Assessment of climatic risks in relation to the transport infrastructure of the northern regions of Russia

Theme. Infrastructure of transport systems of the permafrost zone of Russia, operated in conditions of global warming. Objectives. To quantify the risks of disrupting the functionality of transport infrastructure facilities, taking into account the soil and natural and climatic features in the terri...

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Published in:Intelligence. Innovations. Investment
Main Authors: A. N. Yakubovich, I. A. Yakubovich
Format: Article in Journal/Newspaper
Language:English
Russian
Published: Orenburg State University 2021
Subjects:
transport system
infrastructure facility
permafrost
climate change
modeling
Economics as a science
HB71-74
Online Access:https://doi.org/10.25198/2077-7175-2021-2-96
https://doaj.org/article/eb7735fd73d547eba11b0d60ccba50ca
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spelling ftdoajarticles:oai:doaj.org/article:eb7735fd73d547eba11b0d60ccba50ca 2023-05-15T17:56:39+02:00 Assessment of climatic risks in relation to the transport infrastructure of the northern regions of Russia A. N. Yakubovich I. A. Yakubovich 2021-05-01T00:00:00Z https://doi.org/10.25198/2077-7175-2021-2-96 https://doaj.org/article/eb7735fd73d547eba11b0d60ccba50ca EN RU eng rus Orenburg State University http://intellekt-izdanie.osu.ru/en/archive_new/2-2021/2-2021-pp.-96-104.html https://doaj.org/toc/2077-7175 https://doi.org/10.25198/2077-7175-2021-2-96 2077-7175 https://doaj.org/article/eb7735fd73d547eba11b0d60ccba50ca Интеллект. Инновации. Инвестиции, Vol 2, Pp 96-104 (2021) transport system infrastructure facility permafrost climate change modeling Economics as a science HB71-74 article 2021 ftdoajarticles https://doi.org/10.25198/2077-7175-2021-2-96 2023-04-09T00:34:32Z Theme. Infrastructure of transport systems of the permafrost zone of Russia, operated in conditions of global warming. Objectives. To quantify the risks of disrupting the functionality of transport infrastructure facilities, taking into account the soil and natural and climatic features in the territory of their operation. Methodology. Modeling the temperature dynamics of the soil massif, including the upper seasonal thawed layer and the lower layer of permafrost soil, identifying changes in its strength and deformation properties under the accepted scenario of climatic changes, assessing the impact of changes in the soil massif on the operational state and safety of various types of infrastructure facilities of transport systems (taking into account the appearance of additional precipitation of thawing soil and a decrease in its bearing capacity), determination of the values of predicted risks on a scale that is uniform for all types of objects. Results. New data have been obtained on the negative consequences of climate change for the infrastructure of transport systems in the permafrost zone of Russia. Under fairly conservative assumptions about a warming of 2 degrees Celsius, the risk of functional impairment for the road profile is predicted to be from 86 to 294 points on a 1000-point scale, and climatic risks increase with an increase in the temperature of permafrost. The magnitude of the expected risks in relation to the aerodrome pavement is approximately at the same level; these two types of objects are distinguished by the greatest resistance to climatic changes. Pile foundations are subject to risk ranging from 143 to 529 points. The most vulnerable to warming are strip and columnar foundations, for which the lowest risk value obtained during modeling is 389 points, and under unfavorable conditions (high-temperature permafrost in combination with low soil moisture), the risk increases to the maximum possible value of 1000 points. Implications. The risks of disrupting the functionality of ... Article in Journal/Newspaper permafrost Directory of Open Access Journals: DOAJ Articles Intelligence. Innovations. Investment 2 96 104
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
Russian
topic transport system
infrastructure facility
permafrost
climate change
modeling
Economics as a science
HB71-74
spellingShingle transport system
infrastructure facility
permafrost
climate change
modeling
Economics as a science
HB71-74
A. N. Yakubovich
I. A. Yakubovich
Assessment of climatic risks in relation to the transport infrastructure of the northern regions of Russia
topic_facet transport system
infrastructure facility
permafrost
climate change
modeling
Economics as a science
HB71-74
description Theme. Infrastructure of transport systems of the permafrost zone of Russia, operated in conditions of global warming. Objectives. To quantify the risks of disrupting the functionality of transport infrastructure facilities, taking into account the soil and natural and climatic features in the territory of their operation. Methodology. Modeling the temperature dynamics of the soil massif, including the upper seasonal thawed layer and the lower layer of permafrost soil, identifying changes in its strength and deformation properties under the accepted scenario of climatic changes, assessing the impact of changes in the soil massif on the operational state and safety of various types of infrastructure facilities of transport systems (taking into account the appearance of additional precipitation of thawing soil and a decrease in its bearing capacity), determination of the values of predicted risks on a scale that is uniform for all types of objects. Results. New data have been obtained on the negative consequences of climate change for the infrastructure of transport systems in the permafrost zone of Russia. Under fairly conservative assumptions about a warming of 2 degrees Celsius, the risk of functional impairment for the road profile is predicted to be from 86 to 294 points on a 1000-point scale, and climatic risks increase with an increase in the temperature of permafrost. The magnitude of the expected risks in relation to the aerodrome pavement is approximately at the same level; these two types of objects are distinguished by the greatest resistance to climatic changes. Pile foundations are subject to risk ranging from 143 to 529 points. The most vulnerable to warming are strip and columnar foundations, for which the lowest risk value obtained during modeling is 389 points, and under unfavorable conditions (high-temperature permafrost in combination with low soil moisture), the risk increases to the maximum possible value of 1000 points. Implications. The risks of disrupting the functionality of ...
format Article in Journal/Newspaper
author A. N. Yakubovich
I. A. Yakubovich
author_facet A. N. Yakubovich
I. A. Yakubovich
author_sort A. N. Yakubovich
title Assessment of climatic risks in relation to the transport infrastructure of the northern regions of Russia
title_short Assessment of climatic risks in relation to the transport infrastructure of the northern regions of Russia
title_full Assessment of climatic risks in relation to the transport infrastructure of the northern regions of Russia
title_fullStr Assessment of climatic risks in relation to the transport infrastructure of the northern regions of Russia
title_full_unstemmed Assessment of climatic risks in relation to the transport infrastructure of the northern regions of Russia
title_sort assessment of climatic risks in relation to the transport infrastructure of the northern regions of russia
publisher Orenburg State University
publishDate 2021
url https://doi.org/10.25198/2077-7175-2021-2-96
https://doaj.org/article/eb7735fd73d547eba11b0d60ccba50ca
genre permafrost
genre_facet permafrost
op_source Интеллект. Инновации. Инвестиции, Vol 2, Pp 96-104 (2021)
op_relation http://intellekt-izdanie.osu.ru/en/archive_new/2-2021/2-2021-pp.-96-104.html
https://doaj.org/toc/2077-7175
https://doi.org/10.25198/2077-7175-2021-2-96
2077-7175
https://doaj.org/article/eb7735fd73d547eba11b0d60ccba50ca
op_doi https://doi.org/10.25198/2077-7175-2021-2-96
container_title Intelligence. Innovations. Investment
container_issue 2
container_start_page 96
op_container_end_page 104
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