== Listing of the steering parameters in alphabetical order ==

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Initialization parameters (NAMELIST Group = I), run parameters (R), package parameters (P) as well as user-defined parameters (U) are alphabetically listed in the following table. 

||='''Parameter Name'''  =||='''NAMELIST \\ Group'''  =||='''Parameter Class \\'''  =||='''FORTRAN \\ Type'''  =||='''Default \\ Value'''  =||='''Explanation'''  =||
|| [../inipar#adjust_mixing_length adjust_mixing_length] || I || bc || L || .F. || Near-surface adjustment of the mixing length to the Prandtl-layer law. ||
|| [../inipar#alpha_surface alpha_surface] || I || others || R || 0.0 || Inclination of the model domain with respect to the horizontal (in degrees). ||
|| [../d3par#averaging_interval averaging_interval] || R || output || R || 0.0 || Averaging interval for all output of temporally averaged data (in s). ||
|| [../d3par#averaging_interval_pr averaging_interval_pr] || R || output || R || value of [../d3par#averaging_interval averaging_interval] || Averaging interval for vertical profiles output to local file DATA_1D_PR_NETCDF  and/or  PLOT1D_DATA (in s). ||
|| [../sppar#averaging_interval_sp averaging_interval_sp] || R || output || R || value of [../d3par#averaging_interval averaging_interval] || Averaging interval for spectra output to local file DATA_1D_SP_NETCDF  and/or  PLOTSP_X_DATA /    PLOTSP_Y_DATA (in s). ||
|| [../inipar#bc_e_b bc_e_b] || I || bc || C*20 || 'neumann' || Bottom boundary condition of the TKE. ||
|| [../inipar#bc_lr bc_lr] || I || bc || C*20 || 'cyclic' || Boundary condition along x (for all quantities). ||
|| [../inipar#bc_ns bc_ns] || I || bc || C*20 || 'cyclic' || Boundary condition along y (for all quantities). ||
|| [../d3par#bc_p_b bc_p_b] || I || bc || C*20 || 'neumann' || Bottom boundary condition of the perturbation pressure. ||
|| [../parpar#bc_par_b bc_par_b] || P || bc || C*15 || 'reflect' || Bottom boundary condition for particle transport. ||
|| [../parpar#bc_par_lr bc_par_lr] || P || bc || C*15 || 'cyclic' || Lateral boundary condition (x-direction) for particle transport. ||
|| [../parpar#bc_par_ns bc_par_ns] || P || bc || C*15 || 'cyclic' || Lateral boundary condition (y-direction) for particle transport. ||
|| [../parpar#bc_par_t bc_par_t] || P || bc || C*15 || 'absorb' || Top boundary condition for particle transport. ||
|| [../inipar#bc_pt_b bc_pt_b] || I || bc || C*20 || 'dirichlet' || Bottom boundary condition of the potential temperature. ||
|| [../inipar#bc_pt_t bc_pt_t] || I || bc || C*20 || 'initial_gradient' || Top boundary condition of the potential temperature. ||
|| [../inipar#bc_q_b bc_q_b] || I || bc || C*20 || 'dirichlet' || Bottom boundary condition of the specific humidity / total water content.  ||
|| [../inipar#bc_q_t bc_q_t] || I || bc || C*20 || 'neumann' || Top boundary condition of the specific humidity / total water content. ||
|| [../inipar#bc_s_b bc_s_b] || I || bc || C*20 || 'dirichlet' || Bottom boundary condition of the scalar concentration.  ||
|| [../inipar#bc_s_t bc_st] || I || bc || C*20 || 'neumann' || Top boundary condition of the scalar concentration.  ||
|| [../inipar#bc_sa_t bc_sa_t] || I || bc || C*20 || 'neumann' || Top boundary condition of the salinity.  ||
|| [../inipar#bc_uv_t bc_uv_t] || I || bc || C*20 || 'dirichlet' || Bottom boundary condition of the horizontal wind components u and v. ||
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