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ACAP Albany 5

2005 local climate data

Model filename: EarthCovers > ACAP Albany 5.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,1D,Waste management,Cover design

Attachments:

ACAP Altamont 4

2005 local climate data

Model filename: EarthCovers > ACAP Altamont 4.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,1D,Waste management,Cover design

Attachments:

ACAP Apple Valley 4

local 2003 climate data

Model filename: EarthCovers > ACAP Apple Valley 4.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,1D,Waste management,Cover design

Attachments:

ACAP Boardman 1-7

2005 climate data. Add saturation and mass balance. Tweak runoff calculation. Reduce runoff factor.

Model filename: EarthCovers > ACAP Boardman 1-7.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,Mining,1D,Cover design and monitoring,Earth Covers,Waste management,Cover design

Attachments:

ACAP Boardman 2-5

year 2005 climate data

Model filename: EarthCovers > ACAP Boardman 2-5.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,1D,Waste management,Cover design,EarthCovers

Attachments:

ACAP Helena11

A simple 1D numerical model has many applications and can provide an initial understanding of a geotechnical problem. Decreased error limit and real precipitation. data.

Model filename: EarthCovers > ACAP Helena11.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,1D,Waste management,Cover design,EarthCovers

Attachments:

ACAP Marina 5

local 2005 climate data

Model filename: EarthCovers > ACAP Marina 5.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,1D,Waste management,Cover design,EarthCovers

Attachments:

ACAP Marion 6

2005 local climate data

Model filename: EarthCovers > ACAP Marion 6.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,1D,Waste management,Cover design,EarthCovers

Attachments:

ACAP Monticello 4

2005 climate data

Model filename: EarthCovers > ACAP Monticello 4.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,1D,Waste management,Cover design

Attachments:

ACAP Omaha1 - 5

Local 2005 climate data

Model filename: EarthCovers > ACAP Omaha1 - 5.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,1D,Waste management,Cover design,EarthCovers

Attachments:

ACAP Omaha2- 6

2005 Local climate data

Model filename: EarthCovers > ACAP Omaha2- 6.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,1D,Waste management,Cover design,EarthCovers

Attachments:

ACAP Polson6

Precipitaion data for 2005 and decreased error limit

Model filename: EarthCovers > ACAP Polson6.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,1D,Waste management,Cover design,EarthCovers

Attachments:

ACAP Sacramento 1-5

2005 local climate data

Model filename: EarthCovers > ACAP Sacramento 1-5.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,1D,Cover design and monitoring,Mining,Earth Covers,Waste management,Cover design

Attachments:

ACAP Sacramento 2-5

2005 local climate data

Model filename: EarthCovers > ACAP Sacramento 2-5.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,Mining,1D,Cover design and monitoring,Earth Covers,Waste management,Cover design

Attachments:

ChangingRootZone

The evaporative conditions between two residential buildings are examined as vegetation grows over a period of 100 days. Development of the root zone, which acts as a sink, is considered as both the depth of the roots and the top of the active root zone is established.

Model filename: EarthCovers > ChangingRootZone.svm

Tags: EarthCovers,SVFLUX,2D,Transient,Evaporation,Evapotranspiration,Waste management,Cover design

Attachments:

Coupled_Salt_Water

This model demostrates the use of the software in modeling coupled water flow coupled with climate and with a salt concentration at the lower boundary. This model demonstrates the balance between precipitation moving down through the model and the salt migrating upward through diffusion.

Model filename: EarthCovers > Coupled_Salt_Water.svm

Tags: EarthCovers,SVFLUX,CHEMFLUX,1D Vertical,Transient,Precipitation,Climatic Coupling,Evaporation,EarthCovers,1D,Waste management,Cover design

Attachments:

Cover12in1D

Typical heap material with an 12in cover.

Model filename: EarthCovers > Cover12in1D.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,1D,Waste management,Cover design

Attachments:

Cover18in1D

Typical heap material with an 18in cover.

Model filename: EarthCovers > Cover18in1D.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,1D,Waste management,Cover design

Attachments:

Cover24in1D

Typical example of a 24 inch cover

Model filename: EarthCovers > Cover24in1D.svm

Tags: EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,EarthCovers,1D,Cover design and monitoring,Mining,Earth Covers,Waste management,Cover design

Attachments:

Cover24in1D_DailyIntensity

Typical example of a 24 inch cover. This model uses the Daily precipitation intensity correction instead of the Global precipitation intensity correction used in Cover24in1D.

Model filename: EarthCovers > Cover24in1D_DailyIntensity.svm

Tags: EarthCovers,EarthCovers,SVFLUX,1D Vertical,Transient,Precipitation,Evaporation,1D,Waste management,Cover design

Attachments:

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