Simulated device: pyranometer
Contact: Andreas Macke (firstname.lastname@example.org)
Radiation flux densities [W m-2], radiances [W m-2 str-1]
|Column or 3D?||3D|
|Operation on model time step?||Yes|
|If online, is it modular?||no, separate code|
|Ground-based or space-borne?||ground-based|
Minimum set of physical quantities:
- volume extinction coefficient [m-1]
- single scattering albedo [no dimension]
- particle effective radius [m]
- distinction ice, water, rain, snow (All 3D)
- Externally assumed: Shape of particle size distribution and shape of particles
Need for a special grid?
- cartesian grid required, adaption to triangular grid difficult
Are parameters given via namelist or have to be coded?
- no namelist, ASCII & binary input files
Are there special requirements to the input quantities?
- complete grid required, no gaps
Models for application: GESIMA
Suitable for MESSy?:
Format of input data: no specifications
Format of output data: ASCII
Computational costs: 1h for 1week, depending on size of 3d field
Macke, A, Mitchell, D, von Bremen, L (1999): Monte Carlo radiative transfer calculations for inhomogeneous mixed phase clouds. Physics and Chemistry of the Earth 24 (3), 237-241.
Cahalan, R-F, Oreopoulos, L, Marshak, A, ( incl. Macke A ) et al. (2005): The International Intercomparison of 3D Radiation Codes (I3RC): Bringing together the most advanced radiative transfer tools for cloudy atmospheres. Bull. Amer. Met. Soc. doi: 10.1175/BAMS-86-9-1275.