Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building

Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building

This paper proposes a new methodology of determining the building heat losses associated with natural and (or) forced air ventilation, based on continuous measurements of the temperature, humidity and carbon dioxide concentration in the air. Determining the flow rate of infiltrating air is performed...

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Main Authors: Brazhanova Dana, Stoyak Vyacheslav, Ibragimova Madina, Terziev Angel
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/67/e3sconf_fpepm2020_01007.pdf
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spelling doaj-67a9aafaaf1f4d709f0be7d282a522ee2021-04-02T19:03:54ZengEDP SciencesE3S Web of Conferences2267-12422020-01-012070100710.1051/e3sconf/202020701007e3sconf_fpepm2020_01007Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the buildingBrazhanova Dana0Stoyak Vyacheslav1Ibragimova Madina2Terziev Angel3Non-commercial “Almaty University of Power Engineering and Communication” JSCNon-commercial “Almaty University of Power Engineering and Communication” JSCNon-commercial “Almaty University of Power Engineering and Communication” JSCDeptartment of “Power Engineering and Power Machines”, 8 Kliment Ohridski blvd., Technical University of SofiaThis paper proposes a new methodology of determining the building heat losses associated with natural and (or) forced air ventilation, based on continuous measurements of the temperature, humidity and carbon dioxide concentration in the air. Determining the flow rate of infiltrating air is performed by the active and passive experimental methods. The proposed method allows determining the exact amount of heat losses associated with ventilation or infiltration of the building under environmental conditions. In addition, the paper proposes an algorithm of calculating the actual number of people present in the room and the associated heat gains based on the air composition analysis. The proposed methods can be used as tools for conducting energy inspections of buildings and structures, as well as be part of effective building energy supply management systems.https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/67/e3sconf_fpepm2020_01007.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Brazhanova Dana
Stoyak Vyacheslav
Ibragimova Madina
Terziev Angel
spellingShingle Brazhanova Dana
Stoyak Vyacheslav
Ibragimova Madina
Terziev Angel
Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building
E3S Web of Conferences
author_facet Brazhanova Dana
Stoyak Vyacheslav
Ibragimova Madina
Terziev Angel
author_sort Brazhanova Dana
title Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building
title_short Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building
title_full Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building
title_fullStr Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building
title_full_unstemmed Methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building
title_sort methodology for determination of heat losses from infiltration and ventilation and heat gains from people in overall energy balance of the building
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2020-01-01
description This paper proposes a new methodology of determining the building heat losses associated with natural and (or) forced air ventilation, based on continuous measurements of the temperature, humidity and carbon dioxide concentration in the air. Determining the flow rate of infiltrating air is performed by the active and passive experimental methods. The proposed method allows determining the exact amount of heat losses associated with ventilation or infiltration of the building under environmental conditions. In addition, the paper proposes an algorithm of calculating the actual number of people present in the room and the associated heat gains based on the air composition analysis. The proposed methods can be used as tools for conducting energy inspections of buildings and structures, as well as be part of effective building energy supply management systems.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/67/e3sconf_fpepm2020_01007.pdf
work_keys_str_mv AT brazhanovadana methodologyfordeterminationofheatlossesfrominfiltrationandventilationandheatgainsfrompeopleinoverallenergybalanceofthebuilding
AT stoyakvyacheslav methodologyfordeterminationofheatlossesfrominfiltrationandventilationandheatgainsfrompeopleinoverallenergybalanceofthebuilding
AT ibragimovamadina methodologyfordeterminationofheatlossesfrominfiltrationandventilationandheatgainsfrompeopleinoverallenergybalanceofthebuilding
AT terzievangel methodologyfordeterminationofheatlossesfrominfiltrationandventilationandheatgainsfrompeopleinoverallenergybalanceofthebuilding
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