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不同土壤冻融特征曲线的试验研究 被引量:14

Experimental Study of the Freezing and Thawing Characteristic Curves of Different Soils
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摘要 土壤冻融特征曲线是反映冻土强度、冻土的热性质和土壤冻融过程中的水分和盐分迁移规律的重要参数.为了研究不同植物养分对不同土壤冻融过程的影响,采用NMR法对加入5种不同溶质的4种土壤的冻融特征曲线进行了测定与分析.结果表明:混合Ⅱ5%溶液均对这4种土壤的冻融特征曲线影响最明显,Ca(NO3)25%溶液次之,再次为加入K2S04和混合Ⅰ5%溶液的,P2O55%溶液最小.这主要是由于在负温下不同溶质的溶解度和土壤对不同溶质的固持作用等不同所致.在加入相同溶液的情况下,康平下层土壤的冻融特征曲线明显低于其它3种土壤,而这3种土壤之间未冻水含量高低次序随所加入的溶质不同而不同.各试样的冻融特征曲线均出现了滞后现象. The freezing and thawing characteristic curves of soil are the most important ones, which reflect the strength, thermal properties and water and solute transport regularities. In order to study the effect of different nutrients during soil freezing and thawing, four kinds of soil mixed with five kinds of different solutions were measured by nuclear magnetic resonance. It was found that the influence of the solution of mixⅡ 5% on the freezing and thawing curves is the maximum, the next is Ca (NO3) 2 of 5 %, the third is K2SO4 of 5 % and mix Ⅰ of 5%, and P2O5 of 5% is the minimum. This is mainly caused by different solubility of different solutes, and the different fixing abilities of soil for different solutes etc... When soil was mixed with the same solution, freezing and thawing characteristic curves of the next layer of soil from Kangping are lower than that of the other soils obviously. The magnitude of unfrozen water content of those three soils changes with solutes. This is mainly caused by the differences in the texture and physical-chemical properties between different soils. Hysteresis exists in the freezing and thawing characteristic curves of each sample.
作者 王璐璐 陈晓飞 马巍 邓友生 顾同欣
机构地区 沈阳农业大学 中国科学院寒区旱区环境与工程研究所冻土工程国家重点实验室
出处 《冰川冻土》 CSCD 北大核心 2007年第6期1004-1011,共8页 Journal of Glaciology and Geocryology
基金 中国科学院冻土工程国家重点试验室开放基金项目(SKLFSE200303) 国家自然科学基金项目(40272102)资助
关键词 冻融特征曲线 核磁共振 未冻水 滞后现象 the freezing-thawing characteristic curves of soil NMR unfrozen water hysteresis
分类号 P642.14 [天文地球—工程地质学]
  • 相关文献

参考文献5

  • 1徐敬祖,邓友生.土冻结过程中未冻水含量和冻融温度及土水势的变化[c]//第四届全国冻土学术会议论文集.北京:科学出版社,1990:64-76.
  • 2徐敬祖,王家澄,张立新.冻土物理学[M].北京:科学出版社,2001:1-351.
  • 3张立新,徐学祖,陶兆祥.含硫酸钠冻土的未冻水含量[A].第五界全国冰川冻土学大会论文集(上册)[c].兰州:甘肃文化出版社,1996.693-696.
  • 4陈晓飞,都洋,马巍,张玉龙,李洪升,徐斆祖.养分含量对土壤冻融特征曲线的影响[J].冰川冻土,2004,26(4):440-448. 被引量:13
  • 5都洋,陈晓飞,张玉龙,马巍.用NMR法验证在冻土中TDR标定曲线的可靠性[J].冰川冻土,2004,26(6):788-794. 被引量:13

二级参考文献18

  • 1徐敩祖 王家澄 张立新.冻土物理学[M].北京:科学出版社,2001.87-89.
  • 2Xu Xiaozu, Deng Yousheng. Changes of unfrozen water content, freezing or thawing temperature and water potential in freezing and thawing processes [A]. Proceedings of Fourth National Conference on Glaciology and Geocryology (Selection) (Geocryology) [C].
  • 3Watanabe K, Mizoguchi M.Amount of unfrozen water in frozen porous media saturated with solution [J].Cold Regions Science and Technology, 2002, 34: 103-110.
  • 4Tice A R, Anderson D M, Sterrett K F.Unfrozen water contents of submarine permafrost determined by nuclear magnetic resonance [J].Engineering Geology, 1981, 18: 135-146.
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  • 6Black P B, Tice A R.Comparison of soil freezing curve and soil water curve data for Windsor sandy loam [J].Water Resources Research, 1989, 25(10): 2 205-2 210.
  • 7Patterson D E, Smith M W. The measurement of unfrozen water content by time domain reflectometry: results from laboratory tests [J]. Can. Geotech. J., 1981, 18: 131-144.
  • 8Eglbert J A Spaans, John M Baker. Examining the use of time domain reflectometry for measuring liquid water content in frozen soil [J]. Water Resources Research, 1995, 31(12): 2917-2925.
  • 9Xu Xiaozu, Deng Yousheng. Changes of unfrozen water content, freezing or thawing temperature and water potential in freezing and thawing processes [A]. Proceedings of Fourth National Conference on Glaciology and Geocryology (Selection) (Geocryology) [C].
  • 10Watanabe K, Mizoguchi M. Amount of unfrozen water in frozen porous media saturated with solution [J].Cold Regions Science and Technology, 2002, 34: 103-110.

共引文献27

同被引文献218

引证文献14

二级引证文献133

冰川冻土
2007年 第6期

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