Peer-reviewed articles 17,970 +


Title: DYNAMIC SIMULATION OF THE EFFECT OF VENTILATION ON THE THERMAL MICROCLIMATE IN A WOODEN BUILDING
DYNAMIC SIMULATION OF THE EFFECT OF VENTILATION ON THE THERMAL MICROCLIMATE IN A WOODEN BUILDING

PlumX Article Metrics by Elsevier
Andrea Badurova; Petra Stiborova
10.5593/sgem2022/4.1/s17.07
10.5593/sgem2022/4.1
1314-2704
978-619-7603-44-6
English
22
4.1
•    Prof. DSc. Oleksandr Trofymchuk, UKRAINE 
•    Prof. Dr. hab. oec. Baiba Rivza, LATVIA
Renewable Energy Sources and Clean Technologies
The design of a suitable ventilation method for buildings aims primarily to improve the quality of the indoor environment of buildings and thus to influence individual parameters of the indoor environment such asCO2concentration, air purity, the required amount of fresh air according to the proposed operation of the building, temperature and humidity. Proper design and installation of a forced ventilation system with heat recovery can significantly reduce the energy required for heating or cooling. The paper focuses on the ventilation of a building in summer and its effect on the indoor air temperature, which is an important parameter in the assessment of thermal stability. The building under consideration is a building designed using lightweight building structures that meet the standard requirements for the thermal technical properties of a building in the passive standard. The computer program DesignBuilder will be used for the calculation, which allows the assessment of alternative ventilation solutions under identical climatic conditions by means of dynamic simulation on a 3D model of the building. A critical room where the highest daily temperatures are reached will be used for the evaluation.
[1] Directive (EU) 2018/844/EC of the European Parliament and of the Council of 30 May 2018 amending Directive 2010/31/EU on the energy performance of buildings and Directive 2012/27/EU on energy efficiency. Official Journal of the EU L 156. Date 19.6.2010, S0075-0091.
[2] Decree No. 264/2020 Coll. of the EC of 29 May 2020 on the energy performance of buildings. Collection of Laws of the Czech Republic. ISSN 1211-1244.
[3] YUAN, Y.; SHIM, J.; LEE, S.; SONG, D.; KIM, J. Prediction for Overheating Risk Based on Deep Learning in a Zero Energy Building. Sustainability 2020, 12, 8974.
[4] Czech Statistical Office. Background information available from http://www.czso.cz.
[5] CSN 73 0540-2, 2011: Thermal protection of buildings - Part 2: Requirements.
[6] CENTNEROVA L., Thermal comfort and discomfort. In: Tzb-info.cz [online]. 13.12.2000. Available from: https://vetrani.tzb-info.cz/vnitrni-prostredi/404-tepelnapohoda-a-nepohoda
[7] KOPECKY, P., SOJKOVA, K. Analysis of possible impacts of changing climatic boundary conditions on residential buildings in the Czech Republic. Heating, Ventilation, Installation. 2019, No 1.
[8] CSN 73 0548: Calculation of the heat load of air-conditioned spaces.
The contribution was supported by the VSB-TUO Student Grant Competition. The registration number of the project is 2022/117.
conference
https://doi.org/10.5593/sgem2022/4.1/s17.07
Download PDF
Proceedings of 22nd International Multidisciplinary Scientific GeoConference SGEM 2022
22nd International Multidisciplinary Scientific GeoConference SGEM 2022, 04 - 10 July, 2022
Proceedings Paper
STEF92 Technology
International Multidisciplinary Scientific GeoConference SGEM
SWS Scholarly Society; Acad Sci Czech Republ; Latvian Acad Sci; Polish Acad Sci; Serbian Acad Sci and Arts; Natl Acad Sci Ukraine; Natl Acad Sci Armenia; Sci Council Japan; European Acad Sci, Arts and Letters; Acad Fine Arts Zagreb Croatia; Croatian Acad Sci and Arts; Acad Sci Moldova; Montenegrin Acad Sci and Arts; Georgian Acad Sci; Acad Fine Arts and Design Bratislava; Turkish Acad Sci.
51-56
04 - 10 July, 2022
website
8577
ventilation, wooden building, summer season, thermal stability, critical room