Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byElvin Cobb Modified over 8 years ago

Similar presentations

Presentation on theme: "(A) Future of Radiation Parameterizations in CAM Bill Collins National Center for Atmospheric Research www.cgd.ucar.edu/~wcollins."— Presentation transcript:

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 RTE for the radiance I is: Solution requires: –A specification for intrinsic optical properties: Single-scattering albedo  Phase function P Specific extinction  k e –A method for integrating over wavelength –A specification for the geometry The Radiative Transfer Equation

7 Intrinsic Optical Properties (Gases) Radiative active gases and H 2 O vapor: Line by line model (e.g., GENLN3) Benchmark Heating Rates Extinction k e ( ) Parameterization Error Analysis New data New d

8 Benchmark Calculations

9 Intrinsic Optical Properties (Condensate) Size Distribution Indices of Refraction Mie Calculator Discrete Dipole Approximation Size/Shape Parameter Sampling Parameterization f(r e, T, …) Scaling and Mixing Rules Anomalous Diffraction Theory Gas Optics Bulk Optical Properties Offline Online

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 Bulk Optical Properties Spatial Solver Spectral Integration Two-Stream Methods Discrete Ordinates Solver Monte Carlo… Geometry from Cloud Parameterization Lateral Boundary Conditions

Download ppt "(A) Future of Radiation Parameterizations in CAM Bill Collins National Center for Atmospheric Research www.cgd.ucar.edu/~wcollins."

Similar presentations

Estimation of clouds in atmospheric models Tomislava Vukicevic CIRA/CSU and PAOS/CU.

Estimation of clouds in atmospheric models Tomislava Vukicevic CIRA/CSU and PAOS/CU.
© Crown copyright Met Office Radiation Parametrisation Current development work with the UM James Manners, visit to Reading University on 19 th February.

© Crown copyright Met Office Radiation Parametrisation Current development work with the UM James Manners, visit to Reading University on 19 th February.
Eyk Bösche et al. BBC2 Workshop, Oktober 2004: Eyk Bösche et al. BBC2 Workshop, Oktober 2004: Simulation of skylight polarization with the DAK model and.

Eyk Bösche et al. BBC2 Workshop, Oktober 2004: Eyk Bösche et al. BBC2 Workshop, Oktober 2004: Simulation of skylight polarization with the DAK model and.
A thermodynamic model for estimating sea and lake ice thickness with optical satellite data Student presentation for GGS656 Sanmei Li April 17, 2012.

A thermodynamic model for estimating sea and lake ice thickness with optical satellite data Student presentation for GGS656 Sanmei Li April 17, 2012.
Copyright © 2014 by Curtis D. Mobley Curtis Mobley Vice President for Science and Senior Scientist Sequoia Scientific, Inc. Belleue, WA 98005

Copyright © 2014 by Curtis D. Mobley Curtis Mobley Vice President for Science and Senior Scientist Sequoia Scientific, Inc. Belleue, WA 98005
METO621 Lesson 18. Thermal Emission in the Atmosphere – Treatment of clouds Scattering by cloud particles is usually ignored in the longwave spectrum.

METO621 Lesson 18. Thermal Emission in the Atmosphere – Treatment of clouds Scattering by cloud particles is usually ignored in the longwave spectrum.
Shortwave Radiation Options in the WRF Model

Shortwave Radiation Options in the WRF Model
METO 621 Lesson 6. Absorption by gaseous species Particles in the atmosphere are absorbers of radiation. Absorption is inherently a quantum process. A.

METO 621 Lesson 6. Absorption by gaseous species Particles in the atmosphere are absorbers of radiation. Absorption is inherently a quantum process. A.
3D Radiative Transfer in Cloudy Atmospheres: Diffusion Approximation and Monte Carlo Simulation for Thermal Emission K. N. Liou, Y. Chen, and Y. Gu Department.

3D Radiative Transfer in Cloudy Atmospheres: Diffusion Approximation and Monte Carlo Simulation for Thermal Emission K. N. Liou, Y. Chen, and Y. Gu Department.
Spectral mapping with linearized Radiant Zhiming Kuang Basic idea: Group wavelengths with similar optical properties into one “bin”, and approximate their.

Spectral mapping with linearized Radiant Zhiming Kuang Basic idea: Group wavelengths with similar optical properties into one “bin”, and approximate their.
Aerosol radiative effects from satellites Gareth Thomas Nicky Chalmers, Caroline Poulsen, Ellie Highwood, Don Grainger Gareth Thomas - NCEO/CEOI-ST Joint.

Aerosol radiative effects from satellites Gareth Thomas Nicky Chalmers, Caroline Poulsen, Ellie Highwood, Don Grainger Gareth Thomas - NCEO/CEOI-ST Joint.
© Crown copyright Met Office Radiation developments Latest work on the radiation code in the Unified Model James Manners, Reading collaboration meeting.

© Crown copyright Met Office Radiation developments Latest work on the radiation code in the Unified Model James Manners, Reading collaboration meeting.
Constraining aerosol sources using MODIS backscattered radiances Easan Drury - G2

Constraining aerosol sources using MODIS backscattered radiances Easan Drury - G2
Atmospheric scatterers

Atmospheric scatterers
BASIC RADIATIVE TRANSFER. RADIATION & BLACKBODIES Objects that absorb 100% of incoming radiation are called blackbodies For blackbodies, emission ( 

BASIC RADIATIVE TRANSFER. RADIATION & BLACKBODIES Objects that absorb 100% of incoming radiation are called blackbodies For blackbodies, emission ( 
Institut für Umweltphysik/Fernerkundung Physik/Elektrotechnik Fachbereich 1 Retrieval of SCIAMACHY limb measurements: First Results A. Rozanov, V. Rozanov,

Institut für Umweltphysik/Fernerkundung Physik/Elektrotechnik Fachbereich 1 Retrieval of SCIAMACHY limb measurements: First Results A. Rozanov, V. Rozanov,
NOAA-CoRP Symposium, Aug 15-18, 2006 Radiative Transfer Modeling for Simulating GOES-R imagery Manajit Sengupta 1 Contributions from: Louie Grasso 1, Jack.

NOAA-CoRP Symposium, Aug 15-18, 2006 Radiative Transfer Modeling for Simulating GOES-R imagery Manajit Sengupta 1 Contributions from: Louie Grasso 1, Jack.
CPI International UV/Vis Limb Workshop Bremen, April 14-16 2003 Development of Generalized Limb Scattering Retrieval Algorithms Jerry Lumpe & Ed Cólon.

CPI International UV/Vis Limb Workshop Bremen, April Development of Generalized Limb Scattering Retrieval Algorithms Jerry Lumpe & Ed Cólon.
Cloud-Climate Feedbacks as a Result of Solar Cloud Absorption in the SKYHI General Circulation Model Carynelisa Erlick, Atmospheric Sciences, Hebrew University.

Cloud-Climate Feedbacks as a Result of Solar Cloud Absorption in the SKYHI General Circulation Model Carynelisa Erlick, Atmospheric Sciences, Hebrew University.
METO 621 Lesson 13. Separation of the radiation field into orders of scattering If the source function is known then we may integrate the radiative transfer.

METO 621 Lesson 13. Separation of the radiation field into orders of scattering If the source function is known then we may integrate the radiative transfer.

Similar presentations

Ads by Google