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Methods of Cooling the Foundations of Buildings Constructed According to the Principle of Maintaining the Soil in a Permafrost State (town of Mirnyi)

  • CONSTRUCTION ON PERMAFROST
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Soil Mechanics and Foundation Engineering Aims and scope

The potential for additional cooling of the frozen foundation of a building in view of global climate warming is considered. Alternative installations in the heat insulated basement and variations in the ventilation conditions of the cold basement are proposed. The calculations take into account the increase in the temperature of the air and soil in the zone of zero annual amplitudes since 1969, when the building was designed, to 2050.

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References

  1. Yu. Ya. Velly, V. I. Dokuchaev, and N. L. Fedorov, eds., Handbook on Construction on Permafrost Soils [in Russian], Stroiizdat, Leningrad (1977).

    Google Scholar 

  2. A. A. Plotnikov, Temperature conditions of the foundation soils of residential housing with cold basements beneath the buildings, Geocryological Investigations in Western Yakutia [in Russian], Novosibirsk, 102-107 (1980).

  3. Yu. B. Skachkov and L. G. Neradovskii, Prediction of change in air temperature in Yakutia to the middle of the twenty-first century, Proc. International Conference, Salekhard, 471-480 (2011).

  4. S. P. Varlamov, Yu. B. Skachkov, P. N. Skryabin, and N. I. Shender, The thermal state of the upper levels of the cryolithologic zone of Central Yakutia in light of contemporary climate changes, Proc. IX International Symposium, Mirnyi, 398-400 (2011).

  5. S. P. Varlamov, Yu. B. Skachkov, P. N. Skryabin, and N. I. Shender, The thermal state of the upper levels of the cryolithologic zone of Central Yakutia, Proc. International Conference on Geocryology, Salekhard, 47-52 (2012).

  6. A. B. Osokin, S. I. Men'shikov, and I. S. Morozov, Assuring the reliability of basements and foundations of gas recovery plants and gas transport facilities in the north of western Siberia under climate warming conditions and degradation of permafrost soils, Proc. International Conference on Geocryology, Salekhard, 385-390 (2012).

  7. L. G. Neradovskii and Yu. B. Skachkov, Prediction of air temperature in Yakutia through 2050, Proc. 9th International Symposium, Mirnyi, 389-393 (2011).

  8. V. I. Makarov, A. A. Plotnikov, and B. F. Chumaevskii, Construction of multi-story buildings on cold piles in the city of Miryni, Proc. International Conference on Geocryology, Edmonton, Canada, 1, 820-825 (1978).

  9. P. Melnikov, V. Makarov, and A. Plotnikov, The physical engineering basis of temperature regulation of ground massifs in northern construction, Eng. Geol., 18, 165-171 (1981).

    Article  Google Scholar 

  10. V. I. Makarov, Thermosiphons in Construction in the North [in Russian], Novosibirsk (1985).

  11. G. M. Dolgikh, S. N. Okunev, and S.N. Strizhkov, Construction of buildings in the cryolithologic zone with the use of innovative systems for thermal stabilization of foundation soils, Proc. Int. Conf. on Geocryology, Salekhard, 153-159 (2012).

  12. R. Gamzaev and Y. Kronik, Using soil thermal stabilization systems in construction in the permafrost, Conf. of Geocryodens of Russia, MSU, 245-252 (2016).

  13. N. I. Osokin and A. V. Sosnovskii, Thermophysical properties of a mossy cover and its influence on the thermophysical conditions of soils in the Spitsbergen archipelago, X International Conference on Geocryology, Salekhard, 3, 391-395 (2012).

  14. A. V. Getling, Evolution of spatial structures of Rayleigh-Benard convection, Usp. Fiz. Nauk, 161, No. 9, 1-77 (1991).

    Article  Google Scholar 

  15. P. Perreault and Y. Shur, Seasonal thermal insulation to mitigate climate change impacts on foundations in permafrost regions, Cold Regions Science and Technology, 132, 7-18 (2016).

    Article  Google Scholar 

  16. G. Zhang G. and W. Horne, Thermal design of shallow building foundations in permafrost regions, Cold Regions Engineering, 337-347 (2012).

  17. V. V. Passek, M. A. Baev, A. V. Nabokov, I. N. Palavoshev, A. P. Babukh, and V. F. Bay, Combination of the use of thermal supports and thermal insulation when constructing buildings on permafrost, Vestnik Tyumen. Gosudar. Arkhitek.-Stroit. Un-ta, No. 4, 43-46 (2015).

    Google Scholar 

  18. A. A. Plotnikov, Numerical solution of heat conductivity problems in frosten soils by an enthalpy method, Thermodynamic Aspects of Permafrost Mechanics [in Russian], Moscow, 86-94 (1988).

  19. Software package for the solution of nonstationary thermal physical problems by an enthalpy method based on phase transitions of bound moisture, Promysh. i Grazhd. Stroitel., No. 4, 62-67 (2016).

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Authors and Affiliations

  1. National Research Moscow State Construction University, Moscow, Russia

    A.A. Plotnikov

  2. Mel’nikov Institute of Permafrost, Siberian Division, Russian Academy of Sciences, Yakutsk, Russia

    V. I. Makarov

Authors
  1. A.A. Plotnikov
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  2. V. I. Makarov
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Translated from Osnovaniya, Fundamenty i Mekhanika Gruntov, No. 5, pp. 26-31, September-October, 2017.

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Plotnikov, A., Makarov, V.I. Methods of Cooling the Foundations of Buildings Constructed According to the Principle of Maintaining the Soil in a Permafrost State (town of Mirnyi). Soil Mech Found Eng 54, 341–348 (2017). https://doi.org/10.1007/s11204-017-9479-8

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  • DOI: https://doi.org/10.1007/s11204-017-9479-8

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