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A detailed model to simulate heat and moisture transport in a frozen soil
Maria Laura Deangelis, Eric F. Wood
Civil & Environmental Engineering
High Meadows Environmental Institute
Research output
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Article
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peer-review
3
Scopus citations
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Keyphrases
Agricultural Experiment Station
25%
Air Temperature
25%
Atmospheric Forcing
25%
Atmospheric Interactions
25%
Content Profiling
25%
Fine-grained Soils
25%
Freeze-thaw
25%
Frozen Soil
100%
Ice Content
25%
Incoming Solar Radiation
25%
Interfacial Water
25%
Large Surface Area
25%
Liquid Water Content
25%
Long-term Monitoring
25%
Longwave Radiation
25%
Migration Processes
25%
Minnesota
25%
Moisture Migration
25%
Moisture Movement
25%
Moisture Storage
25%
Moisture Transport
100%
Numerical Code
25%
Phase Change
50%
Precipitation Rate
25%
Property Change
25%
Soil Heat
25%
Soil Hydraulic Properties
25%
Soil Particles
25%
Soil Thermal Properties
25%
Soil Type
25%
Soil-water System
25%
Station Model
25%
Subsurface Soil
25%
Unfrozen Water
100%
Unfrozen Water Film
25%
University of Minnesota
25%
Upper Boundary
25%
Water Flux
25%
Wind Speed
25%
Earth and Planetary Sciences
Air Temperature
33%
Atmospheric Forcing
33%
Boundary Condition
33%
Frozen Soil
100%
Heat Flux
33%
Hydraulic Property
33%
Minnesota
66%
Model Test
33%
Soil Type
33%
Soil Water
66%
Solar Radiation
33%
Surface Area
33%
Temperature Distribution
33%
Thin Films
33%
Water Flux
33%
Wind Velocity
33%
Engineering
Absolute Humidity
50%
Air Temperature
50%
Bulk Water
100%
Grained Soil
50%
Liquid Water Content
50%
Model Test
50%
Moisture Transport
100%
Soil Particle
50%
Solar Radiation
50%