netcdf CCTM_PHOTDIAG2_2019-01-BASE_20190117 { dimensions: TSTEP = UNLIMITED ; // (24 currently) DATE-TIME = 2 ; LAY = 29 ; VAR = 45 ; ROW = 182 ; COL = 232 ; variables: int TFLAG(TSTEP, VAR, DATE-TIME) ; TFLAG:units = "" ; TFLAG:long_name = "TFLAG " ; TFLAG:var_desc = "Timestep-valid flags: (1) YYYYDDD or (2) HHMMSS " ; float NO2_IUPAC10(TSTEP, LAY, ROW, COL) ; NO2_IUPAC10:long_name = "NO2_IUPAC10 " ; NO2_IUPAC10:units = "1/min " ; NO2_IUPAC10:var_desc = "Photolysis rates for NO2_IUPAC10 " ; float O3_O3P_IUPAC10(TSTEP, LAY, ROW, COL) ; O3_O3P_IUPAC10:long_name = "O3_O3P_IUPAC10 " ; O3_O3P_IUPAC10:units = "1/min " ; O3_O3P_IUPAC10:var_desc = "Photolysis rates for O3_O3P_IUPAC10 " ; float O3_O1D_IUPAC10(TSTEP, LAY, ROW, COL) ; O3_O1D_IUPAC10:long_name = "O3_O1D_IUPAC10 " ; O3_O1D_IUPAC10:units = "1/min " ; O3_O1D_IUPAC10:var_desc = "Photolysis rates for O3_O1D_IUPAC10 " ; float H2O2_IUPAC10(TSTEP, LAY, ROW, COL) ; H2O2_IUPAC10:long_name = "H2O2_IUPAC10 " ; H2O2_IUPAC10:units = "1/min " ; H2O2_IUPAC10:var_desc = "Photolysis rates for H2O2_IUPAC10 " ; float NO3NO2_06(TSTEP, LAY, ROW, COL) ; NO3NO2_06:long_name = "NO3NO2_06 " ; NO3NO2_06:units = "1/min " ; NO3NO2_06:var_desc = "Photolysis rates for NO3NO2_06 " ; float NO3NO_06(TSTEP, LAY, ROW, COL) ; NO3NO_06:long_name = "NO3NO_06 " ; NO3NO_06:units = "1/min " ; NO3NO_06:var_desc = "Photolysis rates for NO3NO_06 " ; float N2O5_IUPAC10(TSTEP, LAY, ROW, COL) ; N2O5_IUPAC10:long_name = "N2O5_IUPAC10 " ; N2O5_IUPAC10:units = "1/min " ; N2O5_IUPAC10:var_desc = "Photolysis rates for N2O5_IUPAC10 " ; float HONO_IUPAC10(TSTEP, LAY, ROW, COL) ; HONO_IUPAC10:long_name = "HONO_IUPAC10 " ; HONO_IUPAC10:units = "1/min " ; HONO_IUPAC10:var_desc = "Photolysis rates for HONO_IUPAC10 " ; float HNO3_IUPAC10(TSTEP, LAY, ROW, COL) ; HNO3_IUPAC10:long_name = "HNO3_IUPAC10 " ; HNO3_IUPAC10:units = "1/min " ; HNO3_IUPAC10:var_desc = "Photolysis rates for HNO3_IUPAC10 " ; float PNA_IUPAC10(TSTEP, LAY, ROW, COL) ; PNA_IUPAC10:long_name = "PNA_IUPAC10 " ; PNA_IUPAC10:units = "1/min " ; PNA_IUPAC10:var_desc = "Photolysis rates for PNA_IUPAC10 " ; float PAN_IUPAC10(TSTEP, LAY, ROW, COL) ; PAN_IUPAC10:long_name = "PAN_IUPAC10 " ; PAN_IUPAC10:units = "1/min " ; PAN_IUPAC10:var_desc = "Photolysis rates for PAN_IUPAC10 " ; float MEPX_IUPAC10(TSTEP, LAY, ROW, COL) ; MEPX_IUPAC10:long_name = "MEPX_IUPAC10 " ; MEPX_IUPAC10:units = "1/min " ; MEPX_IUPAC10:var_desc = "Photolysis rates for MEPX_IUPAC10 " ; float NTR_IUPAC10(TSTEP, LAY, ROW, COL) ; NTR_IUPAC10:long_name = "NTR_IUPAC10 " ; NTR_IUPAC10:units = "1/min " ; NTR_IUPAC10:var_desc = "Photolysis rates for NTR_IUPAC10 " ; float FORM_R_IUPAC10(TSTEP, LAY, ROW, COL) ; FORM_R_IUPAC10:long_name = "FORM_R_IUPAC10 " ; FORM_R_IUPAC10:units = "1/min " ; FORM_R_IUPAC10:var_desc = "Photolysis rates for FORM_R_IUPAC10 " ; float FORM_M_IUPAC10(TSTEP, LAY, ROW, COL) ; FORM_M_IUPAC10:long_name = "FORM_M_IUPAC10 " ; FORM_M_IUPAC10:units = "1/min " ; FORM_M_IUPAC10:var_desc = "Photolysis rates for FORM_M_IUPAC10 " ; float ALD2_R_IUPAC10(TSTEP, LAY, ROW, COL) ; ALD2_R_IUPAC10:long_name = "ALD2_R_IUPAC10 " ; ALD2_R_IUPAC10:units = "1/min " ; ALD2_R_IUPAC10:var_desc = "Photolysis rates for ALD2_R_IUPAC10 " ; float ALDX_R_IUPAC10(TSTEP, LAY, ROW, COL) ; ALDX_R_IUPAC10:long_name = "ALDX_R_IUPAC10 " ; ALDX_R_IUPAC10:units = "1/min " ; ALDX_R_IUPAC10:var_desc = "Photolysis rates for ALDX_R_IUPAC10 " ; float GLYD_IUPAC10(TSTEP, LAY, ROW, COL) ; GLYD_IUPAC10:long_name = "GLYD_IUPAC10 " ; GLYD_IUPAC10:units = "1/min " ; GLYD_IUPAC10:var_desc = "Photolysis rates for GLYD_IUPAC10 " ; float GLY_R_IUPAC10(TSTEP, LAY, ROW, COL) ; GLY_R_IUPAC10:long_name = "GLY_R_IUPAC10 " ; GLY_R_IUPAC10:units = "1/min " ; GLY_R_IUPAC10:var_desc = "Photolysis rates for GLY_R_IUPAC10 " ; float MGLY_IUPAC10(TSTEP, LAY, ROW, COL) ; MGLY_IUPAC10:long_name = "MGLY_IUPAC10 " ; MGLY_IUPAC10:units = "1/min " ; MGLY_IUPAC10:var_desc = "Photolysis rates for MGLY_IUPAC10 " ; float KET_IUPAC10(TSTEP, LAY, ROW, COL) ; KET_IUPAC10:long_name = "KET_IUPAC10 " ; KET_IUPAC10:units = "1/min " ; KET_IUPAC10:var_desc = "Photolysis rates for KET_IUPAC10 " ; float ACET_IUPAC10(TSTEP, LAY, ROW, COL) ; ACET_IUPAC10:long_name = "ACET_IUPAC10 " ; ACET_IUPAC10:units = "1/min " ; ACET_IUPAC10:var_desc = "Photolysis rates for ACET_IUPAC10 " ; float ISPD(TSTEP, LAY, ROW, COL) ; ISPD:long_name = "ISPD " ; ISPD:units = "1/min " ; ISPD:var_desc = "Photolysis rates for ISPD " ; float HPALD(TSTEP, LAY, ROW, COL) ; HPALD:long_name = "HPALD " ; HPALD:units = "1/min " ; HPALD:var_desc = "Photolysis rates for HPALD " ; float CL2_IUPAC04(TSTEP, LAY, ROW, COL) ; CL2_IUPAC04:long_name = "CL2_IUPAC04 " ; CL2_IUPAC04:units = "1/min " ; CL2_IUPAC04:var_desc = "Photolysis rates for CL2_IUPAC04 " ; float HOCL_IUPAC04(TSTEP, LAY, ROW, COL) ; HOCL_IUPAC04:long_name = "HOCL_IUPAC04 " ; HOCL_IUPAC04:units = "1/min " ; HOCL_IUPAC04:var_desc = "Photolysis rates for HOCL_IUPAC04 " ; float FMCL_IUPAC04(TSTEP, LAY, ROW, COL) ; FMCL_IUPAC04:long_name = "FMCL_IUPAC04 " ; FMCL_IUPAC04:units = "1/min " ; FMCL_IUPAC04:var_desc = "Photolysis rates for FMCL_IUPAC04 " ; float CLNO2(TSTEP, LAY, ROW, COL) ; CLNO2:long_name = "CLNO2 " ; CLNO2:units = "1/min " ; CLNO2:var_desc = "Photolysis rates for CLNO2 " ; float ACRO_09(TSTEP, LAY, ROW, COL) ; ACRO_09:long_name = "ACRO_09 " ; ACRO_09:units = "1/min " ; ACRO_09:var_desc = "Photolysis rates for ACRO_09 " ; float AERO_SSA_W294(TSTEP, LAY, ROW, COL) ; AERO_SSA_W294:long_name = "AERO_SSA_W294 " ; AERO_SSA_W294:units = "NONE " ; AERO_SSA_W294:var_desc = "Aerosol Single Scattering Albedo at 294 nm " ; float AERO_ASYM_W294(TSTEP, LAY, ROW, COL) ; AERO_ASYM_W294:long_name = "AERO_ASYM_W294 " ; AERO_ASYM_W294:units = "NONE " ; AERO_ASYM_W294:var_desc = "Aerosol Asymetry Factor at 294 nm " ; float TAU_W294(TSTEP, LAY, ROW, COL) ; TAU_W294:long_name = "TAU_W294 " ; TAU_W294:units = "NONE " ; TAU_W294:var_desc = "Optical Depth at bottom of layer for 294 nm " ; float TAU_AERO_W294(TSTEP, LAY, ROW, COL) ; TAU_AERO_W294:long_name = "TAU_AERO_W294 " ; TAU_AERO_W294:units = "NONE " ; TAU_AERO_W294:var_desc = "Aerosol Optical Depth at bottom of layer for 294 nm " ; float AERO_SSA_W607(TSTEP, LAY, ROW, COL) ; AERO_SSA_W607:long_name = "AERO_SSA_W607 " ; AERO_SSA_W607:units = "NONE " ; AERO_SSA_W607:var_desc = "Aerosol Single Scattering Albedo at 607 nm " ; float AERO_ASYM_W607(TSTEP, LAY, ROW, COL) ; AERO_ASYM_W607:long_name = "AERO_ASYM_W607 " ; AERO_ASYM_W607:units = "NONE " ; AERO_ASYM_W607:var_desc = "Aerosol Asymetry Factor at 607 nm " ; float TAU_W607(TSTEP, LAY, ROW, COL) ; TAU_W607:long_name = "TAU_W607 " ; TAU_W607:units = "NONE " ; TAU_W607:var_desc = "Optical Depth at bottom of layer for 607 nm " ; float TAU_AERO_W607(TSTEP, LAY, ROW, COL) ; TAU_AERO_W607:long_name = "TAU_AERO_W607 " ; TAU_AERO_W607:units = "NONE " ; TAU_AERO_W607:var_desc = "Aerosol Optical Depth at bottom of layer for 607 nm " ; float CFRAC_3D(TSTEP, LAY, ROW, COL) ; CFRAC_3D:long_name = "CFRAC_3D " ; CFRAC_3D:units = "NONE " ; CFRAC_3D:var_desc = "Resolved Cloud Fraction in grid cell " ; float ACTINIC_FX_W294(TSTEP, LAY, ROW, COL) ; ACTINIC_FX_W294:long_name = "ACTINIC_FX_W294 " ; ACTINIC_FX_W294:units = "Watts/m**2 " ; ACTINIC_FX_W294:var_desc = "Net Actinic Flux, 294 nm " ; float ACTINIC_FX_W303(TSTEP, LAY, ROW, COL) ; ACTINIC_FX_W303:long_name = "ACTINIC_FX_W303 " ; ACTINIC_FX_W303:units = "Watts/m**2 " ; ACTINIC_FX_W303:var_desc = "Net Actinic Flux, 303 nm " ; float ACTINIC_FX_W310(TSTEP, LAY, ROW, COL) ; ACTINIC_FX_W310:long_name = "ACTINIC_FX_W310 " ; ACTINIC_FX_W310:units = "Watts/m**2 " ; ACTINIC_FX_W310:var_desc = "Net Actinic Flux, 310 nm " ; float ACTINIC_FX_W316(TSTEP, LAY, ROW, COL) ; ACTINIC_FX_W316:long_name = "ACTINIC_FX_W316 " ; ACTINIC_FX_W316:units = "Watts/m**2 " ; ACTINIC_FX_W316:var_desc = "Net Actinic Flux, 316 nm " ; float ACTINIC_FX_W333(TSTEP, LAY, ROW, COL) ; ACTINIC_FX_W333:long_name = "ACTINIC_FX_W333 " ; ACTINIC_FX_W333:units = "Watts/m**2 " ; ACTINIC_FX_W333:var_desc = "Net Actinic Flux, 333 nm " ; float ACTINIC_FX_W381(TSTEP, LAY, ROW, COL) ; ACTINIC_FX_W381:long_name = "ACTINIC_FX_W381 " ; ACTINIC_FX_W381:units = "Watts/m**2 " ; ACTINIC_FX_W381:var_desc = "Net Actinic Flux, 381 nm " ; float ACTINIC_FX_W607(TSTEP, LAY, ROW, COL) ; ACTINIC_FX_W607:long_name = "ACTINIC_FX_W607 " ; ACTINIC_FX_W607:units = "Watts/m**2 " ; ACTINIC_FX_W607:var_desc = "Net Actinic Flux, 607 nm " ; // global attributes: :IOAPI_VERSION = "$Id: @(#) ioapi library version 3.1 OpenMP enabled $ " ; :EXEC_ID = "CCTM_v521.exe " ; :FTYPE = 1 ; :CDATE = 2020161 ; :CTIME = 24733 ; :WDATE = 2020161 ; :WTIME = 24733 ; :SDATE = 2019017 ; :STIME = 10000 ; :TSTEP = 10000 ; :NTHIK = 1 ; :NCOLS = 232 ; :NROWS = 182 ; :NLAYS = 29 ; :NVARS = 45 ; :GDTYP = 2 ; :P_ALP = 25. ; :P_BET = 40. ; :P_GAM = 110. ; :XCENT = 110. ; :YCENT = 34. ; :XORIG = -3132000. ; :YORIG = -2457000. ; :XCELL = 27000. ; :YCELL = 27000. ; :VGTYP = 7 ; :VGTOP = 10000.f ; :VGLVLS = 1.f, 0.993f, 0.983f, 0.97f, 0.954f, 0.934f, 0.909f, 0.88f, 0.838812f, 0.7976241f, 0.7564362f, 0.7152482f, 0.6417187f, 0.5736115f, 0.5105931f, 0.4523472f, 0.3985741f, 0.3489901f, 0.3033263f, 0.2613283f, 0.2227557f, 0.1873807f, 0.1549886f, 0.1253762f, 0.0983517f, 0.07373432f, 0.05164823f, 0.03220107f, 0.01507754f, 0.f ; :GDNAM = "M_27_08CHINA " ; :UPNAM = "OPPHOT " ; :VAR-LIST = "NO2_IUPAC10 O3_O3P_IUPAC10 O3_O1D_IUPAC10 H2O2_IUPAC10 NO3NO2_06 NO3NO_06 N2O5_IUPAC10 HONO_IUPAC10 HNO3_IUPAC10 PNA_IUPAC10 PAN_IUPAC10 MEPX_IUPAC10 NTR_IUPAC10 FORM_R_IUPAC10 FORM_M_IUPAC10 ALD2_R_IUPAC10 ALDX_R_IUPAC10 GLYD_IUPAC10 GLY_R_IUPAC10 MGLY_IUPAC10 KET_IUPAC10 ACET_IUPAC10 ISPD HPALD CL2_IUPAC04 HOCL_IUPAC04 FMCL_IUPAC04 CLNO2 ACRO_09 AERO_SSA_W294 AERO_ASYM_W294 TAU_W294 TAU_AERO_W294 AERO_SSA_W607 AERO_ASYM_W607 TAU_W607 TAU_AERO_W607 CFRAC_3D ACTINIC_FX_W294 ACTINIC_FX_W303 ACTINIC_FX_W310 ACTINIC_FX_W316 ACTINIC_FX_W333 ACTINIC_FX_W381 ACTINIC_FX_W607 " ; :FILEDESC = "Photolysis rates file output " ; :HISTORY = "" ; }