Full-scale site evaluation of ventilation expressway embankments underlain by warm permafrost along the Gonghe−Yushu Expressway

Ventilation embankments, including those with forced ventilation, natural ventilation, and combination of these, were adopted for the construction of the Gonghe−Yushu Expressway in warm permafrost areas. To evaluate the actual thermal performance of ventilation embankment in the Qinghai−Tibet Platea...

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Veröffentlicht in:	Frontiers of Structural and Civil Engineering 2023-07, Vol.17 (7), p.1047-1059
Hauptverfasser:	WANG, Shuangjie, ZHANG, Qi, DONG, Yuanhong, YUAN, Kun, HU, Binhua, ZHAO, Huilong, ZHAO, Nanlu
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Sprache:	eng
Schlagworte:	Cities Civil Engineering Cooling effects Countries Ducts Embankments Engineering expressway Highway construction Highways Permafrost Regions Research Article Scale effect temperature field Temperature gradients Ventilation ventilation embankments warm permafrost
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container_title	Frontiers of Structural and Civil Engineering
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creator	WANG, Shuangjie ZHANG, Qi DONG, Yuanhong YUAN, Kun HU, Binhua ZHAO, Huilong ZHAO, Nanlu
description	Ventilation embankments, including those with forced ventilation, natural ventilation, and combination of these, were adopted for the construction of the Gonghe−Yushu Expressway in warm permafrost areas. To evaluate the actual thermal performance of ventilation embankment in the Qinghai−Tibet Plateau, four types of ventilation embankments were selected as objects, and their long-term thermal characteristics were analyzed based on monitoring data. It was found that: 1) under the strong scale effect of a wide embankment, the crushed-rock embankment (CRE) was warming up and the permafrost table was declining year by year. Meanwhile, the combined ventilated slab and CRE and ventilated ducts embankment can effectively decrease the ground temperature and raise permafrost table in the year with a colder winter; 2) transverse temperature difference caused by the shady-sunny slope effect existed in all the four embankments. However, it was weakened by the combined ventilated slab and CRE and the ventilated ducts embankment due to their stronger cooling effect; and 3) the pre-existing embankment had a remarkable thermal disturbance to the adjacent newly-built embankment, so a reasonable embankment spacing should be considered in practical engineering. These findings would provide a reference for construction of expressway embankments in permafrost regions.
doi_str_mv	10.1007/s11709-023-0034-6
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Struct. Civ. Eng</addtitle><description>Ventilation embankments, including those with forced ventilation, natural ventilation, and combination of these, were adopted for the construction of the Gonghe−Yushu Expressway in warm permafrost areas. To evaluate the actual thermal performance of ventilation embankment in the Qinghai−Tibet Plateau, four types of ventilation embankments were selected as objects, and their long-term thermal characteristics were analyzed based on monitoring data. It was found that: 1) under the strong scale effect of a wide embankment, the crushed-rock embankment (CRE) was warming up and the permafrost table was declining year by year. Meanwhile, the combined ventilated slab and CRE and ventilated ducts embankment can effectively decrease the ground temperature and raise permafrost table in the year with a colder winter; 2) transverse temperature difference caused by the shady-sunny slope effect existed in all the four embankments. However, it was weakened by the combined ventilated slab and CRE and the ventilated ducts embankment due to their stronger cooling effect; and 3) the pre-existing embankment had a remarkable thermal disturbance to the adjacent newly-built embankment, so a reasonable embankment spacing should be considered in practical engineering. 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Struct. Civ. Eng</stitle><date>2023-07-01</date><risdate>2023</risdate><volume>17</volume><issue>7</issue><spage>1047</spage><epage>1059</epage><pages>1047-1059</pages><issn>2095-2430</issn><eissn>2095-2449</eissn><abstract>Ventilation embankments, including those with forced ventilation, natural ventilation, and combination of these, were adopted for the construction of the Gonghe−Yushu Expressway in warm permafrost areas. To evaluate the actual thermal performance of ventilation embankment in the Qinghai−Tibet Plateau, four types of ventilation embankments were selected as objects, and their long-term thermal characteristics were analyzed based on monitoring data. It was found that: 1) under the strong scale effect of a wide embankment, the crushed-rock embankment (CRE) was warming up and the permafrost table was declining year by year. Meanwhile, the combined ventilated slab and CRE and ventilated ducts embankment can effectively decrease the ground temperature and raise permafrost table in the year with a colder winter; 2) transverse temperature difference caused by the shady-sunny slope effect existed in all the four embankments. However, it was weakened by the combined ventilated slab and CRE and the ventilated ducts embankment due to their stronger cooling effect; and 3) the pre-existing embankment had a remarkable thermal disturbance to the adjacent newly-built embankment, so a reasonable embankment spacing should be considered in practical engineering. These findings would provide a reference for construction of expressway embankments in permafrost regions.</abstract><cop>Beijing</cop><pub>Higher Education Press</pub><doi>10.1007/s11709-023-0034-6</doi><tpages>13</tpages></addata></record>
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subjects	Cities Civil Engineering Cooling effects Countries Ducts Embankments Engineering expressway Highway construction Highways Permafrost Regions Research Article Scale effect temperature field Temperature gradients Ventilation ventilation embankments warm permafrost
title	Full-scale site evaluation of ventilation expressway embankments underlain by warm permafrost along the Gonghe−Yushu Expressway
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