Abstract:Based on observed data of two monitoring sections in Beiluhe test site of Qing-Zang Railway, The characteristics of underlying ground thermal regime after constructing high embankment arc analyzed. Results indicated that permafrost table was raised, the underlying ground temperature increased after constructing embankment. The rising of permafrost table should be attributed to an obvious decrease in fluctuation of temperature at the depth of permafrost table due to the thermal resistance effect of high embankment. Constructing high embankment may cause considerable difference in thermal regime between shade slope and sunshine slope of embankment. The sunshine slope is the most violent heat-absorb surface, while the shade slope presents as a heat-discharge surface. As a result, the thawing extent of underlying permafrost may differ.
盛煜,马巍,温智. 青藏铁路高填方路基对下伏多年冻土热状况的影响[J]. 铁道工程学报, 2003, 20(4): 22-25.
SHENC Yu, MA Wei, WEN Zhi. EFFECT OF HIGH EMBANKMENT ON THE THERMAL REGIME OF UNDERLYING PERMAFROST IN QING-ZANG RAILWAY. 铁道工程学报, 2003, 20(4): 22-25.
[4]Sheng Yu, Zhang Jianming, Liu Yongzhi et al. Thermal Regime in the Embankment of Qinghai-Tibetan Highway in Permafrost Regime [J]. Cold Regions Science and Technology, 2002, 35: 35-44.
2003, Vol. 20 
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