Experimental Study on Latent Heat Effect of Moist Soil at High Temperature

徐云山; 曾召田; 孙德安; 吕海波

doi:10.13409/j.cnki.jdpme.2017.04.013

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Experimental Study on Latent Heat Effect of Moist Soil at High Temperature

更新时间：2025-12-11

- Experimental Study on Latent Heat Effect of Moist Soil at High Temperature
- Vol. 37, Issue 4, Pages: 593-597(2017)
- 作者机构：
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- DOI：10.13409/j.cnki.jdpme.2017.04.013
  CLC： 152
- Published：2017
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[1]徐云山,曾召田,孙德安,吕海波.高温下含湿土壤水汽潜热效应的试验研究[J].防灾减灾工程学报,2017,37(04):593-597.

徐云山, 曾召田, 孙德安, et al. Experimental Study on Latent Heat Effect of Moist Soil at High Temperature[J]. 2017, 37(4): 593-597.
[1]徐云山,曾召田,孙德安,吕海波.高温下含湿土壤水汽潜热效应的试验研究[J].防灾减灾工程学报,2017,37(04):593-597. DOI： 10.13409/j.cnki.jdpme.2017.04.013.

徐云山, 曾召田, 孙德安, et al. Experimental Study on Latent Heat Effect of Moist Soil at High Temperature[J]. 2017, 37(4): 593-597. DOI： 10.13409/j.cnki.jdpme.2017.04.013.

摘要

目前国内外关于高温下土壤水汽潜热效应的研究极其缺乏

制约了对高温下土壤热特性的充分认识。通过高温下3种不同质地土壤的热导率试验

探讨并分析了土壤水汽潜热效应及水蒸汽运移增强因子η取值的变化规律。结果表明

温度梯度作用下

土壤内部会产生水汽潜热效应

且温度越高

现象越明显;高温引起的潜热效应贡献值有明显的峰值

并存在滞后现象;水蒸汽运移增强因子η较依赖于土壤质地和饱和度

但其取值规律仍然不明确。

Abstract

Currently

there is an extreme lack of experimental study on the latent heat effect of soil water vapor at high temperature around world

which restricts the full acknowledging of soil thermal characteristics at high temperature. Through the thermal conductivity test of three different soils at high temperature

the change of soil water vapor latent heat effect and water vapor transport enhancement factor η was discussed and analyzed. The results of test indicates that the latent heat effect of water vapor is generated inside the soil under the effect of temperature gradient

and the higher the temperature

the more obvious the phenomenon. The latent heat effect contribution caused by high temperature has obvious peak value and there is lag phenomenon.The water vaporization enhancement factor η is more dependent on soil texture and saturation

but the law of value is still unclear.

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references

土壤热导率的温度效应试验和预测研究 [J]. 刘晨晖,周东,吴恒. 岩土工程学报 . 2011(12)

不同温度下的土壤热导率模拟 [J]. 陆森,任图生. 农业工程学报 . 2009(07)

核废料处置概念库近场热-水-应力耦合模型及数值分析 [J]. 张玉军. 岩土力学 . 2007(01)

Remediation of hydrocarbon polluted soils using 2.45 GHz frequency-heating: Influence of operating power and soil texture on soil temperature profiles and contaminant removal kinetics [J] . P.P. Falciglia,F.G.A. Vagliasindi. Journal of Geochemical Exploration . 2015

Modelling approaches to predicting thermal conductivity of soils at high temperatures [J] . V. R.Tarnawski,F.Gori,B.Wagner,G. D.Buchan. Int. J. Energy Res. . 2000 (5)

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