RELIABILITY OF STRUCTURES DURING THE CONSTRUCTION DEWATERING AS A BIM TASK

E. Karlova, V. I. Yamov

Аннотация


Determination of the dynamics of the groundwater level is one of the most important tasks, without the solution of which it is impossible to reliably estimate the reliability and durability of the projected building. In this article, the concept of applying information modeling technologies for obtaining a reliable "building-ground" system is proposed, which allows modeling the position of the groundwater level.

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Литература


Razumov G. A., Hasin M. F. Sinking cities. М.: Strojizdat, 1991.

Sologaev V. I. Modern problems of engineering geology and hydrogeology of cities and urban agglomerations. 1987. 376 p.

Sologaev V. I. Nature and economy of the Omsk region, (1989) 183-184

Orehov V. V., Hohotva S. N., Alekseev G.V. Mathematical modeling of changes in the hydrogeological regime of the territory as a result of the construction of an underground complex // Vestnik MGSU. 2016. №4. P. 52-61.

Simagin V. G., Konovalov P. A. Soil bases and foundations of buildings after a break in construction. M.: Publishing house of Association of Construction Universities. 2004

Entov V. M. A theory of flow through porous media // International Soros Science Education Program. 1998. № 2. P. 122-128.

Vlasov A. N., Volkov-Bogorodskij D. B., Znamenskij V. V., Ustinov D. V. Numerical simulation of the construction of buildings erected in deep pits, taking into account the construction of dewatering in urban areas // Vestnik PNRPU. 2014. №2. P. 170-179.

Sologaev V. I. Computer simulation of three-dimensional unsteady filtration // Proceedings of SibADI. 1998. №2.1. P. 236-242.

Harbaugh A.W., Banta E.R., Hill M.C., McDonald M.G. MODFLOW-2000 the U.S. Geological Survey modular ground-water model -User guide to modularization concepts and the groundwater flow process // U.S. Geological Survey Open-File Report 00-92.2000. 121 p. http://pubs.usgs.gov/of/2000/0092/report.pdf.

W. Guo , C.D. Langevin, U.S. Geological Survey Techniques of Water-Resources Investigations, 6, A7, 77 (2002) http://fl.water.usgs.gov/PDF_files/twri_6_A7_guo_langevin.pdf.

H.-J.G. Diersch FEFLOW finite element subsurface flow and transport simulation system -User’s Manual (Berlin: WASY Ltd, 2004).

C.J. Hemker, R.G. de Boer, MicroFEM for windows: finite-element program for multiple-aquifer steady-state and transient ground-water flow modeling (2000) http://www.microfem.com

Code of practice “Building information modelling. Modelling guidelines and requirements for various project life cycle stages” СП 333.1325800.2017. URL: http://www.minstroyrf.ru/docs/16405/

Galieva A.B., Alekhin V.N., Antipin A.A., Gorodilov S.N. Defects search during the inspection of civil and industrial buildings and structures on the basis of laser scanning technology and information modeling approach (BIM) // Building Defects. 2017 URL: https://doi.org/10.1051/matecconf/201814601007


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