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Difference between revisions of "David ToDoList"

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(Module Porous Media)
(Module Basin)
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#Take WATER_COLUMN_COEF from module and data file CHECK
 
#Take WATER_COLUMN_COEF from module and data file CHECK
 
#Water and Mass from rain should be updated after atmosphere processes and so it does not need to compute infilcolconc for porous media properties (it is the water column) CHECK
 
#Water and Mass from rain should be updated after atmosphere processes and so it does not need to compute infilcolconc for porous media properties (it is the water column) CHECK
 +
#If evaporation removes all leaf water then mass should be kept - use mass instead of concentration - CHECK
 
#If evaporation removes all water column then mass should be kept - use mass instead of concentration.
 
#If evaporation removes all water column then mass should be kept - use mass instead of concentration.
  

Revision as of 20:36, 27 March 2011

Article Tasks

[Task] [Priority] [MonthToFinish]

  1. Validate Model with analitical solutions - porous media and runoff
  2. Validate Model with erosion/deposition data (Jose)
  3. Compare Vegetation growth and erosion with SWAT in subbasin of Save and Enxoe
  4. Colocar modelo pesticidas MOHID
  5. Article 1 - part 1 (David Brito) Hidrology of MOHID Land and validation - analitic; part 2 (David Bailly) - Erosion and validation (José data)
  6. Article 2 - SWAT and Mohid Land
  7. Article 3 - application in Save (D Bailly)
  8. Article 4 - application in Enxoé (D Brito) - functioning of basin in one year and in events
  9. Article 5 - pesticides


Coding Tasks

General

  1. Concept a structure for using basin as the model that computes all interface fluxes and gives them to the modules that need them - fluxes are computed at a given state after or before all internal module fluxes. Think as a property flux (what concentration use).
  2. Concept a module to handle properties? for instance one property defined for all the modules.

Module Basin

  1. Compute Mass Balance for each property CHECK
  2. Take WATER_COLUMN_COEF from module and data file CHECK
  3. Water and Mass from rain should be updated after atmosphere processes and so it does not need to compute infilcolconc for porous media properties (it is the water column) CHECK
  4. If evaporation removes all leaf water then mass should be kept - use mass instead of concentration - CHECK
  5. If evaporation removes all water column then mass should be kept - use mass instead of concentration.

Module Porous Media

  1. Chage connection with river for layer based CHECK
  2. Distribute oversaturation differently - use oversaturation to Head field - physic approach
  3. Water that exists the soil in sub VerticalContinuity in a river cell should go to river directly and not to runoff first.

Module PorousMediaProperties

  1. Test interaction with river CHECK
  2. Construct log to screen with properties CHECK
  3. Get transpiration flux in to advection diffusion CHECK
  4. Implement SedimentQuality and test it
  5. Compare solute transport to numeric solution

Module RunoffProperties

  1. Construct bottom fluxes for properties - follow "BOTTOM_FLUXES" in DrainageNetwork. Property will have a water matrix and bottom matrix. First approach can be only transport, concentrate when part of water infiltrates and deposition when all water infiltrates. Then after, erosion and deposition can be programmed (see Drainage Network again). CHECK
  2. Construct partition between dissolved and particulate - follow "PARTICULATE" in water properties. CHECK. Need tests
  3. Construct log to screen with properties CHECK
  4. Add the Possibility to use implicit advection diffusion (thomas3D). CHECK
  5. Get discharges flux and boundary flux in to advection diffusion
  6. Create rills for erosion/deposition (rill cells and area for flux defined with drainage accumulation computation)

Module Runoff

  1. Construct, modify and kill timeseries CHECK

Module Vegetation

  1. Solve Continuous computation problem in properties - CHECK
  2. Code Fertilization events as pesticide events (for now only autofertilization)
  3. Code Rotation with hdf5
  4. Code the excess water stress
  5. Create DB for vegetation and automatically generate data whitout writting in vegetation data file. Create a file to check what was read. Use David Bailly Work to write in on file ALMOST CHECK
  6. Give porous media properties fluxes in g/s
  7. How to account leaf flux to soil - for dynamic manning roughness?
  8. Check equation of SWAT to separate potential evaporation using LAI to see if is the same as used in Basin
  9. Uptake also ammonia?

Module Drainage network

  1. Unit test with 2 delineations - 1 outlet at the midle and next delineate the basin there and compare with the new outlet

Project Tasks

Excel file