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Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Właściwości obciążenia śniegiem dachów budynków
Języki publikacji
Abstrakty
In this paper the probabilistic model of the snow accumulation on the roofs with height discontinuity was worked out, the decreasing coefficient for the snow load weight was received and the ways of their application in the designing were elaborated. The probabilistic model for impulse stochastic process of snowfall sequence was developed. Data from meteorological stations in Ukraine allow determination of statistical characteristics: average annual snowfall amount and exponential distribution of values of one snowfall. The law of intensity distribution of snow melting has been determined experimentally. The territorial zoning map of Ukraine by characteristic values of the snow load on the roofs that emanate heat was developed.
W pracy opracowano probablilistyczny model akumulacji śniegu przy zmianie wysokości dachu, otrzymano współczynnik zmniejszający dla obciążenia śniegiem oraz wypracowano sposoby jego wykorzystania w projektowaniu. Rozwinięto model probablistyczny dla impulsowego procesu stochastycznego dotyczącego opadu śniegu. Dane ze stacji meteorologicznych na Ukrainie pozwoliły określić charakterystyki statystyczne: średni roczny opad śniegu i wykładniczy rozkład wielkości w pojedynczym opadzie śniegu. Prawo rozkładu intensywności topnienia śniegu zostało określone eksperymentalnie. Rozwinięto mapę stref terytorialnych Ukrainy za pomocą charakterystycznych wielkości obciążenia śniegiem dachów wydzielających ciepło.
Czasopismo
Rocznik
Tom
Strony
441--449
Opis fizyczny
Bibliogr. 18 poz., il., wz.
Twórcy
autor
- Department of Metal, Wooden and Plastic Structures, Poltava National Technical Yuri Kondratyuk University, Ukraine
autor
- Department of Engineering Management and Technology and Occupation Safety, Poltava National Technical Yuri Kondratyuk University, Ukraine
autor
- Department of Structures, Products and Materials Engineering, Poltava National Technical Yuri Kondratyuk University, Ukraine
autor
- Department of Hydraulics, Water Supply and Sewerage, Poltava National Technical Yuri Kondratyuk University, Ukraine
Bibliografia
- [1] Allen D.E., Snow load on buildings, NRC, Canada, Ottawa 1959.
- [2] AN SI/ASCE 7-05, Minimum Design Loads for Buildings and Other Structures, American Society of Civil Enginners, Reston, USA, 1996.
- [3] DBN B.2.2-2-95, Buildings and Structures. Greenhouses and Hotbeds, Ukraine, Kyiv, 1995 (in Ukrainian).
- [4] DBN B.1.2. 2-2006, Load and Loadings. Design Standards, Ukraine, Kyiv 2006 (in Ukrainian).
- [5] EN 1991–1–3, Eurocode 1. Actions on Structures – Part 1–3: General Actions, Snow Loads. CEN, Belgium, Brussels 2003.
- [6] Flaga A., Kimbar G., Matys P., Wind-tunnel tests for snow load prediction on the roof of the Municipal Stadium in Poznań, Proc. 6th International Conference on Snow Engineering, Canada, Whistler 2008.
- [7] Joh O., Sakurai S., Abe O., Wind tunnel investigation of snow accumulation on a single flat roof and a two-level flat roof using artificial snow, Proc. 5th International Conference on Snow Engineering, Davos, Switzerland, 2004,169-175.
- [8] Male D.H., Gray D.M., Handbook of snow: principles, processes, management and use, Pergamon Press, USA, 1981.
- [9] Meloysund V., Hoiseth K.V., Leira B., Lis K., Development of design snow loads on roofs in Norway, Proc. 6th International Conference on Snow Engineering, Canada, Whistler 2008.
- [10] Pashinskiy V.A., Molka I.V., Kutnyi B.A., Statistical modeling of snow load on the roofs of heated buildings, Collection of Scientific Papers “Resource-saving materials, structures and buildings” 22, Ukraine, Rivne 2011, 164-172 (in Ukrainian).
- [11] Pichugin S.F., Probabilistic description of ground snow loads for Ukraine. Snow Engineering, Recent Advanced and Developments, A.A. Balkema, Rotterdam 2000, 251-256.
- [12] Pichugin S., Dryzhyruk Y., Snow load investigation for buildings of different heights, Recent Advances in Research on Environmental Effects on Buildings and People (eds. Flaga A., Lipecki T.), PAWE, Poland, Cracow 2010, 279-286.
- [13] Pichugin S.F., Mahinko A.V., Snow and ice load on building structures, ASMI , Poltava, Ukraine 2012 (in Russian).
- [14] Pichugin S.F., Popovych N.M., Esimation method for design values of snow loads on cold roofs, Collection of Scientific Papers “Engineering Industry and Contsruction” 3 (22), Ukraine, Poltava 2012, 190-196 (in Ukrainian).
- [15] Pichugin S., Dryzhyruk Y., The features of snow load on building roofs, Books of Keynote Lectures and Abstracts of 7th International Symposium on Environmental Effects on Buildings and People (EEBP7), eds. Flaga A., Lipecki T., PAWE, Poland, Lublin-Cracow 2014, 107-108.
- [16] SNI P 2.01.07-85. Loads and loadings. Design standards, USSR, Moscow 1986 (in Russian).
- [17] Taylor D.A., Snow loads on multi-level flat roofs in Canada, National Research Council of Canada, Canada, Vancouver 1987.
- [18] Żurański J.A., Dufresne de Virel M., Suchecki A., Field investigation of snow loads on a gable roof, Proc. 5th International Conference on Snow Engineering, Switzerland, Davos 2004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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