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Determining snow capacity of snow protection facilities on roads in the mountainous area

Abstract

The article deals with the snow capacity of snow protection facilities. The purpose of the given work is to determine the snow capacity of snow protection facilities on roads in the mountainous area. To carry out theoretical studies there were applied analytical methods. The article presents a general form of formulas for determining the snow-retaining capacity and the snow capacity of snow protection facilities through well-known geometrical parameters and there were offered protective means against snowdrift.


Article in English.


Sniego apsaugos įrenginių naudojimas kalnuotose kelių vietovėse


Santrauka


Straipsnyje aptarimas sniego apsaugos įrenginių naudojimas kalnuotų vietovių keliuose. Darbo tikslas – sniego apsaugos įrenginių efektyvumo skaičiavimai ir jų pritaikymas kalnuotuose kelio ruožuose. Atliekant teorinius tyrimus buvo taikyti analizės metodai. Straipsnyje pateikiamos pagrindinės sniego apsaugos įrenginių ir sniego sulaikymo pajėgumo kalnuotuose kelių ruožuose skaičiavimo formulės, išreikštos gerai žinomais geometriniais parametrais. Buvo pasiūlyta apsauga nuo sniego pusnių.


Reikšminiai žodžiai: sniegas, sniego sulaikymo pajėgumas, sniego apsaugos įrenginiai, sniego užklotas, kelias, kalnuotos vietovės, pusnis.

Keyword : snow, snow-retaining capacity, snow protection facility, snow sediment, road, mountainous area

How to Cite
Тymchenko О., Ugnenko, E., Viselga, G., & Gargasas, J. (2019). Determining snow capacity of snow protection facilities on roads in the mountainous area. Mokslas – Lietuvos Ateitis / Science – Future of Lithuania, 11. https://doi.org/10.3846/mla.2019.7069
Published in Issue
Feb 1, 2019
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This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Bileush, A. I., Nishhuk, V. S., & Shtekel, A. S. (2000). Engineering defence and mastering of territories. Reference book. Kiev: Osnova. (in Ukrainian).

Byalobzheskij, G. V., Dyunin, A. K., & Plaksa, L. N. (1983). Zimniejie sodierzanijie avtomobilnych dorog [Winter maintenance of highways]. Моskva: Transport. (in Russian).

Goncharenko, F. P., Prusenko E. D., & Skorchenko V. F. (1999). Operating maintenance and repair of highways at difficult weather and ecological terms. Kiev (in Ukrainian).

Gullickson, D. (2018). Snow: blowing and drifting snow control. Minnesota: Minnesota Department of Transportation. Retrieved from http://dotapp7.dot.state.mn.us/edms/download?docId=608954

Heavey, J. P., Timothy, Dr., & Volk, A. (2014). Living snow fences show potential for large storage capacity and reduced drift length shortly after planting. Agroforestry Systems, 88(5), 803-814. NY: Springer. https://doi.org/10.1007/s10457-014-9726-1

Kungurcev, А. А. (1961). Projiektirovanijie sniegozascitnych mieroрrijatij na dorogach [Designing of snow-screen measures on roads]. Моskva, Transport. 108 p. (in Russian).

Living Snow Fences. (2018). Control blowing and drifting snow. Minnesota: Minnesota Department of Transportation. Retrieved from https://www.dot.state.mn.us/environment/livingsnowfence/antidrifting.html

МР Р В.2.3-218-02071168-776:2010. (2010). Methodical recommendations in relation to the methods of protecting from the natural calamities of highways in the mountaious area. MR R В.2.3-218-02071168-776:2010. (in Ukrainian).

Tabler, R. D. (2003). Controlling blowing and drifting snow with snow fences and road design (Final report). In National Cooperative Highway Research Program Transportation Research Board. Tabler and Associates. Niwot, Colorado: the National Academie.

US Highway 212 Rural Freight Access. (2018). Program of Projects. Norwood Young America to Cologne Segment. Carver County, Minnesota.

USDA United State Department of Agriculture. (2011). Living snow fence: an agroforestry practice. Lincoln: USDA National Agroforestry Center.