Giraldo-Soto, C.; Erkoreka, A.; Mora, L.; Uriarte, I.; del Portillo, L.A. Monitoring System Analysis for Evaluating a Building’s Envelope Energy Performance through Estimation of Its Heat Loss Coefficient. Sensors2018, 18, 2360.
Giraldo-Soto, C.; Erkoreka, A.; Mora, L.; Uriarte, I.; del Portillo, L.A. Monitoring System Analysis for Evaluating a Building’s Envelope Energy Performance through Estimation of Its Heat Loss Coefficient. Sensors 2018, 18, 2360.
Giraldo-Soto, C.; Erkoreka, A.; Mora, L.; Uriarte, I.; del Portillo, L.A. Monitoring System Analysis for Evaluating a Building’s Envelope Energy Performance through Estimation of Its Heat Loss Coefficient. Sensors2018, 18, 2360.
Giraldo-Soto, C.; Erkoreka, A.; Mora, L.; Uriarte, I.; del Portillo, L.A. Monitoring System Analysis for Evaluating a Building’s Envelope Energy Performance through Estimation of Its Heat Loss Coefficient. Sensors 2018, 18, 2360.
Abstract
The present article is dealing with the state of question about building-energy monitoring systems used for data collection to estimate the Heat Lost Coefficient (HLC) with existing methods and so determinate buildings’ Envelope Energy Performance (EEP). In addition, the data requirements of HLC estimation methods are related with commonly used methods for fault detection, calibration and supervision of energy monitoring systems in buildings. Based on an extended review of experimental tests since 1978, a qualitative and quantitative analysis of Monitoring and Controlling System (MCS) specifications has been carried out. Although most actual Buildings Automation Systems (BAS) may measure the required parameters, further research is still needed to ensure that these data are accurate enough to rigorously apply the HLC estimation methods.
Keywords
building energy monitoring system; heat lost coefficient (hlc); fault sensor
Subject
Engineering, Architecture, Building and Construction
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.