(A) Future of Radiation Parameterizations in CAM - PowerPoint PPT Presentation

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(A) Future of Radiation Parameterizations in CAM

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Title: Status of Integrations Author: William Collins Last modified by: William Collins Created Date: 1/7/2004 7:30:33 PM Document presentation format – PowerPoint PPT presentation

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Title: (A) Future of Radiation Parameterizations in CAM


1
(A) Future of Radiation Parameterizations in CAM
  • Bill Collins
  • National Center for Atmospheric Research
  • www.cgd.ucar.edu/wcollins

2
Required Output Fields
  • Broadband fluxes
  • Broadband heating rates
  • Spectral actinic fluxes
  • Photosynthetically active radiation (PAR)
  • Spectral radiances and fluxes
  • Comparison against radiative observations
  • Non-LTE radiation fields above 60 km (?)
  • Adjoint of RTE or equivalent (?)

3
Required Features
  • Accurate relative to accepted benchmarks
  • Correct asymptotic behavior
  • Vertical resolution ?? ?
  • Spectral resolution ?? ?
  • Correct limiting behavior for ideal cases
  • Conservatively scattering atmospheres
  • Strong and weak line limits
  • Single scattering and optically thick limits
  • Correct answers for extreme (paleo) conditions
  • Fast (e.g., linear in spatial resolution)
  • Light weight (small memory footprint)

4
Desirable Features
  • Flexible
  • Add new radiative species
  • Enhance or degrade spectral resolution
  • Solve for complex condensate geometries
  • Test alternate solution methods
  • Traceable
  • Line continuum absorption by gases/vapor
  • Intrinsic optical properties of condensates
  • Testable
  • Benchmarks provided for each component
  • Components can be easily tested in isolation
  • Very Modular

5
Magic Numbers
6
The Radiative Transfer Equation
  • The RTE for the radiance I is
  • Solution requires
  • A specification for intrinsic optical properties
  • Single-scattering albedo ?
  • Phase function P
  • Specific extinction ? ke
  • A method for integrating over wavelength
  • A specification for the geometry

7
Intrinsic Optical Properties (Gases)
  • Radiative active gases and H2O vapor

Line by line model (e.g., GENLN3)
New data
Extinction ke(?)
New d?
Benchmark Heating Rates
Parameterization
Error Analysis
8
Benchmark Calculations
9
Intrinsic Optical Properties (Condensate)
Scaling and Mixing Rules
Bulk Optical Properties
Gas Optics
Online
Offline
Parameterization f(re, T, )
Size/Shape Parameter Sampling
Size Distribution
Mie Calculator
Discrete Dipole Approximation
Anomalous Diffraction Theory
Indices of Refraction
10
Integration over Wavelength
  • Correlated k
  • Additional features
  • Hierarchical spectral resolution
  • Exposed methods for interpolating over vertical
    sub-grid variation

CAM Bands
11
Angular Integration and Geometry
Geometry from Cloud Parameterization
Lateral Boundary Conditions
Bulk Optical Properties
Spectral Integration
Spatial Solver
Two-Stream Methods
Discrete Ordinates Solver
Monte Carlo
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