Optimization of thermal modernization of a group of buildings using simulation modeling

Ksenia Olegovna Dubrakova , Pavel Monastyrev Vladislavovich , Roman Klychnikov Yuryevich , Walery Jezierski

Abstract

The paper considers methodological aspects of designing a simulation model to optimize the parameters of thermal modernization of residential buildings on a city scale. We developed an optimization methodology of thermal modernization and tested the sequence of its stages on an arbitrarily chosen group of residential buildings. It was found that, under the chosen design conditions, the proposed optimization methodology could provide additional savings of up to 8.53%. A simple engineering approach to determining the optimal sequence of thermal modernization has been formulated. It is proposed to use an indicator of reduction in thermal energy consumption for heating and ventilation of buildings to explain the procedure for the optimal sequence of stages
Author Ksenia Olegovna Dubrakova
Ksenia Olegovna Dubrakova,,
-
, Pavel Monastyrev Vladislavovich
Pavel Monastyrev Vladislavovich,,
-
, Roman Klychnikov Yuryevich
Roman Klychnikov Yuryevich,,
-
, Walery Jezierski (FCEE / DSEEC)
Walery Jezierski,,
- Department of Spatial Economy and Energy-Efficient Construction
Journal seriesJournal of Applied Engineering Science/Istrazivanja i Projektovanja za Privredu, ISSN 1451-4117, (N/A 20 pkt)
Issue year2019
Vol17
No2
Pages192-197
Publication size in sheets0.5
Article number595
ASJC Classification3313 Transportation; 2105 Renewable Energy, Sustainability and the Environment; 2200 General Engineering; 2205 Civil and Structural Engineering; 2210 Mechanical Engineering; 2213 Safety, Risk, Reliability and Quality
DOIDOI:10.5937/jaes17-21683
Internal identifierROC 19-20
Languageen angielski
LicenseJournal (articles only); published final; Uznanie Autorstwa - Użycie Niekomercyjne - Bez utworów zależnych (CC-BY-NC-ND); with publication
Score (nominal)20
Score sourcejournalList
ScoreMinisterial score = 20.0, 12-02-2020, ArticleFromJournal
Publication indicators Scopus SNIP (Source Normalised Impact per Paper): 2018 = 0.715
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