netcdf dgC_his { dimensions: time = 1003 ; Layer = 40 ; LayerInterf = 41 ; Fraction = 1 ; bounds2 = 2 ; platform_name_len = 20 ; Station = 152 ; crs_name_len = 20 ; Crosssection = 18 ; start_end = 2 ; variables: double time(time) ; time:standard_name = "time" ; time:long_name = "time" ; time:units = "days since 1970-01-01 00:00:00 " ; time:axis = "T" ; time:actual_range = "2002-05-26 10:00:00\t2002-06-02 09:00:00" ; char platform_name(Station, platform_name_len) ; platform_name:standard_name = "platform_name" ; platform_name:long_name = "Name of monitoring station" ; platform_name:delft3d_name = "NAMST" ; platform_name:cf_role = "timeseries_id" ; float platform_m_index(Station) ; platform_m_index:long_name = "Delft3D-FLOW m index of station" ; platform_m_index:units = "1" ; platform_m_index:delft3d_name = "MNSTAT" ; platform_m_index:_FillValue = -1.#IND00f ; platform_m_index:actual_range = 3., 138. ; float platform_n_index(Station) ; platform_n_index:long_name = "Delft3D-FLOW n index of station" ; platform_n_index:units = "1" ; platform_n_index:delft3d_name = "MNSTAT" ; platform_n_index:_FillValue = -1.#IND00f ; platform_n_index:actual_range = 7., 34. ; float platform_angle(Station) ; platform_angle:long_name = "Orientation ksi-axis w.r.t. pos.x-axis at water level point" ; platform_angle:delft3d_name = "ALFAS" ; char crs_name(Crosssection, crs_name_len) ; crs_name:standard_name = "platform_name" ; crs_name:long_name = "Name of monitoring cross-section" ; crs_name:delft3d_name = "NAMTRA" ; crs_name:cf_role = "timeseries_id" ; float crs_m(Crosssection, start_end) ; crs_m:long_name = "Delft3D-FLOW m indices of cross-section" ; crs_m:units = "1" ; crs_m:delft3d_name = "MNTRA" ; crs_m:_FillValue = -1.#IND00f ; crs_m:actual_range = 9., 138. ; float crs_n(Crosssection, start_end) ; crs_n:long_name = "Delft3D-FLOW n indices of cross-section" ; crs_n:units = "1" ; crs_n:delft3d_name = "MNTRA" ; crs_n:_FillValue = -1.#IND00f ; crs_n:actual_range = 3., 33. ; float x(Station) ; x:standard_name = "projection_x_coordinate" ; x:long_name = "x of station" ; x:units = "m" ; x:axis = "X" ; x:delft3d_name = "XYSTAT" ; x:_FillValue = -1.#IND00f ; x:actual_range = 75745.53125, 77579.96875 ; float y(Station) ; y:standard_name = "projection_y_coordinate" ; y:long_name = "y of station" ; y:units = "m" ; y:axis = "Y" ; y:delft3d_name = "XYSTAT" ; y:_FillValue = -1.#IND00f ; y:actual_range = 366566.40625, 369509.53125 ; float longitude(Station) ; longitude:standard_name = "longitude" ; longitude:long_name = "Longitude of station" ; longitude:units = "degrees_east" ; longitude:axis = "X" ; longitude:delft3d_name = "XYSTAT" ; longitude:_FillValue = -1.#IND00f ; longitude:actual_range = 4.25119459783757, 4.27686155660913 ; float latitude(Station) ; latitude:standard_name = "latitude" ; latitude:long_name = "Latitude of station" ; latitude:units = "degrees_north" ; latitude:axis = "Y" ; latitude:delft3d_name = "XYSTAT" ; latitude:_FillValue = -1.#IND00f ; latitude:actual_range = 51.2828413546755, 51.30947637028 ; float crs_x(Crosssection) ; crs_x:standard_name = "projection_x_coordinate" ; crs_x:long_name = "x of cross-section" ; crs_x:units = "m" ; crs_x:axis = "X" ; crs_x:delft3d_name = "XYTRA" ; crs_x:_FillValue = -1.#IND00f ; crs_x:actual_range = 75602.375, 77217.2734375 ; float crs_y(Crosssection) ; crs_y:standard_name = "projection_y_coordinate" ; crs_y:long_name = "y of cross-section" ; crs_y:units = "m" ; crs_y:axis = "Y" ; crs_y:delft3d_name = "XYTRA" ; crs_y:_FillValue = -1.#IND00f ; crs_y:actual_range = 366566.40625, 369509.53125 ; float crs_longitude(Crosssection, start_end) ; crs_longitude:standard_name = "longitude" ; crs_longitude:long_name = "Longitude of cross-section" ; crs_longitude:units = "degrees_east" ; crs_longitude:axis = "X" ; crs_longitude:delft3d_name = "XYTRA" ; crs_longitude:_FillValue = -1.#IND00f ; crs_longitude:actual_range = 4.24912241693128, 4.27189634614567 ; float crs_latitude(Crosssection, start_end) ; crs_latitude:standard_name = "latitude" ; crs_latitude:long_name = "Latitude of cross-section" ; crs_latitude:units = "degrees_north" ; crs_latitude:axis = "Y" ; crs_latitude:delft3d_name = "XYTRA" ; crs_latitude:_FillValue = -1.#IND00f ; crs_latitude:actual_range = 51.2817788284517, 51.3085817491024 ; float Layer(Layer) ; Layer:long_name = "sigma at layer midpoints" ; Layer:standard_name = "ocean_sigma_coordinate" ; Layer:positive = "up" ; Layer:actual_range = -0.999666506308131, -0.0632033199071884 ; Layer:formula_terms = "sigma: Layer eta: waterlevel depth: depth" ; Layer:comment = "The surface layer has index k=1 and is sigma=0, the bottom layer has index kmax and is sigma=-1." ; Layer:delft3d_name = "his-const:KMAX his-const:LAYER_MODEL his-const:THICK" ; float LayerInterf(LayerInterf) ; LayerInterf:long_name = "sigma at layer interfaces" ; LayerInterf:standard_name = "ocean_sigma_coordinate" ; LayerInterf:positive = "up" ; LayerInterf:actual_range = -1.00000001327135, 0. ; LayerInterf:formula_terms = "sigma: LayerInterf eta: waterlevel depth: depth" ; LayerInterf:comment = "The surface layer has index k=1 and is sigma=0, the bottom layer has index kmax and is sigma=-1." ; LayerInterf:delft3d_name = "his-const:KMAX his-const:LAYER_MODEL his-const:THICK" ; float depth(Station) ; depth:standard_name = "altitude" ; depth:long_name = "Depth in station" ; depth:units = "m" ; depth:positive = "down" ; depth:coordinates = "x y platform_name" ; depth:delft3d_name = "DPS" ; depth:comment = "" ; depth:actual_range = 0.162000000476837, 16.942455291748 ; float waterlevel(time, Station) ; waterlevel:standard_name = "sea_surface_elevation" ; waterlevel:long_name = "Water-level in station (zeta point)" ; waterlevel:units = "m" ; waterlevel:positive = "up" ; waterlevel:coordinates = "x y platform_name" ; waterlevel:delft3d_name = "ZWL" ; waterlevel:_FillValue = -1.#IND00f ; waterlevel:actual_range = -0.460175931453705, 5.84168863296509 ; single mask(time,Station), shape = [3803 150] mask:standard_name = "" ; mask:long_name = "active" ; mask:units = "1" ; mask:coordinates = "latitude longitude platform_name" ; mask:delft3d_name = "ZKFS" ; mask:_FillValue = NaN f; mask:actual_range = 0 1 ; mask:flag_values = 0 1 ; mask:flag_meanings = "inactive active " ; float u_x(time, Station, Layer) ; u_x:standard_name = "sea_water_x_velocity" ; u_x:long_name = "velocity, x-component" ; u_x:units = "m/s" ; u_x:coordinates = "x y platform_name" ; u_x:delft3d_name = "ZCURU" ; u_x:_FillValue = -1.#IND00f ; u_x:actual_range = -0.973308503627777, 1.31783068180084 ; float u_y(time, Station, Layer) ; u_y:standard_name = "sea_water_y_velocity" ; u_y:long_name = "velocity, y-component" ; u_y:units = "m/s" ; u_y:coordinates = "x y platform_name" ; u_y:delft3d_name = "ZCURV" ; u_y:_FillValue = -1.#IND00f ; u_y:actual_range = -0.92728465795517, 0.715223848819733 ; float u_z(time, Station, Layer) ; u_z:standard_name = "upward_sea_water_velocity" ; u_z:long_name = "velocity, z-component" ; u_z:units = "m/s" ; u_z:positive = "up" ; u_z:coordinates = "x y platform_name" ; u_z:delft3d_name = "ZCURW" ; u_z:_FillValue = -1.#IND00f ; u_z:actual_range = -0.177295297384262, 0.257271468639374 ; float Q(time, Crosssection) ; Q:standard_name = "water_flux_into_sea_water" ; Q:long_name = "Monumentary discharge through cross section (velocity points)" ; Q:units = "m3/s" ; Q:coordinates = "crs_x crs_y crs_name" ; Q:delft3d_name = "CTR" ; Q:_FillValue = -1.#IND00f ; Q:actual_range = 1.#INF0000000000, -1.#INF0000000000 ; float CQ(time, Crosssection) ; CQ:standard_name = "water_flux_into_sea_water" ; CQ:long_name = "Total discharge through cross section (velocity points)" ; CQ:units = "m3" ; CQ:coordinates = "crs_x crs_y crs_name" ; CQ:delft3d_name = "FLTR" ; CQ:_FillValue = -1.#IND00f ; CQ:actual_range = -72419024., 13368214. ; float tau_x(time, Station) ; tau_x:standard_name = "surface_downward_x_stress" ; tau_x:long_name = "Bottom stress U in station (zeta point)" ; tau_x:units = "N m-2" ; tau_x:coordinates = "x y platform_name" ; tau_x:delft3d_name = "ZTAUKS" ; tau_x:_FillValue = -1.#IND00f ; tau_x:actual_range = -2.35219240188599, 3.14754724502563 ; tau_x:comment = "The bed shear stresses are in real world directions x and y" ; float tau_y(time, Station) ; tau_y:standard_name = "surface_downward_y_stress" ; tau_y:long_name = "Bottom stress V in station (zeta point)" ; tau_y:units = "N m-2" ; tau_y:coordinates = "x y platform_name" ; tau_y:delft3d_name = "ZTAUET" ; tau_y:_FillValue = -1.#IND00f ; tau_y:actual_range = -1.23002445697784, 2.36216640472412 ; tau_y:comment = "The bed shear stresses are in real world directions x and y" ; float density(time, Station, Layer) ; density:standard_name = "sea_water_density" ; density:long_name = "Density in station" ; density:units = "kg/m3" ; density:coordinates = "x y platform_name" ; density:delft3d_name = "ZRHO" ; density:_FillValue = -1.#IND00f ; density:actual_range = 1004.97137451172, 1008.29388427734 ; float salinity(time, Station, Layer) ; salinity:standard_name = "sea_water_salinity" ; salinity:long_name = "Salinity in station" ; salinity:units = "psu" ; salinity:coordinates = "x y platform_name" ; salinity:delft3d_name = "GRO" ; salinity:_FillValue = -1.#IND00f ; salinity:actual_range = 7.75254106521606, 11.8001956939697 ; single temperature(time,Station,Layer), shape = [3803 150 10] temperature:standard_name = "sea_water_temperature" ; temperature:long_name = "Temperature in station" ; temperature:units = "degree_Celsius" ; temperature:coordinates = "latitude longitude platform_name" ; temperature:delft3d_name = "GRO" ; temperature:_FillValue = NaN f; temperature:actual_range = -0.00931975 11.8603 ; float sediment_coh(time, Station, Layer) ; sediment_coh:standard_name = "concentration_of_suspended_matter_in_sea_water" ; sediment_coh:long_name = "Concentration of sediment_coh per layer in station" ; sediment_coh:units = "kg/m3" ; sediment_coh:coordinates = "x y platform_name" ; sediment_coh:delft3d_name = "GRO" ; sediment_coh:_FillValue = -1.#IND00f ; sediment_coh:actual_range = -0.00832465570420027, 2.26311326026917 ; float tke(time, Station, LayerInterf) ; tke:standard_name = "specific_kinetic_energy_of_sea_water" ; tke:long_name = "Turbulent kinetic energy in station" ; tke:units = "m2/s2" ; tke:coordinates = "x y platform_name" ; tke:delft3d_name = "ZTUR" ; tke:_FillValue = -1.#IND00f ; tke:actual_range = 0., 0.0482837557792664 ; float eps(time, Station, LayerInterf) ; eps:standard_name = "ocean_kinetic_energy_dissipation_per_unit_area_due_to_vertical_friction" ; eps:long_name = "Turbulent dissipation in station" ; eps:units = "m2/s3" ; eps:coordinates = "x y platform_name" ; eps:delft3d_name = "ZTUR" ; eps:_FillValue = -1.#IND00f ; eps:actual_range = 0., 0.798907995223999 ; float viscosity_z(time, Station, LayerInterf) ; viscosity_z:standard_name = "ocean_vertical_momentum_diffusivity" ; viscosity_z:long_name = "Vertical eddy viscosity-3D" ; viscosity_z:units = "m^2/s" ; viscosity_z:coordinates = "x y platform_name" ; viscosity_z:delft3d_name = "ZVICWW" ; viscosity_z:_FillValue = -1.#IND00f ; viscosity_z:actual_range = 0., 0.169904321432114 ; float diffusivity_z(time, Station, LayerInterf) ; diffusivity_z:standard_name = "ocean_vertical_tracer_diffusivity" ; diffusivity_z:long_name = "Vertical eddy diffusivity-3D" ; diffusivity_z:units = "m^2/s" ; diffusivity_z:coordinates = "x y platform_name" ; diffusivity_z:delft3d_name = "ZDICWW" ; diffusivity_z:_FillValue = -1.#IND00f ; diffusivity_z:actual_range = 0., 0.169904321432114 ; float Ri(time, Station, LayerInterf) ; Ri:standard_name = "richardson_number_in_sea_water" ; Ri:long_name = "Richardson number" ; Ri:units = "-" ; Ri:coordinates = "x y platform_name" ; Ri:delft3d_name = "ZRICH" ; Ri:_FillValue = -1.#IND00f ; Ri:actual_range = -42776.19921875, 141448.875 ; float morphological_depth(time, Station) ; morphological_depth:standard_name = "" ; morphological_depth:long_name = "Morphological depth at station (zeta point)" ; morphological_depth:units = "m" ; morphological_depth:coordinates = "x y platform_name" ; morphological_depth:delft3d_name = "ZDPS" ; morphological_depth:_FillValue = -1.#IND00f ; morphological_depth:actual_range = 0.155364751815796, 16.9475440979004 ; float available_mass_of_sediment(time, Station, Fraction) ; available_mass_of_sediment:standard_name = "" ; available_mass_of_sediment:long_name = "Available mass of sediment at bed at station" ; available_mass_of_sediment:units = "kg/m2" ; available_mass_of_sediment:coordinates = "x y platform_name" ; available_mass_of_sediment:delft3d_name = "ZBDSED" ; available_mass_of_sediment:_FillValue = -1.#IND00f ; available_mass_of_sediment:actual_range = -4.13602379012445e-007, 58.5657653808594 ; float bed_load_transport(time, Crosssection, Fraction) ; bed_load_transport:standard_name = "" ; bed_load_transport:long_name = "Momentary bed load transport through section" ; bed_load_transport:units = "m3/s" ; bed_load_transport:coordinates = "crs_x crs_y crs_name" ; bed_load_transport:delft3d_name = "SBTR" ; bed_load_transport:_FillValue = -1.#IND00f ; bed_load_transport:actual_range = 0., 0. ; float cumulative_bed_load_transport(time, Crosssection, Fraction) ; cumulative_bed_load_transport:standard_name = "" ; cumulative_bed_load_transport:long_name = "Cumulative bed load transport through section" ; cumulative_bed_load_transport:units = "m3" ; cumulative_bed_load_transport:coordinates = "crs_x crs_y crs_name" ; cumulative_bed_load_transport:delft3d_name = "SBTRC" ; cumulative_bed_load_transport:_FillValue = -1.#IND00f ; cumulative_bed_load_transport:actual_range = 0., 0. ; float suspended_load_transport(time, Crosssection, Fraction) ; suspended_load_transport:standard_name = "" ; suspended_load_transport:long_name = "Momentary susp. load transport through section" ; suspended_load_transport:units = "m3/s" ; suspended_load_transport:coordinates = "crs_x crs_y crs_name" ; suspended_load_transport:delft3d_name = "SSTR" ; suspended_load_transport:_FillValue = -1.#IND00f ; suspended_load_transport:actual_range = -0.0500059761106968, 0.143801242113113 ; float cumulative_suspended_load_transport(time, Crosssection, Fraction) ; cumulative_suspended_load_transport:standard_name = "" ; cumulative_suspended_load_transport:long_name = "Cumulative susp. load transport through section" ; cumulative_suspended_load_transport:units = "m3" ; cumulative_suspended_load_transport:coordinates = "crs_x crs_y crs_name" ; cumulative_suspended_load_transport:delft3d_name = "SSTRC" ; cumulative_suspended_load_transport:_FillValue = -1.#IND00f ; cumulative_suspended_load_transport:actual_range = -1005.068359375, 3350.57495117188 ; // global attributes: :title = "" ; :institution = "" ; :source = "Delft3D trih file" ; :history = "Original filename: trih-RUNID.dat, Deltares, FLOW2D3D Version X, DATE, file version: X, file date: DATA, transformation to netCDF: HeadURL Id" ; :references = "http://svn.oss.deltares.nl" ; :email = "" ; :comment = "" ; :version = "" ; :Conventions = "CF-1.6" ; :terms_for_use = "These data can be used freely for research purposes provided that the following source is acknowledged: " ; :disclaimer = "This data is made available in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE." ; :delft3d_description = " \n", " \n", " \n", " \n", " \n", " \n", " \n", " \n", " \n", " \n", "" ; :time_coverage_start = "yyyy-mm-ddTHH:00" ; :time_coverage_end = "yyyy-mm-ddTHH:00" ; :featureType = "timeSeries" ; }