Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the Envelope

Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the Envelope

The improvement of the energy performance in buildings is key for sustainable development, even more so in the case of the Dominican Republic (DR), which is committed to this goal but which has neither regulation nor specific social behavior in this field. The main goal of this work is double; on on...

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Main Authors: Joan Manuel Felix Benitez, Luis Alfonso del Portillo-Valdés, Victor José del Campo Díaz, Koldobika Martin Escudero
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Energies
Subjects:
energy simulation
energy monitoring
glazing
infiltrations
thermal comfort
air conditioning
Online Access:https://www.mdpi.com/1996-1073/13/14/3731
id doaj-0c5c67f0b6694e12aed8bef9b538c962
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spelling doaj-0c5c67f0b6694e12aed8bef9b538c9622020-11-25T03:48:24ZengMDPI AGEnergies1996-10732020-07-01133731373110.3390/en13143731Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the EnvelopeJoan Manuel Felix Benitez0Luis Alfonso del Portillo-Valdés1Victor José del Campo Díaz2Koldobika Martin Escudero3ENEDI Research Group, Thermal Engineering Department, University of the Basque country (UPV/EHU), 48013 Bilbao, Bizkaia, SpainENEDI Research Group, Thermal Engineering Department, University of the Basque country (UPV/EHU), 48013 Bilbao, Bizkaia, SpainENEDI Research Group, Thermal Engineering Department, University of the Basque country (UPV/EHU), 48013 Bilbao, Bizkaia, SpainENEDI Research Group, Thermal Engineering Department, University of the Basque country (UPV/EHU), 48013 Bilbao, Bizkaia, SpainThe improvement of the energy performance in buildings is key for sustainable development, even more so in the case of the Dominican Republic (DR), which is committed to this goal but which has neither regulation nor specific social behavior in this field. The main goal of this work is double; on one hand it is aimed at providing useable information for those who have the responsibly of making regulation norms and on the other, it is desirable to give an essential, technically proven and handy tool to those involved in the construction sector in improving the envelopes of buildings and to introduce good practices into the management of the energy systems of buildings. A case study of eight administrative buildings located in different climatic zones of the DR was carried out. A simulation tool was used for the study, and one of the buildings was monitored to verify the simulation work. Those factors that affect the development of the buildings in relation to thermo-energy consumption have been detailed. The large-scale heat gains resulting from the common glazing used by the tertiary sector in the Dominican Republic (including office buildings, hospitals and shops among others) illustrate the need for economically viable solutions in this sector. As a conclusion, it has been proved that the incidental thermal load of buildings could be reduced by up to 40%, thus in turn reducing the costs associated with the electricity needed to maintain the users’ desired thermal comfort level, as their influence in this sector is significant.https://www.mdpi.com/1996-1073/13/14/3731energy simulationenergy monitoringglazinginfiltrationsthermal comfortair conditioning
collection DOAJ
language English
format Article
sources DOAJ
author Joan Manuel Felix Benitez
Luis Alfonso del Portillo-Valdés
Victor José del Campo Díaz
Koldobika Martin Escudero
spellingShingle Joan Manuel Felix Benitez
Luis Alfonso del Portillo-Valdés
Victor José del Campo Díaz
Koldobika Martin Escudero
Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the Envelope
Energies
energy simulation
energy monitoring
glazing
infiltrations
thermal comfort
air conditioning
author_facet Joan Manuel Felix Benitez
Luis Alfonso del Portillo-Valdés
Victor José del Campo Díaz
Koldobika Martin Escudero
author_sort Joan Manuel Felix Benitez
title Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the Envelope
title_short Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the Envelope
title_full Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the Envelope
title_fullStr Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the Envelope
title_full_unstemmed Simulation and Thermo-Energy Analysis of Building Types in the Dominican Republic to Evaluate and Introduce Energy Efficiency in the Envelope
title_sort simulation and thermo-energy analysis of building types in the dominican republic to evaluate and introduce energy efficiency in the envelope
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2020-07-01
description The improvement of the energy performance in buildings is key for sustainable development, even more so in the case of the Dominican Republic (DR), which is committed to this goal but which has neither regulation nor specific social behavior in this field. The main goal of this work is double; on one hand it is aimed at providing useable information for those who have the responsibly of making regulation norms and on the other, it is desirable to give an essential, technically proven and handy tool to those involved in the construction sector in improving the envelopes of buildings and to introduce good practices into the management of the energy systems of buildings. A case study of eight administrative buildings located in different climatic zones of the DR was carried out. A simulation tool was used for the study, and one of the buildings was monitored to verify the simulation work. Those factors that affect the development of the buildings in relation to thermo-energy consumption have been detailed. The large-scale heat gains resulting from the common glazing used by the tertiary sector in the Dominican Republic (including office buildings, hospitals and shops among others) illustrate the need for economically viable solutions in this sector. As a conclusion, it has been proved that the incidental thermal load of buildings could be reduced by up to 40%, thus in turn reducing the costs associated with the electricity needed to maintain the users’ desired thermal comfort level, as their influence in this sector is significant.
topic energy simulation
energy monitoring
glazing
infiltrations
thermal comfort
air conditioning
url https://www.mdpi.com/1996-1073/13/14/3731
work_keys_str_mv AT joanmanuelfelixbenitez simulationandthermoenergyanalysisofbuildingtypesinthedominicanrepublictoevaluateandintroduceenergyefficiencyintheenvelope
AT luisalfonsodelportillovaldes simulationandthermoenergyanalysisofbuildingtypesinthedominicanrepublictoevaluateandintroduceenergyefficiencyintheenvelope
AT victorjosedelcampodiaz simulationandthermoenergyanalysisofbuildingtypesinthedominicanrepublictoevaluateandintroduceenergyefficiencyintheenvelope
AT koldobikamartinescudero simulationandthermoenergyanalysisofbuildingtypesinthedominicanrepublictoevaluateandintroduceenergyefficiencyintheenvelope
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