GSS2022 - June 16 - GEOSPACE 1D and Heat transport in GEOframe

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This day of the GEOframe Summer School is dedicated to presenting the GEOSPACE model, the Soil Plant Atmosphere Continuum Estimator model of GEOframe, both the theory and the practical session. It is also dedicated to the derivation of Advection-Dispersion/Diffusion equation and its application to the heat transport in soils. 

You can find all the material at this OSF page. 

GEOSPACE 1D

• Coupling Infiltration and Evapotranspiration with GEOSPACE (Vimeo2022) 
• How to estimate infiltration, evaporation and transpiration with GEOSPACE-ProsperoPM (Vimeo2022)
• How to estimate infiltration and evapotranspiration with GEOSPACE-PriestleyTaylor (Vimeo2022)

Photo courtesy of Luca Chistè (http://http://www.lucachiste.it/)

Heat transport in soils

• heat advection and diffusion equation (Vimeo2022)
• numerical solution (Vimeo2022)
• a glimpse of frozen soils (Vimeo2022)
• simulate heat transport in OMS (Vimeo2022)

References:

Dall'Amico, M., Endrizzi, S., Gruber, S., & Rigon, R. J. T. C. (2011). A robust and energy-conserving model of freezing variably-saturated soil. The Cryosphere, 5(2), 469-484.

Tubini, N., Gruber, S., & Rigon, R. (2021). A method for solving heat transfer with phase change in ice or soil that allows for large time steps while guaranteeing energy conservation. The Cryosphere, 15(6), 2541-2568.

Tubini, N. and Rigon, R., Implementing the Water, HEat and Transport model in GEOframe WHETGEO-1D v.1.0: algorithms, informatics, design patterns, open science features, and 1D deployment, https://doi.org/10.5194/gmd-2021-163