Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy Audit

Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy Audit

Effective evaluation on the thermal performance of building envelope plays an important role towards the reduction of energy consumption for space cooling and heating. In order to estimate the energy consumption for cooling, heating and the whole energy saving on the envelop designs; an improvements...

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Main Authors: Mokhtari Fatiha, Semmar Djaffar, Chikhi Mourad, Kasbadji Merzouk Nachida, Oukaci Soumia
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2020/03/matecconf_icome2017-2018_01031.pdf
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spelling doaj-f203de72e42b40bebe1b22a7c678042e2021-08-05T13:49:16ZengEDP SciencesMATEC Web of Conferences2261-236X2020-01-013070103110.1051/matecconf/202030701031matecconf_icome2017-2018_01031Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy AuditMokhtari FatihaSemmar DjaffarChikhi MouradKasbadji Merzouk NachidaOukaci SoumiaEffective evaluation on the thermal performance of building envelope plays an important role towards the reduction of energy consumption for space cooling and heating. In order to estimate the energy consumption for cooling, heating and the whole energy saving on the envelop designs; an improvements of thermal performances of this envelope are introduced. This trend is performed using a numerical study. The building is an office part of the Unit of Developmental for Solar Equipment (UDES) located at Bou-Ismail, an Algerian coastal city. Through the software PLEADES-COMFIE, building energy has been evaluated. The simulation results illustrate that; adding 90 mm thick insulation on the opaque walls and double glazing on windows produce a maximum saving of 50% and 10% annual energy required in heating and cooling. Also these proposed performances allow increasing indoor temperate of 4°C in winter season and decreasing.https://www.matec-conferences.org/articles/matecconf/pdf/2020/03/matecconf_icome2017-2018_01031.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Mokhtari Fatiha
Semmar Djaffar
Chikhi Mourad
Kasbadji Merzouk Nachida
Oukaci Soumia
spellingShingle Mokhtari Fatiha
Semmar Djaffar
Chikhi Mourad
Kasbadji Merzouk Nachida
Oukaci Soumia
Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy Audit
MATEC Web of Conferences
author_facet Mokhtari Fatiha
Semmar Djaffar
Chikhi Mourad
Kasbadji Merzouk Nachida
Oukaci Soumia
author_sort Mokhtari Fatiha
title Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy Audit
title_short Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy Audit
title_full Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy Audit
title_fullStr Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy Audit
title_full_unstemmed Investigation Of The Improvement Building Envelope Impact On Energy Consumption Using Energy Audit
title_sort investigation of the improvement building envelope impact on energy consumption using energy audit
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2020-01-01
description Effective evaluation on the thermal performance of building envelope plays an important role towards the reduction of energy consumption for space cooling and heating. In order to estimate the energy consumption for cooling, heating and the whole energy saving on the envelop designs; an improvements of thermal performances of this envelope are introduced. This trend is performed using a numerical study. The building is an office part of the Unit of Developmental for Solar Equipment (UDES) located at Bou-Ismail, an Algerian coastal city. Through the software PLEADES-COMFIE, building energy has been evaluated. The simulation results illustrate that; adding 90 mm thick insulation on the opaque walls and double glazing on windows produce a maximum saving of 50% and 10% annual energy required in heating and cooling. Also these proposed performances allow increasing indoor temperate of 4°C in winter season and decreasing.
url https://www.matec-conferences.org/articles/matecconf/pdf/2020/03/matecconf_icome2017-2018_01031.pdf
work_keys_str_mv AT mokhtarifatiha investigationoftheimprovementbuildingenvelopeimpactonenergyconsumptionusingenergyaudit
AT semmardjaffar investigationoftheimprovementbuildingenvelopeimpactonenergyconsumptionusingenergyaudit
AT chikhimourad investigationoftheimprovementbuildingenvelopeimpactonenergyconsumptionusingenergyaudit
AT kasbadjimerzouknachida investigationoftheimprovementbuildingenvelopeimpactonenergyconsumptionusingenergyaudit
AT oukacisoumia investigationoftheimprovementbuildingenvelopeimpactonenergyconsumptionusingenergyaudit
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