model_parameter.nml~ 1.77 KB

!------------------------------------------------------------------------------------------
! General model Parameters
!
!	name_exp	: Name of the simulation
!	depth		: Depth of the water column 					[m]
!	dz		: Resolution of the grid 					[m]
!	K_value		: Value of diffusivity for the uniform case 			[m2/s]
!	time_step	: time step of the simulation 					[s]
!	ndays		: Number of days of the simulation 				[-]
!	output_time	: write to file each output_time step 				[-]
!
!	mix_state	: choice for the diffusivity profile
!			-> 1 uniform profil, the value of the diffusivity 
!			   is given by K_value
!			-> 2 non-uniform profil, the input profile must be specified
!
!	method		: choice of the paradigm used for calculations
!			-> 1 Lagrangian method only
!			-> 2 eulerian and lagrangian methods are both used
!
!	particle_distribution : choice for the initial distribution of the particles
!			-> 1 release all particles in a particular depth defined by z_0
!			-> 2 release the particles uniformely in the domain
!
!	nbpart		: Number of particles generated 				[-]
!	z_0		: depth where particles are released 
!			  (if particles_distribution=1) 				[m]
!	day_length	: length of the day 						[h]
!	rad_max		:solar irradiance at the surface				[ ]
!	k_bg		: light attenuation						[m-1]
!
!
!
!	Iopt		: Optimal irradiance for phytoplankton growth			[µE/m2/s]
!	Ic		: Minimal irradiance for photosynthesis				[µE/m2/s]
!------------------------------------------------------------------------------------------

&model_parameter_nml
name_exp		='acroissance3'
depth			= 40
dz			= 0.2
K_value			= 1e-07
time_step		= 60
ndays			= 20
output_time		= 10
mix_state		= 1
method			= 2
particle_distribution	= 2
nbpart			= 5000
z_0			= 10
day_length		= 16
rad_max			= 600
k_bg			= 0.4
Iopt			= 277.5
Ic			= 11


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