A fault detection system for a geothermal heat exchanger sensor based on intelligent techniques

Alaiz Moretón, Héctor; Castejón Limas, Manuel; Casteleiro-Roca, José-Luis; Jove, Esteban; Fernández-Robles, Laura; Calvo-Rolle, José Luis

Use this link to cite:

http://hdl.handle.net/2183/24075

A fault detection system for a geothermal heat exchanger sensor based on intelligent techniques

Files

sensors-19-02740.pdf (1.08 MB)

Identifiers

URI: http://hdl.handle.net/2183/24075

Publication date

2019-06-18

Authors

Alaiz Moretón, Héctor

Castejón Limas, Manuel

Casteleiro-Roca, José-Luis

Jove, Esteban

Fernández-Robles, Laura

Calvo-Rolle, José Luis

Bibliographic citation

Aláiz-Moretón, H.; Castejón-Limas, M.; Casteleiro-Roca, J.-L.; Jove, E.; Fernández Robles, L.; Calvo-Rolle, J.L. A Fault Detection System for a Geothermal Heat Exchanger Sensor Based on Intelligent Techniques. Sensors 2019, 19, 2740.

Abstract

[Abstract ]:This paper proposes a methodology for dealing with an issue of crucial practical importance in real engineering systems such as fault detection and recovery of a sensor. The main goal is to define a strategy to identify a malfunctioning sensor and to establish the correct measurement value in those cases. As study case, we use the data collected from a geothermal heat exchanger installed as part of the heat pump installation in a bioclimatic house. The sensor behaviour is modeled by using six different machine learning techniques: Random decision forests, gradient boosting, extremely randomized trees, adaptive boosting, k-nearest neighbors, and shallow neural networks. The achieved results suggest that this methodology is a very satisfactory solution for this kind of systems.