices in the building to collect indoor air temperature measurements at different heights and locations. In addition, eight sensors make up the exterior MMS to collect data from outdoor air temperature measurements around the building envelope. Both MMS have been integrated into the existing Building Automation System (BAS) of the tertiary building; some other data collected by the BAS has also been taken into account for the uncertainty analysis of indoor and outdoor air temperature. The interior and exterior MMS datasets have been compiled based on a rigorous data collection process, with the potential to use the data to study the spatial air temperature behavior, taking into account the impact of solar radiation, the heating system and the electrical energy consumption. Furthermore, it enables the global uncertainty of indoor and outdoor air temperature measurements on an in-use building to be estimated and to break it down into the different uncertainty sources, such as the sensor accuracy, vertical and horizontal temperature variability, solar radiation, occupancy and heating system effects. Finally, it enables the optimization of monitoring and control systems for BAS, heating and HVAC systems, as well as any monitoring system implemented in research tests using indoor and/or outdoor temperature measurements as key variables.

Keywords: Energy performance of buildings (epb); In-use tertiary building; Indoor air temperature; Outdoor air temperature; Temperature uncertainty.