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Study on the influence of airflow on the temperature of the surrounding rock in a cold region tunnel and its application to insulation layer design

Tan, Xianjun ; Chen, Weizhong ; Yang, Diansen ; Dai, Yonghao ; Wu, Guojun ; Yang, Jianping ; Yu, Hongdan ; Tian, Hongming ; Zhao, Wusheng

Applied thermal engineering, 2014-06, Vol.67 (1-2), p.320-334 [Periódico revisado por pares]

Kidlington: Elsevier Ltd

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  • Título:
    Study on the influence of airflow on the temperature of the surrounding rock in a cold region tunnel and its application to insulation layer design
  • Autor: Tan, Xianjun ; Chen, Weizhong ; Yang, Diansen ; Dai, Yonghao ; Wu, Guojun ; Yang, Jianping ; Yu, Hongdan ; Tian, Hongming ; Zhao, Wusheng
  • Assuntos: Air-rock heat transfer ; Applied sciences ; Cold region ; Energy ; Energy. Thermal use of fuels ; Exact sciences and technology ; Heat transfer ; Inlets ; Insulation layer design ; Mathematical analysis ; Mathematical models ; Outlets ; Rock ; Rock (material) ; Temperature distribution ; Theoretical studies. Data and constants. Metering ; Tunnel ; Tunnels (transportation)
  • É parte de: Applied thermal engineering, 2014-06, Vol.67 (1-2), p.320-334
  • Notas: ObjectType-Article-2
    SourceType-Scholarly Journals-1
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  • Descrição: To show the influence of airflow on the temperature of the surrounding rock in a cold region tunnel, a temperature field model was developed. The model includes temperature control equations of the surrounding rock, air temperature field control equations in the tunnel and wind flow control equations of the turbulence field. On this basis, a numerical analysis method is used to discuss the temperature field change law of the surrounding rock and the thermal insulation measures of the Galongla tunnel in Tibet under the condition of ventilation. The study results show that (1) the air temperature and air speed are two important factors that significantly affect the temperature distribution of the surrounding rock in the tunnel and (2) because of the ventilation effect, the temperature of the surrounding rock falls below 0 °C, and adverse conditions appear at the inlet and outlet sections of the tunnel during the coldest month (January). Further research shows that heat preservation material, such as a phenolic layer with a thickness of 6 cm laid on the secondary lining surface, could effectively protect the Galongla tunnel and rock from freeze and thaw damage if placed for 600 m into the inlet section and 400 m from the outlet section of the Galongla tunnel. •The influence of airflow on the temperature of surrounding rock in a cold region tunnel was studied.•A temperature field model including temperature of surrounding rock and air was deduced.•Air temperature and speed can significantly affect the temperature distribution of surrounding rock.•Insulation layer is useful to prevent tunnel from freezing–thawing damage.
  • Editor: Kidlington: Elsevier Ltd
  • Idioma: Inglês
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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