asa
Строительство и техногенная безопасность 2413-1873 КФУ им. В.И. Вернадского
96
ConstructionСтроительные науки
ИССЛЕДОВАНИЕ РАЗЛИЧНЫХ КОМБИНАЦИЙ УТЕПЛЕНИЯ ПРОСТРАНСТВА МЕЖДУ СТЕНОЙ И СЭНДВИЧ-ПАНЕЛЬЮ ИЗ МИНЕРАЛЬНОЙ ВАТЫRESEARCH OF VARIOUS COMBINATIONS OF WARMING SPACE BETWEEN A WALL AND A SANDWICH PANEL FROM MINERAL WOOL
Важдаев
К. В.
Vazhdaev
K. V.
Валиахметова
Ю. И.
Valiakhmetova
Yu. I.
Мартяшева
В. А.
Martyasheva
V. A.
Латыпова
Т. В.
Latypova
T. V.
Газизова
Л. И.
Gazizova
L. I.
Шарафутдинов
А. И.
Sharafutdinov
A. I.
Ульмасов
Р. Р.
Ulmasov
R. R.
ФГБОУ ВО Уфимский государственный авиационный технический университет
Ufa State Petroleum Technological University
ФГБОУ ВО Уфимский государственный авиационный технический университет
Ufa State Petroleum Technological University
ФГБОУ ВО Уфимский государственный авиационный технический университет
Ufa State Aviation Technological University
ФГБОУ ВО Уфимский государственный авиационный технический университет
Ufa State Aviation Technological University
22
12
2020
19(71)6727
35
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2020
Строительство и техногенная безопасность
https://stroyjurnal-asa.ru/index.php/asa/article/view/96
В статье рассматриваются методы повышения энергоэффективности зданий за счет снижения теплопотерь через светопрозрачные конструкции, при этом уделяя особое внимание оконным откосам. Авторы предлагают исследовать различные комбинации заполнения пространства между стеной и сэндвич-панелью из минеральной ваты. Для этого выполнен расчет и полученые результаты распределения температурных полей при различных комбинациях с использованием программного комлекса ANSYS. Авторами проанализированы результаты и сделаны выводы о наиболее экономически выгодном варианте заполнения пространства между стеной и сэндвич-панелью из минеральной ваты.
The article discusses methods for improving the energy efficiency of buildings by reducing heat loss through translucent structures, while paying particular attention to window slopes. The author suggests exploring various combinations of filling the space between a wall and a mineral wool sandwich panel. For this, the calculation and the results of the distribution of temperature fields for various combinations using the ANSYS software package were performed. The author analyzed the results and made conclusions about the most cost-effective option for filling the space between the wall and the mineral wool sandwich panel.
Keywordsreduction of heat loss in buildingswindow slopetranslucent structuresenergy efficiency of buildingsКлючевые словаэнергоэффективность зданийсветопрозрачные конструкцииоконный откосуменьшение теплопотерь в зданиях
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[Energy Performance of Buildings Directive (EU) 2018/844 of the European Parliament and of the Council of May 30, 2018.]
[Kameneva E.A., Sedash T.N., Tyutyukina E.B., Shokhin E.I. The financial mechanism for improving energy efficiency (for example, housing and communal services): Monograph. - M.: Scientific technologies, 2013.]
[TSN 23-318-2000 of the Republic of Bashkorstostan (TSN 23-318-2000 RB) Thermal protection of buildings. Enter 01/23/2001]
[SP 50.13330.2012 Thermal protection of buildings. Updated version of SNiP 23-02-2003 (as Amended by N 1). 2013]
[A.K. Burkitbaev, Sh.K. Adilov. Thermal imaging as a method for the technical diagnosis of heat loss in buildings and structures. Bulletin of Almaty Technological University. 2013 - p. 77 - 79.]
[Santos, P, Martins, C, Sim es da Silva, L. Thermal performance of lightweight steel-framed construction systems. Metall Res Technol. 2014. No. 111(6). pp. 329–338.]
[Santos, P, Energy efficiency of lightweight steel-framed buildings [Online]. URL https://www.intechopen.com/book s/energy-efficient-buildings/energy-efficiency-of-lightweightsteel-framed-buildings (date of application: 11.12.2017).]
[Mao, G., Johannesson, G. Dynamic calculation of thermal bridges. Energy and Buildings. 1997. Vol. 26. No. 3. pp. 233–240.]
[Garay, R., Uriarte, A, Apraiz, I. Performance assessment of thermal bridge elements into a full scale experimental study of a building façade. Energy and buildings, 2014. No. 85. pp. 579–591.]
[Tenpierik, M.J., Van der Spoel, W.H., Cauber, J.M. Analytical model for computing thermal bridge effects in high performance building panels [Online]. URL: http://www.researchgate.net /publication/242269808_Analytical_Model_for_Computing_Thermal_Bridge_Effects_in_High_Performance_Building_Panels (date of application: 11.12.2017).]
[Qingyan Chen. A computational method for calculation heat transfer and airflow through a dual-airflow window. Energy and Environment, Vol. 40, pp. 452-458, 2008.]
[Neveen Haxnza, Double versus single skin facades in hot arid areas. Energy and Bulldings, vol. 40, pp. 240-248, 2008.]
[Vatin N.I., Nemova D.V., Rymkevich P.P., Gorshkov A.S. Influence of building envelope thermal protection on heat loss value in the building. Magazine of Civil Engineering. 2012. No. 8(34). pp. 4–14.]
[. Krivoshein, A.D., Fedorov, S.V. K voprosu o raschete privedennogo soprotivleniya teploperedache [About the calculation of reduced total thermal resistance of walling]. Magazine of Civil Engineering. 2010. No. 8(18). pp. 21–27.]
[Bedov A I, Babkov V V, Gaisin A M, Gabitov A I Experience in Operating Residential and Civil Buildings with Heat Efficient External Walls in Climatic Conditions of the Republic of Bashkortostan // Bulletin of MSUCE – 2011 No 2 V 1, pp 89-94.]
[Podkovyrina K.A., Podkovyrin V.S. Energy-efficient translucent walling (modern historiography of the issue) // Urban Studies. – 2016. – No. 3. – S. 49-60.]
[Pat. 2639750 Russian Federation, IPC C03C 17/36, E06B 3/66. Insulating double-glazed windows with low-emission and anti-reflective coatings [text] / FRENK Markus (US), BOJS Brent (US), KNOLL Khartmut (DE), LORENTS Aleksander (DE), KRILTTS Uve (DE); applicant and patent holder - GARDIAN INDASTRIZ KORP. (US) SANTR LYUKSAMBURZHUA DE RESHERSH PUR LE VERR E LYA SERAMIK S.A. (S.R.V.S.) (LU). – № 2014128342; declared 04/27/2029.11.2012; publ. 12/22/2017.]
[GOST 30971-2012 “Mounting seams for adjoining window blocks to wall openings. General specifications "]
[A.M. Chegrinets. Analysis of heat loss in the enclosing structures of buildings and structures. Bulletin of Sumy National Agrarian University. Issue 8 (17), 2013 - p. 116 - 118.]
[N.S. Ponomarev, T.S. Rogozhin. Methodology for determining heat loss of a building using a thermal imager. "Modern problems of physical and mathematical sciences." Materials of the III International Scientific and Practical Conference. Under the total. ed. T.N. Mozharova. 2017 p. 249 - 253.]