Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in Buildings

Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in Buildings

The air temperature increase in urban centers can lead to problems such as increased energy consumption associated to air conditioning, the intensification of pollution, human discomfort and health problems. In this context, the building envelope plays an important role in urban thermal equilibrium....

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Main Authors: Lia Mota, Alexandre Mota, Cláudia Pezzuto, Marcius Carvalho, Marina Lavorato, Lorenzo Coiado, Everton Oliveira
Format: Article
Language:English
Published: MDPI AG 2018-09-01
Series:Sensors
Subjects:
thermal comfort
energy efficiency
surface temperature sensor
temperature monitoring
building energy efficiency rating systems
Online Access:http://www.mdpi.com/1424-8220/18/9/3046
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spelling doaj-956b432209f3480aae5dd73372c07cc02020-11-24T22:03:02ZengMDPI AGSensors1424-82202018-09-01189304610.3390/s18093046s18093046Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in BuildingsLia Mota0Alexandre Mota1Cláudia Pezzuto2Marcius Carvalho3Marina Lavorato4Lorenzo Coiado5Everton Oliveira6Pontifical Catholic University of Campinas, Center of Exact, Environmental and Technological Sciences, CEP 13086-900 Campinas, BrazilPontifical Catholic University of Campinas, Center of Exact, Environmental and Technological Sciences, CEP 13086-900 Campinas, BrazilPontifical Catholic University of Campinas, Center of Exact, Environmental and Technological Sciences, CEP 13086-900 Campinas, BrazilPontifical Catholic University of Campinas, Center of Exact, Environmental and Technological Sciences, CEP 13086-900 Campinas, BrazilPontifical Catholic University of Campinas, Center of Exact, Environmental and Technological Sciences, CEP 13086-900 Campinas, BrazilPontifical Catholic University of Campinas, Center of Exact, Environmental and Technological Sciences, CEP 13086-900 Campinas, BrazilPontifical Catholic University of Campinas, Center of Exact, Environmental and Technological Sciences, CEP 13086-900 Campinas, BrazilThe air temperature increase in urban centers can lead to problems such as increased energy consumption associated to air conditioning, the intensification of pollution, human discomfort and health problems. In this context, the building envelope plays an important role in urban thermal equilibrium. Energy efficiency rating systems for buildings (LEED—Leadership in Energy and Environmental Design, AQUA—High Environmental Quality, PROCEL Edifica, etc.) stimulate energy efficiency actions in the built environment, considering, for example, the envelope and energy efficiency initiatives in buildings. Research carried out recently has shown that monitoring of buildings can provide important information about building performance, supporting building control strategies and enabling actions aimed at improving energy efficiency and thermal comfort. More specifically, wireless sensors are also being used to monitor buildings. This work proposes and presents the development of a surface temperature sensor that can support actions to enhance energy efficiency in the built environment, meeting the requirements proposed by the energy efficiency rating systems of buildings. This sensor must have characteristics such as low cost, the storage capacity of a large amount of data and the possibility of remote monitoring of the collected temperatures. Computer simulations and validation tests were carried out showing that the proposed sensor allows the remote monitoring (using a wireless transmission system) of the surface temperature in buildings, respecting the requirements of high storage capability and low cost.http://www.mdpi.com/1424-8220/18/9/3046thermal comfortenergy efficiencysurface temperature sensortemperature monitoringbuilding energy efficiency rating systems
collection DOAJ
language English
format Article
sources DOAJ
author Lia Mota
Alexandre Mota
Cláudia Pezzuto
Marcius Carvalho
Marina Lavorato
Lorenzo Coiado
Everton Oliveira
spellingShingle Lia Mota
Alexandre Mota
Cláudia Pezzuto
Marcius Carvalho
Marina Lavorato
Lorenzo Coiado
Everton Oliveira
Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in Buildings
Sensors
thermal comfort
energy efficiency
surface temperature sensor
temperature monitoring
building energy efficiency rating systems
author_facet Lia Mota
Alexandre Mota
Cláudia Pezzuto
Marcius Carvalho
Marina Lavorato
Lorenzo Coiado
Everton Oliveira
author_sort Lia Mota
title Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in Buildings
title_short Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in Buildings
title_full Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in Buildings
title_fullStr Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in Buildings
title_full_unstemmed Development of a Surface Temperature Sensor to Enhance Energy Efficiency Actions in Buildings
title_sort development of a surface temperature sensor to enhance energy efficiency actions in buildings
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2018-09-01
description The air temperature increase in urban centers can lead to problems such as increased energy consumption associated to air conditioning, the intensification of pollution, human discomfort and health problems. In this context, the building envelope plays an important role in urban thermal equilibrium. Energy efficiency rating systems for buildings (LEED—Leadership in Energy and Environmental Design, AQUA—High Environmental Quality, PROCEL Edifica, etc.) stimulate energy efficiency actions in the built environment, considering, for example, the envelope and energy efficiency initiatives in buildings. Research carried out recently has shown that monitoring of buildings can provide important information about building performance, supporting building control strategies and enabling actions aimed at improving energy efficiency and thermal comfort. More specifically, wireless sensors are also being used to monitor buildings. This work proposes and presents the development of a surface temperature sensor that can support actions to enhance energy efficiency in the built environment, meeting the requirements proposed by the energy efficiency rating systems of buildings. This sensor must have characteristics such as low cost, the storage capacity of a large amount of data and the possibility of remote monitoring of the collected temperatures. Computer simulations and validation tests were carried out showing that the proposed sensor allows the remote monitoring (using a wireless transmission system) of the surface temperature in buildings, respecting the requirements of high storage capability and low cost.
topic thermal comfort
energy efficiency
surface temperature sensor
temperature monitoring
building energy efficiency rating systems
url http://www.mdpi.com/1424-8220/18/9/3046
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