1. General Model Information

Name: simulanous heat and water&salt transport in freezing soil

Acronym: SHAWS


Main medium: terrestrial
Main subject: hydrology, soil science
Organization level: ecosystem
Type of model: partial differential equations (finite differences)
Main application:
Keywords: frozen soil, water transport, heat transport, salt transport

Contact:

Masaru Mizoguchi
Faculty of Bioresources
Mie University
Mie, Japan
Phone: (81)592-31-9574
Fax: (81)592-31-9571
email:
WWW: http://www.bio.mie-u.ac.jp/doboku/user1/mizo/

Author(s):

Masaru Mizoguchi

Abstract:

WWW-Interface for the simulation of simultanous heat, water and salt transport in freezing soil. Presented at the Unsaturated Hydraulic Properties Workshop at Riverside, October 22-24, 1997. For information on the model contact the author mizo@bio.mie-u.ac.jp

II. Technical Information

II.1 Executables:

Operating System(s): Platform independent
Run SHAWS-model via the WWW

II.2 Source-code:

Programming Language(s):

II.3 Manuals:



II.4 Data:



III. Mathematical Information


III.1 Mathematics


III.2 Quantities


III.2.1 Input

III.2.2 Output


IV. References

  1. M. Mizoguchi, J. Masuda and Y. Hattori: Experimental study on water transport in soils under temperature gradients, Trans. of 14 th International Congress of Soil Science, Vol.1, 268-269, Kyoto, Japan (1990)
  2. M.Mizoguchi: Salt and water redistribution in freezing unsaturated soil, Agronomy Abstracts, 226, Denver, Colrado, USA (1991)
  3. M.Mizoguchi: Analysis of salt and water movement in freezing unsaturated soil, Agronomy Abstracts, 226, Denver, Colrado, USA (1991)
  4. M.Mizoguchi: Spectroscopic property of frozen clay-water system, Agronomy Abstracts, 223, Minneapolis, Minnesota, USA (1992)
  5. M.Mizoguchi: Measurement of unfrozen water content in frozen clay-water systems, Agronomy Abstracts, 223, Cincinnati, Ohaio, USA (1993)
  6. M. Mizoguchi and H. Suzuki: Physical characteristics of porous bio-module baked from industrial waste soil, Trans. of the 1994 Mie International Forum and Symposium, mie academic press, 453-457, Tsu, Mie, Japan (1994)
  7. M. Mizoguchi and K. Watanabe: A study on behavior of unfrozen interlayer water in clay by MD method, Agronomy Abstracts, 248, Seattle, Washington, USA (1994)
  8. M. Mizoguchi and T. Shibata: Effect of Ammonium Sulfate Concentration on Hydraulic Conductivity of Sedimented Na-Clay, Agronomy Abstracts, 207, St. Louis, Missouri, USA (1995)
  9. M. Mizoguchi T. Ito and K. Matsukawa: Movement of Water and Ions in Frozen Clay by Electro-Osmosis, Agronomy Abstracts, Indianapolis, Indiana, USA (1996)


V. Further information in the World-Wide-Web

SHAW by Flerchinger et al

VI. Additional remarks


Last review of this document by: T. Gabele: DEC 10 1997
Status of the document:
last modified by Tobias Gabele Wed Aug 21 21:44:49 CEST 2002

Go back to Register of Ecological Models (R E M)