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start:hype_file_reference:yyyy_ss.txt [2015/03/27 13:15] rcapell created |
start:hype_file_reference:yyyy_ss.txt [2024/01/25 11:38] (current) |
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====== yyyy_ss.txt ====== | ====== yyyy_ss.txt ====== | ||
- | These files holds annual load results. //yyyy// stands for a year and //ss// stands for one of the HYPE-modelled nitrogen (IN, ON) and phosphorus (PP, SP) species (e.g. //2001_IN.txt//). Load results are written to the [[start:hype_file_reference:info.txt&#model_options|resultdir]] folder if requested in [[start:hype_file_reference:info.txt&#output_options|output options of info.txt]]. They contain calculated annual nutrient transports (N, P), one row per subbasin. Columns contain yearly transport (kg/yr) of nutrients from atmospheric deposition (wet and dry), fertiliser and decaying plants for all classes, rural household wastewater to soil for each class and to watercourse (for each subbasin), transport with soil water, transport with in- and outflow to tile drains and surface runoff for each class, load from irrigation, point sources and transport at different points in the subbasin water course, including branched flow. | + | These output files hold modelled annual load results. //yyyy// stands for a year during the simulation period and //ss// stands for one of the HYPE-modelled nitrogen (IN, ON) and phosphorus (PP, SP) species (an actual file name would be e.g. //2001_IN.txt//). The files contain modelled annual nutrient loads before and after retention/removal along the modelled nutrient transport pathways. |
+ | //yyyy_ss.txt// are tab-separated files written to the [[start:hype_file_reference:info.txt&#model_options|resultdir]] folder if requested in [[start:hype_file_reference:info.txt&#output_options|output options of info.txt]]. The first row contains a column header with variable names. The following rows contain values for all variables, in one row per sub-basin. | ||
+ | |||
+ | The table below describes all variables written column-wise in //yyyy_ss.txt//. Variables with a //_nn// in header suffix are calculated for each SLC class separately, with //nn// numbers corresponding to numbers in [[start:hype_file_reference:geoclass.txt|GeoClass.txt]], so that the total number of columns varies depending on the number of SLC classes in the model set-up. Point source variable with a //NN// in header suffix are currently eight in total follow each other in order. | ||
+ | |||
+ | <sortable> | ||
+ | ^ Variable ID ^ Unit ^ Description ^ | ||
+ | |''subid''|//-//|sub-basin identification number| | ||
+ | |''WetAtm_nn''|//kg/year//|gross load in wet atmospheric deposition on SLC class area in the sub-basin| | ||
+ | |''DryAtm_nn''|//kg/year//|gross load in dry atmospheric deposition on SLC class area in the sub-basin| | ||
+ | |''Fertil_nn''|//kg/year//|gross load in fertilizer application on SLC class area in the sub-basin| | ||
+ | |''PDecay_nn''|//kg/year//|gross load from plant residues on SLC class area in the sub-basin| | ||
+ | |''RuralA_nn''|//kg/year//|gross load from rural household source fraction which is routed into lowest soil layer (see parameter //locsoil// in [[start:hype_file_reference:par.txt|par.txt]]), land SLC classes only| | ||
+ | |''GrwSln_nn''|//kg/year//|gross load from groundwater flows into lowest soil layer (regional groundwater routine 1, see code ''deepground'' in [[start:hype_file_reference:info.txt&#model_options|info.txt model options]], land SLC classes only)| | ||
+ | |''IrrSrc_nn''|//kg/year//|gross load in irrigation water, land SLC classes only| | ||
+ | |''Runoff_nn''|//kg/year//|total load in runoff to local stream, including soil runoff, tile drainage, and surface runoff, land SLC classes only| | ||
+ | |''RzLay3_nn''|//kg/year//|load in runoff from root zone, including soil runoff, tile drainage, surface runoff, and percolation to layer 3, land SLC classes only| | ||
+ | |''RfLay3_nn''|//kg/year//|load in runoff from third soil layer to local stream, including soil runoff and tile drainage, land SLC classes only| | ||
+ | |''RuralB''|//kg/year//|gross load from rural household source fraction which is routed into local stream (see parameter //locsoil// in [[start:hype_file_reference:par.txt|par.txt]])| | ||
+ | |''PointNN''|//kg/year//|gross load in point source type NN, eight columns with NN=01-08 (see description in [[start:hype_file_reference:pointsourcedata.txt|PointSourceData.txt]])| | ||
+ | |''Rgrwmr''|//kg/year//|gross load from groundwater flows into main river (regional groundwater routine 2, see code ''deepground'' in [[start:hype_file_reference:info.txt&#model_options|info.txt model options]])| | ||
+ | |''Wtrans''|//kg/year//|load from water transfer (given in MgmtData) into main river| | ||
+ | |''Rgrvol''|//kg/year//|gross load from groundwater flows into outlet lake if [[start:hype_file_reference:geodata.txt|GeoData.txt variable //grwolake//]] > 0 (regional groundwater routine 1, see code ''deepground'' in [[start:hype_file_reference:info.txt&#model_options|info.txt model options]])| | ||
+ | |''A''|//kg/year//|load to local stream from all SLC classes| | ||
+ | |''B''|//kg/year//|part of load to local stream from all SLC classes that bypasses the internal wetland| | ||
+ | |''C''|//kg/year//|part of load to local stream from all SLC classes that goes into the internal wetland| | ||
+ | |''D''|//kg/year//|load in fraction of load to local stream that has passed through internal wetland| | ||
+ | |''E''|//kg/year//|load to local stream after internal wetlands| | ||
+ | |''F''|//kg/year//|load in local stream after internal wetlands and from rural household source local stream fraction (''E'' + ''RuralB'')| | ||
+ | |''G''|//kg/year//|load in local stream (''F'') after including the effect of local river wetlands (defined in [[start:hype_file_reference:geodata.txt|GeoData.txt]], see also [[start:hype_model_description:hype_human_water&#constructed_wetlands|wetlands in model description]])| | ||
+ | |''H''|//kg/year//|load after passage of local streams but before internal lakes| | ||
+ | |''I''|//kg/year//|load in fraction of local stream discharge that bypasses local lakes (see variable ''icatch'' in [[start:hype_file_reference:geodata.txt|GeoData.txt]]| | ||
+ | |''J''|//kg/year//|load in fraction of local stream discharge that passes through local lakes (see variable ''icatch'' in [[start:hype_file_reference:geodata.txt|GeoData.txt]]| | ||
+ | |''K''|//kg/year//|load in fraction of local stream discharge that has passed through local lakes| | ||
+ | |''L''|//kg/year//|net load in local stream after local lake passage (''J'' + ''K'')| | ||
+ | |''MA''|//kg/year//|total load to main river, consisting of: net load of local stream, upstream load, point source loads (''Urban1-3''), water transfers (''Wtrans'') and groundwater load (''Rgrwmr'')| | ||
+ | |''M''|//kg/year//|total load to main river, consisting of: net load of local stream, upstream load, point source loads (''Urban1-3''), water transfers (''Wtrans'') and groundwater load (''Rgrwmr''), as well as abstractions for irrigation etc.| | ||
+ | |''N''|//kg/year//|load to main river after including the effect of main river wetlands (defined in [[start:hype_file_reference:geodata.txt|GeoData.txt]], see also [[start:hype_model_description:hype_human_water&#constructed_wetlands|wetlands in model description]])| | ||
+ | |''O''|//kg/year//|load in main river, after river passage (river nutrient proesses)| | ||
+ | |''P''|//kg/year//|load in main river, after outlet wetland| | ||
+ | |''Q''|//kg/year//|load in main river with added inflow from lakebasins and regional ground water sources (''Rgrwmr'')| | ||
+ | |''R''|//kg/year//|net load in main river after outlet lake passage| | ||
+ | |''S''|//kg/year//|load in bifurcation branch (see [[start:hype_file_reference:branchdata.txt|BranchData.txt]])| | ||
+ | |||
+ | </sortable> |