Difference between revisions of "Set up PIHM for NTL"
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+ | == Setup PIHM for North Temperate Lakes == | ||
+ | |||
+ | Plans for how to integrate lakes with PIHM, progressively more complex: | ||
+ | # Constant lake level. Streams flow in, flow out. | ||
+ | # Time variable boundary conditions (weakly coupled with lake model). Prescribe levels in the lake from data or GLM. | ||
+ | # Sequential coupling. Run PIHM, pass fluxes into GLM, pass the level back to PIHM. | ||
+ | |||
+ | Other properties for initial runs: | ||
+ | * 30 year simulation period (1979-2009) | ||
+ | * Use 40 m deep land surface. (Aquifer consists of 40 to 60 m of unconsolidated Pleistocene glacial deposits, mostly glacial outwash sands and gravel. Horizontal hydraulic conductivities are estimated to be ~10 m/day Pint et al 2003). | ||
+ | * Start with uniform soils. | ||
+ | * Use single atmospheric data set for entire domain. Two options, hydroterre forcing data or NTL data. | ||
+ | * Define dirichlet boundary condition (fixed as constant head) for all lakes in the catchment. Start with median lake levels. Can then implement time variable from GLM. | ||
+ | * No lake ice for now. | ||
+ | * Inlet boundary condition for riv file? | ||
+ | |||
+ | <!-- Add any wiki Text above this Line --> | ||
+ | <!-- Do NOT Edit below this Line --> | ||
+ | {{#set: | ||
+ | Owner=Hilary_Dugan| | ||
+ | Participants=Chris_Duffy| | ||
+ | Participants=Lele_Shu| | ||
+ | StartDate=2015-04-21| | ||
+ | SubTask=Construct_catchment_mesh| | ||
+ | TargetDate=2015-05-31| | ||
+ | Type=Medium}} |
Latest revision as of 16:37, 23 April 2015
Setup PIHM for North Temperate Lakes
Plans for how to integrate lakes with PIHM, progressively more complex:
- Constant lake level. Streams flow in, flow out.
- Time variable boundary conditions (weakly coupled with lake model). Prescribe levels in the lake from data or GLM.
- Sequential coupling. Run PIHM, pass fluxes into GLM, pass the level back to PIHM.
Other properties for initial runs:
- 30 year simulation period (1979-2009)
- Use 40 m deep land surface. (Aquifer consists of 40 to 60 m of unconsolidated Pleistocene glacial deposits, mostly glacial outwash sands and gravel. Horizontal hydraulic conductivities are estimated to be ~10 m/day Pint et al 2003).
- Start with uniform soils.
- Use single atmospheric data set for entire domain. Two options, hydroterre forcing data or NTL data.
- Define dirichlet boundary condition (fixed as constant head) for all lakes in the catchment. Start with median lake levels. Can then implement time variable from GLM.
- No lake ice for now.
- Inlet boundary condition for riv file?