The method and computation of air change required for attic rooms

Автор: Vatin Nikolai, Gorshkov Alexander, Dadchenko Aleksandr, Rymkevich Pavel, Olshevskiy Vyacheslav

Журнал: Строительство уникальных зданий и сооружений @unistroy

Статья в выпуске: 2 (53), 2017 года.

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The article deals with the recommendations how to eliminate ice dam formation on pitched roofs of the buildings with cold attics during heating period. The case of how to calculate required air change in cold attic rooms, where building structures which separate attics from rooms or utilities with high temperature (heat supply sources) are not insulated, is given in details. It is proved that natural ventilation system can ensure this condition only within short terms. It is necessary to both carry out works to ensure air change and insulate building envelopes, which separate cold attics from rooms with higher air temperature in order to satisfy all the requirements to eliminate reasons of ice dam formation on roofs

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Roof, roofing, cornice, snow, ice, ice dams, attic, temperature and humidity regime, attic floor slab, insulation

Короткий адрес: https://sciup.org/14322371

IDR: 14322371   |   DOI: 10.18720/CUBS.53.4

Список литературы The method and computation of air change required for attic rooms

  • Gorshkov A.S., Vatin N.I., Urustimov A.I., Rymkevich P.P. Design method study of technological measures to prevent the formation of ice dams on roofs of buildings with pitched roof. Magazine of Civil Engineering. 2012. No. 3 (29). Pp. 69-73.
  • Gorshkov A.S. The reasons for the formation of ice dams on roofs of buildings. Roofing and insulation materials. 2014. No. 6. Pp. 16-19.
  • Romanova A.A., Rymkevich P.P., Gorshkov A.S. A comprehensive solution to eliminate the causes of ice dams on roofs of buildings. Technical and technological service problems. 2015. No. 3 (33). Pp. 15-19.
  • Rules and regulations of technical operation of housing (registered in the Ministry of Justice on October 15, 2003, registration N 5176).
  • Vatin N., Gorshkov A., Nemova D., Urustimov A., Staritcyna A., Rymkevich P. Calculation method of justification of technical actions for prevention of ice dams formation on buildings with a pitched roof. Applied Mechanics and Materials. 2015. Vols. 725-726. Pp. 9-14.
  • Evstratov A.S., Makarov A.M. Factors affecting the temperature and humidity conditions pitched roofs with a cold attic. Society, modern science and education: problems and prospects. 2012. Pp. 52-54
  • Gusev N. I., Kubasov E. A., Kochetkova M. V. Means for removing ice from roofs. Regional architecture and engineering. 2011. No. 2. Pp. 104-108.
  • Petrov K. V., Zolotarjova E. A., Volodin V. V., Vatin N. I., Zhmarin E. N. Reconstruction of roofs of St. Petersburg on the basis of light steel thin-walled structures, and de-icing systems. Magazine of Civil Engineering. 2010. No. 2. Pp. 59-64.
  • Gusev N. I., Kubasov E. A. Constructive solutions to prevent the formation of ice dams on roofs. Regional architecture and engineering. 2011. No. 1. Pp. 100-107.
  • Nemova D.V. Renovation of the attic floor as the engineering and technical measures to prevent the formation of ice dams on roofs. Construction of unique buildings and structures. 2012. No. 3. Pp. 87-90.
  • Samuelson, H., Claussnitzer, S., Goyal, A., Chen, Y., Romo-Castillo, A. Parametric energy simulation in early design: High-rise residential buildings in urban contexts. Applied Building and Environment. 2016. Vols. 101. Pp. 19-31.
  • Sedlakova, A., Tazky, L., Vilcekova, S., Burdova, E.K. Use of traditional and non-traditional materials for thermal insulation of walls. Applied Advances and Trends in Engineering Sciences and Technologies -Proceedings of the International Conference on Engineering Sciences and Technologies. ESaT 2015. Pp. 387-392.
  • Mokhtar, A.A., Saari, N., Ismail, M.C. Assessment of insulated piping system inspection using logistic regression. Applied Lecture Notes in Mechanical Engineering. 2015. No. 19. Pp. 265-277.
  • Vasin A.P. Thermal imaging inspection of buildings and analysis of the causes of ice dams. Bulletin of Civil Engineers. 2011. No. 2. Pp. 92-98.
  • Puzikov A.N., Biksaleev R.V. Ventilation system pitched roof. patent RU 2250970 25.11.2002
  • Ivanov A.N., Trembickij M.A. Foam given average density for thermal insulation of attic floors. Magazine of Civil Engineering. 2011. No. 8. Pp. 19-24.
  • Jeong, Y.-S., Jung, H.-K. Thermal Performance Analysis of Reinforced Concrete Floor Structure with Radiant Floor Heating System in Apartment. Housing Applied Advances in Materials Science and Engineering. 2015. 367632
  • Cox, L., Van Dijk, S. Foam concrete for roof slopes and floor leveling. Applied Source of the DocumentConcrete (London). 2003. No. 37(2). Pp. 37-39.
  • Kobayashi, T., Chikamoto, T., Umemiya, N., Osada, K. Estimation of natural vetnilation flow rate for a pitched-roof detached ho use provided with monitor roof. Applied Journal of Environmental Engineering. 2016. No. 81(719). Pp. 83-91.
  • Piotrowski, J.Z., Stroy, A., Olenets, M. Mathematical model of the thermal-air regime of a ventilated attic. Applied Journal of Civil Engineering and Management. 2015. No. 21(6). Pp.710-719.
  • Kornienko S.V., Vatin N.I., Petrichenko M.R., Gorshkov A.S. Evaluation humidity conditions multilayer wall structure in the annual cycle. Construction of unique buildings and structures. 2015. No. 6. Pp 19-33.
  • Petrichenko M., Vatin N., Nemova D., Kharkov N., Korsun A. Numerical modeling of thermogravitational convection in air gap of system of rear ventilated facades. Applied Mechanics and Materials. 2014. T. 672-674. Pp 1903-1908.
  • Petrichenko M., Vatin N., Nemova D., Olshevskiy V. The results of experimental determination of air output and velocity of flow in double skin facades. Applied Mechanics and Materials. 2015. T. 725-726. Pp 93-99.
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