A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through Façades

A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through Façades

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Due to the rapid development of super insulated and airtight buildings, the energy requirement for mechanical ventilation is becoming more and more dominant in today’s highly efficient buildings. In this scenario, natural ventilation has the potential to reduce energy use for buildings while mainta...

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Main Authors: Nejmia Ali Mohammed, Gabriele Lobaccaro, Francesco Goia, Gaurav Chaudhary, Francesco Causone
Format: Article
Language:English
Published: TU Delft Open 2019-12-01
Series:Journal of Facade Design and Engineering
Subjects:
Natural ventilation
Building Façade
Climate change
Online Access:https://journals.open.tudelft.nl/jfde/article/view/3830
id doaj-cbbdee50b5674cecbb7f1381b00e9f7b
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spelling doaj-cbbdee50b5674cecbb7f1381b00e9f7b2021-02-21T12:03:24ZengTU Delft OpenJournal of Facade Design and Engineering2213-302X2213-30382019-12-0172A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through FaçadesNejmia Ali Mohammed0Gabriele Lobaccaro1Francesco Goia2Gaurav Chaudhary3Francesco Causone4Department of Architecture and Urban Planning, Faculty of Engineering, Technology and Computational Science, Unity University, Addis AbabaDepartment of Architecture and Technology, Faculty of Architecture and Design, NTNU Norwegian University of Science and Technology, TrondheimDepartment of Architecture and Technology, Faculty of Architecture and Design, NTNU Norwegian University of Science and Technology, TrondheimDepartment of Architecture and Technology, Faculty of Architecture and Design, NTNU Norwegian University of Science and Technology, TrondheimDepartment of Energy, Politecnico di Milano Due to the rapid development of super insulated and airtight buildings, the energy requirement for mechanical ventilation is becoming more and more dominant in today’s highly efficient buildings. In this scenario, natural ventilation has the potential to reduce energy use for buildings while maintaining ventilation rates that are consistent with acceptable indoor air quality. The increase in air temperature and frequency of extreme weather events (e.g. heavy rains, heat and cold waves) due to climate change will alter future outdoor boundary conditions and consequently the potential for natural ventilation in buildings. Therefore, to respond to the fluctuations in outdoor boundary conditions, the building envelope should become more and more dynamically responsive. In that sense, the façade plays an important role by regulating indoor comfort based on outdoor environmental conditions. This paper presents a methodological approach to investigate the potential of natural ventilation through the façade in office buildings in present and future climate conditions. It reviews technologies and strategies that maximise the use of natural ventilation in office buildings located in six selected different European climates. Numerical analyses were conducted, considering outdoor air temperature and humidity. Integrated façades with hybrid systems and strategies is one of the key solutions for increasing the potential of natural ventilation. The results showed that a hybrid solution with low-pressure drop heat recovery had the greatest potential to maximise the possibilities of low energy façade integrated ventilation. https://journals.open.tudelft.nl/jfde/article/view/3830Natural ventilationBuilding FaçadeClimate change
collection DOAJ
language English
format Article
sources DOAJ
author Nejmia Ali Mohammed
Gabriele Lobaccaro
Francesco Goia
Gaurav Chaudhary
Francesco Causone
spellingShingle Nejmia Ali Mohammed
Gabriele Lobaccaro
Francesco Goia
Gaurav Chaudhary
Francesco Causone
A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through Façades
Journal of Facade Design and Engineering
Natural ventilation
Building Façade
Climate change
author_facet Nejmia Ali Mohammed
Gabriele Lobaccaro
Francesco Goia
Gaurav Chaudhary
Francesco Causone
author_sort Nejmia Ali Mohammed
title A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through Façades
title_short A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through Façades
title_full A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through Façades
title_fullStr A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through Façades
title_full_unstemmed A Methodological Approach to Assess the Climatic Potential of Natural Ventilation Through Façades
title_sort methodological approach to assess the climatic potential of natural ventilation through façades
publisher TU Delft Open
series Journal of Facade Design and Engineering
issn 2213-302X
2213-3038
publishDate 2019-12-01
description Due to the rapid development of super insulated and airtight buildings, the energy requirement for mechanical ventilation is becoming more and more dominant in today’s highly efficient buildings. In this scenario, natural ventilation has the potential to reduce energy use for buildings while maintaining ventilation rates that are consistent with acceptable indoor air quality. The increase in air temperature and frequency of extreme weather events (e.g. heavy rains, heat and cold waves) due to climate change will alter future outdoor boundary conditions and consequently the potential for natural ventilation in buildings. Therefore, to respond to the fluctuations in outdoor boundary conditions, the building envelope should become more and more dynamically responsive. In that sense, the façade plays an important role by regulating indoor comfort based on outdoor environmental conditions. This paper presents a methodological approach to investigate the potential of natural ventilation through the façade in office buildings in present and future climate conditions. It reviews technologies and strategies that maximise the use of natural ventilation in office buildings located in six selected different European climates. Numerical analyses were conducted, considering outdoor air temperature and humidity. Integrated façades with hybrid systems and strategies is one of the key solutions for increasing the potential of natural ventilation. The results showed that a hybrid solution with low-pressure drop heat recovery had the greatest potential to maximise the possibilities of low energy façade integrated ventilation.
topic Natural ventilation
Building Façade
Climate change
url https://journals.open.tudelft.nl/jfde/article/view/3830
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AT francescocausone methodologicalapproachtoassesstheclimaticpotentialofnaturalventilationthroughfacades
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