Existing types of GDF

AIR QUALITY

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers specifying ‘matlab’ time
  • NO – vector of real numbers specifying concentration of nitrogen oxide
  • NO2 –vector of real numbers specifying concentration of nitrogen dioxide
  • NOx –vector of real numbers specifying concentration of nitrogen oxides
  • CO – vector of real numbers specifying concentration of carbon monoxide
  • PM10 – vector of real numbers specifying concentration of particulate matter PM10
  • O3 – vector of real numbers specifying concentration of ozone
  • CO2 – vector of real numbers specifying concentration of carbon dioxide
  • CH4 – vector of real numbers specifying concentration of methane
  • NMHC – vector of real numbers specifying concentration of non-methane hydrocarbons
  • THC – vector of real numbers specifying concentration of total hydrocarbons

Field details

FieldDescription

  • Date – Time of measurement
  • NO – Nitrogen oxide
  • NO2 – Nitrogen dioxide
  • NOx – Nitrogen oxides
  • CO – Carbon monoxide
  • PM10 – Particulate matter PM10 (particles that are 10 micrometers in diameter or smaller)
  • O3 – Ozone
  • CO2 – Carbon dioxide
  • CH4 – Methane
  • NMHC – Non-methane hydrocarbons
  • THC – Total hydrocarbons

FieldType

  • Date – 5
  • NO – 34
  • NO2 – 34
  • NOx – 34
  • CO – 44
  • PM10 – 34
  • O3 – 34
  • CO2 – 44
  • CH4 – 24
  • NMHC – 16
  • THC – 26

FieldUnit

  • Date – datenum
  • NO – ppb
  • NO2 – ppb
  • NOx – ppb
  • CO – ppb
  • PM10 – ug/m3
  • O3 – ppb
  • CO2 – ppm
  • CH4 – ppm
  • NMHC – ppmC
  • THC – ppmC

Files associated with format:

GDF_WYSIN_air_quality [Air Quality]

AIR STATIONS

Data details

‘d’ structure contains fields:


  • Station_codename – vector of char type specifying code name of the measurement device
  • Lat – vector of real numbers specifying latitude of logger
  • Long – vector of real numbers specifying longitude of logger

optional:

  • Description – vector of char type specifying description of the logger
  • Elevation  – vector of real numbers containing elevation above sea level of the logger
  • Depth  – vector of real numbers specifying depth of the logger
  • Sensor_type – vector of char type specifying type or name of the logger
  • Sample_rate – vector of char type specifying sample rate of the measurements
  • Parameter_unit – vector of char type specifying measurements parameter information
  • Start – vector of real numbers containing ‘matlab’ time of start operation of the logger
  • End – vector of real numbers containing ‘matlab’ time of end operation of the logger

Field details

FieldDescription

  • Station_codename – Code name of the station
  • Lat – Latitude of the station
  • Long – Longitude of the station

optional:

  • Description – Description of the station
  • Elevation  – Elevation of the station
  • Depth  – Depth of the station
  • Sensor_type – Type of the sensor
  • Sample_rate – Sample rate
  • Parameter_unit – Unit of the parameter
  • Start – Start time of data recording
  • End – End time of data recording

 FieldType

  • Station_codename – 3
  • Lat – 124
  • Long –134

optional:

  • Description – 3
  • Elevation  – 4
  • Depth  – 114
  • Sensor_type – 3
  • Sample_rate – 3
  • Parameter_unit – 3
  • Start – 5
  • End – 5

FieldUnit

  • Station_codename – char
  • Lat – deg
  • Long – deg

optional:

  • Description – char
  • Elevation  – m
  • Depth  – km
  • Sensor_type – char
  • Sample_rate – char
  • Parameter_unit – char
  • Start – datenum
  • End – datenum

Files associated with format:

  • GDF_WYSIN_air_stations [Air Stations]

ATMOSPHERIC PRESSURE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers specifying ‘matlab’ time
  • Atmospheric_pressure – vector of real numbers specifying atmospheric pressure
  • Air_temperature –vector of real numbers specifying air temperature

Field details

FieldDescription

  • Date – Time of measurement
  • Atmospheric_pressure – Atmospheric pressure
  • Air_temperature – Air temperature

FieldType

  • Date – 5
  • Atmospheric_pressure – 24
  • Air_temperature – 122

FieldUnit

  • Date – datenum
  • Atmospheric_pressure – mH2O
  • Air_temperature – Celcius deg

Files associated with format:

GDF_WYSIN_atmospheric_pressure [Atmospheric Pressure]

BLAST INFORMATION

Data details

‘d’ structure contains fields:

  • Blast target – vector of char type containing the name of mine area
  • Date – vector of real numbers containing ‘matlab’ time
  • Lat –real number of latitude coordinate
  • Long – real number of longitude coordinate
  • Elevation – real number of elevation

Field details

FieldDescription

  • Blast_target – Blast target
  • Date – Date of the blast
  • Lat – Latitude of the blast
  • Long – Longitude of the blast
  • Elevation – Elevation of the blast

FieldType

  • Blast target – 3
  • Date – 5
  • Lat –24
  • Long –24
  • Elevation – 4

FieldUnit

  • Blast target – char
  • Date – datenum
  • Lat –deg
  • Long – deg
  • Elevation – m

Files associated with format:

GDF_Pyhasalmi_blast_information [Blast Information]


BOTTOMHOLE PRESSURE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Bottomhole_pressure  vector of real numbers containing the bottomhole pressure

Field details

FieldDescription

  • Date – Time of fluid injection
  • Bottomhole_pressure – Bottomhole pressure

FieldType

  • Date – 5
  • Bottomhole_pressure – 34

FieldUnit

  • Date – datenum
  • Bottomhole_pressure – MPa

Files associated with format:

GDF_PREESEHALL_Bottomhole_Pressure [Bottomhole Pressure]



CARTESIAN STATION 

For specific networks, such as laboratory/underground-laboratory networks, the GDF file can be used to plot the station locations when cartesian coordinates (X, Y, Z) are provided instead of geographical coordinates.

Data details

‘d’ structure contains fields:

  • Station_codename – vector of char type specifying code name of the station
  • X – vector of real numbers containing local X coordinate of the station
  • Y – vector of real numbers containing local Y coordinate of the station
  • Z – vector of real numbers containing local Z coordinate of the station

optional:

  • Description – vector of char type specifying description of the station
  • Elevation  – vector of real numbers containing elevation above sea level of the station
  • Depth  – vector of real numbers specifying depth of the station
  • Sensor_type – vector of char type specifying type or name of the station
  • Sample_rate – vector of char type specifying sample rate of the measurements
  • Parameter_unit – vector of char type specifying measurements parameter information
  • Start – vector of real numbers containing ‘matlab’ time of start operation of the station
  • End – vector of real numbers containing ‘matlab’ time of end operation of the station
  • VX – unit vector of sensor orientation in 3D space - X direction
  • VY – unit vector of sensor orientation in 3D space - Y direction
  • VZ – unit vector of sensor orientation in 3D space - Z direction
  • Lat – real number specifying the latitude of the laboratory location
  • Long – real number specifying the longitude of the laboratory location

Field details

FieldDescription

  • Station_codename – Code name of the station
  • X – vector of real numbers containing local X coordinate of the station
  • Y – vector of real numbers containing local Y coordinate of the station
  • Z – vector of real numbers containing local Z coordinate of the station

optional:

  • Description – Description of the station
  • Elevation – Elevation of the station
  • Depth- Depth of the station
  • Sensor_type – Type of the sensor
  • Sample_rate – Sample rate
  • Parameter_unit – Unit of the parameter
  • Start – Start time of data recording
  • End – End time of data recording
  • VX – unit vector - X direction
  • VY – unit vector - Y direction
  • VZ – unit vector - Z direction
  • Lat – real number specifying the latitude of the laboratory location
  • Long - real number specifying the longitude of the laboratory location

FieldType

  • Station_codename – 3
  • X – 242
  • Y – 242
  • Z – 242

optional:

  • Description – 3
  • Elevation  – 4
  • Depth  – 114
  • Sensor_type – 3
  • Sample_rate – 3
  • Parameter_unit – 3
  • Start – 5
  • End – 5
  • VX – 114
  • VY – 114
  • VZ – 114
  • Lat – 124
  • Long –134

FieldUnit

  • Station_codename – char
  • X – m
  • Y – m
  • Z – m

optional:

  • Description – char
  • Elevation  – m
  • Depth  – km
  • Sensor_type – char
  • Sample_rate – char
  • Parameter_unit – char
  • Start – datenum
  • End – datenum
  • VX – unit vector
  • VY – unit vector
  • VZ – unit vector
  • Lat – deg
  • Long – deg

Files associated with format:

GDF_ASPO_Cartesian_Station_Network

CAVITY ROOF LEVEL

Data details

‘d’ structure contains fields:

  • Name – vector of char type specifying profile name of cavity roof measurement
  • Lat – vector of real numbers specifying latitude of cavity roof height
  • Long – vector of real numbers specifying longitude of cavity roof height
  • Elevation – vector of real numbers containing elevation above sea of cavity roof height

Field details

FieldDescription

  • Name – Profile name of cavity roof measurement
  • Lat – Latitude of cavity roof
  • Long – Longitude of cavity roof
  • Elevation – Elevation of cavity roof in meters above sea level

FieldType

  • Name – 3
  • Lat – 124
  • Long – 134
  • Elevation – 4

FieldUnit

  • Name – char
  • Lat – deg
  • Long – deg
  • Elevation – m

Files associated with format:

GDF_GISOS_cavity_roof_level 


COLLAR DRILLHOLE POSITION

Data details

‘d’ structure contains fields:

  • Name – vector of char type specifying name of collar drillhole
  • Lat – vector of real numbers specifying latitude of collar drillhole
  • Long – vector of real numbers specifying longitude of collar drillhole

optional:

  • Elevation – vector of real numbers containing elevation above sea of collar drillhole
  • Start_azimuth – vector of real numbers specifying azimuth of collar drillhole trajectory at specified depth
  • Start_dip – vector of real numbers specifying dip of collar drillhole trajectory at specified depth
  • Total_depth – vector of real numbers specifying total depth of collar drillhole
  • Total_length – vector of real numbers specifying total length of collar drillhole

Field details

FieldDescription

  • Name – Name of collar drillhole
  • Lat – Latitude of collar drillhole
  • Long – Longitude of collar drillhole
  • optional:
  • Elevation – Elevation of collar drillhole
  • Start_azimuth – Initial values of azimuth from true north
  • Start_dip – Initial values of dip
  • Total_depth – Total depth of collar drillhole
  • Total_length – Total length of collar drillhole

FieldType

  • Name – 3
  • Lat – 124
  • Long – 134
  • optional:
  • Elevation – 4
  • Start_azimuth – 4
  • Start_dip – 4
  • Total_depth – 4
  • Total_length – 4

FieldUnit

  • Name – char
  • Lat – deg
  • Long – deg
  • optional:
  • Elevation – m
  • Start_azimuth – deg
  • Start_dip – deg
  • Total_depth – m
  • Total_length – m

Files associated with format:

  • GDF_PYHASALMI_collar_drillhole_position [Collar Drillhole Position]


CONTINUOUS GEODETIC MEASUREMENTS

Data details

‘d’ structure contains fields:

  • Station_codename– variable of char type specifying code name of the station/measurement point
  • Date– vector of real numbers specifying ‘matlab’ time
  • Lat– variable of real numbers specifying latitude of the station/measurement point
  • Long– variable of real numbers specifying longitude of the station/measurement point
  • Elevation– variable of real numbers containing elevation in meters above sea level of the station/measurement point
  • Def_Up vector containing geodetic measurements for each station/ measurement point
  • Def_North vector containing geodetic measurements for each station/ measurement point
  • Def_East vector containing geodetic measurements for each station/ measurement point

Optional:

  • Description – variable of char type specifying description of the station/ measurement point
  • Up_error– vector containing error in determining the coordinate ‘Up’ values
  • North_error– vector containing error in determining the coordinate ‘North’ values
  • East_error– vector containing error in determining the coordinate ‘East’ values


Field details

FieldDescription

  • Station_codename– code name of the GNSS measurement device
  • Date– time of measurement for each GNSS station
  • Lat– latitude of the station/ measurement point
  • Long– longitude of the station/ measurement point
  • Elevation– height of each GNSS station/ measurement point
  • Def_Up vertical deformation for each station
  • Def_North horizontal deformation in „North” direction for each station
  • Def_East horizontal deformation in „East” direction for each station

Optional:

  • Description – description of the GNSS measurement device
  • Up_error– error in determining the coordinate „Up” in the topocentric system
  • North_error– error in determining the coordinate „North” in the topocentric system
  • East_error– error in determining the coordinate „East” in the topocentric system

FieldType

  • Station_codename– 3
  • Date– 5
  • Lat– 124
  • Long– 134
  • Elevation– 32
  • Def_Up 114
  • Def_North 114
  • Def_East 114

Optional:

  • Description – 3
  • Up_error– 14
  • North_error– 14
  • East_error– 14

FieldUnit

  • Station_codename– char
  • Date– datenum
  • Lat– deg
  • Long– deg
  • Elevation– m
  • Def_Up m
  • Def_North m
  • Def_East m

Optional:

  • Description – char
  • Up_error– m
  • North_error– m
  • East_error– m

Files associated with format:

  • GDF_MUSE2_Deformation_Monitoring_System_GNSS_continuous.mat



CUMULATIVE INJECTION

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Cumulative_injection – vector of real numbers containing the cumulative injection measured at a defined borehole

Field details

FieldDescription

  • Date – Time of cumulative fluid injection
  • Cumulative_injection – Cumulative injection

FieldType

  • Date – 5
  • Cumulative_injection – 7

FieldUnit

  • Date – datenum
  • Cumulative_injection – m3

Files associated with format:

  • GDF_TG_cum_inj_rate_prati_9 [Cumulative Injection]
  • GDF_TG_cum_inj_rate_prati_9_29 [Cumulative Injection]
  • GDF_TG_cum_inj_rate_prati_29 [Cumulative Injection]
  • GDF_TG_daily_cum_inj_rate_prati_9 [Cumulative Injection]
  • GDF_TG_daily_cum_inj_rate_prati_9_29 [Cumulative Injection]
  • GDF_TG_daily_cum_inj_rate_prati_29 [Cumulative Injection]


DOWNHOLE PRESSURE

Data details

‘d’ structure contains fields:

  • Name– vector of char type specifying name of the well where the measurement took place
  • Elevation– array of real numbers containing vectors of elevation values
  • Pressure– array of real numbers containing vectors of downhole pressure values

Optional:

  • Date– array of real numbers containing ‘matlab’ time
  • Depth– array of real numbers containing vectors of depth values

Field details

FieldDescription

  • Name – Code name of the well where the measurement took place
  • Elevation– Elevation of the downhole pressure measurement
  • Pressure– Downhole pressure

Optional:

  • Date– Date of measurement
  • Depth– Depth of the downhole pressure measurement

FieldType

  • Name– 3
  • Elevation– 142
  • Pressure– 24

Optional:

  • Date– 5
  • Depth– 142

FieldUnit

  • Name– char
  • Elevation– m
  • Pressure– MPa

Optional:

  • Date– datenum
  • Depth– m

Files associated with format:

  • GDF_ST_GALLEN_Downhole_Pressure_UP_Log.mat


DOWNHOLE TEMPERATURE

Data details

‘d’ structure contains fields:

  • Name– vector of char type specifying name of the well where the measurement took place
  • Elevation– array of real numbers containing vectors of elevation values
  • Temperature– array of real numbers containing vectors of downhole temperature values

Optional:

  • Date– array of real numbers containing ‘matlab’ time
  • Depth– array of real numbers containing vectors of depth values

Field details

FieldDescription

  • Name – Code name of the well where the measurement took place
  • Elevation– Elevation of the downhole temperature measurement
  • Temperature– Downhole temperature

Optional:

  • Date– Date of measurement
  • Depth– Depth of the downhole temperature measurement

FieldType

  • Name– 3
  • Elevation– 142
  • Temperature– 33

Optional:

  • Date– 5
  • Depth– 142

FieldUnit

  • Name– char
  • Elevation– m
  • Temperature– Celsius deg

Optional:

  • Date– datenum
  • Depth– m

Files associated with format:

  • GDF_ST_GALLEN_Downhole_Temperature_Up_Log.mat


DRILLHOLE LITHOLOGY

Note: Only one of the following fields can occur:  Length_ Depth_ Z_downwawrds_ - values on vertical axis grows down, Elevation_  Z_upwards - values on vertical axis grows up

Data details

‘d’ structure contains fields:

  • Name – vector of char type specifying name of collar drillhole
  • Length_from – array of real numbers containing vectors of start length position [in column]
  • Length_to – array of real numbers containing vectors of end length position [in column]
  • Lithology – array of char type specifying lithology at specified pipe length [in column]

optional:

  • Lithology_code – array of char type specifying code of lithology at specified pipe length [in column]
  • Rock_code – array of char type specifying numeric code of rock at specified pipe length
  • Lat – vector of real numbers specifying latitude of collar drillhole
  • Long – vector of real numbers specifying longitude of collar drillhole
  • Elevation – vector of real numbers specifying elevation of collar drillhole
  • Depth_from – array of real numbers containing vectors of start depth position [in column]
  • Depth_to – array of real numbers containing vectors of end depth position [in column]
  • Z_downwards_from – array of real numbers containing vectors of start Z position [in column], values counted downwards from surface 
  • Z_downwards_to – array of real numbers containing vectors of end Z position [in column], values counted downwards from surface 
  • Elevation_from – array of real numbers containing vectors of start elevation position [in column]
  • Elevation_to – array of real numbers containing vectors of end elevation position [in column]
  • Z_upwards_from – array of real numbers containing vectors of start Z position [in column], values counted upwards from surface 
  • Z_upwards_to – array of real numbers containing vectors of end Z position [in column], values counted upwards from surface 

Field details

FieldDescription

  • Name – Name of collar drillhole
  • Length_from – Start length position
  • Length_to – End length position
  • Lithology – Lithology at specified pipe length

optional:

  • Lithology_code – Code of lithology at specified pipe length
  • Rock_code – Numeric code of rock at specified pipe length
  • Lat – Latitude of collar drillhole
  • Long – Longitude of collar drillhole
  • Elevation – Elevation of collar drillhole
  • Depth_from – Start depth position
  • Depth_to – End depth position
  • Z_downwards_from – Start Z position
  • Z_downwards_to – End Z position
  • Elevation_from – Start elevation position
  • Elevation_to – End elevation position
  • Z_upwards_from – Start Z position
  • Z_upwards_to – End Z position

FieldType

  • Name – 3
  • Length_from – 4
  • Length_to – 4
  • Lithology – 3

optional:

  • Lithology_code – 3
  • Rock_code – 2
  • Lat – 4
  • Long – 4
  • Elevation – 4
  • Depth_from – 4
  • Depth_to – 4
  • Z_downwards_from – 4
  • Z_downwards_to – 4
  • Elevation_from – 4
  • Elevation_to – 4
  • Z_upwards_from – 4
  • Z_upwards_to – 4

FieldUnit

  • Name – char
  • Length_from – m
  • Length_to – m
  • Lithology – char

optional:

  • Lithology_code – char
  • Rock_code – dimensionless
  • Lat – deg
  • Long – deg
  • Elevation – m
  • Depth_from – m
  • Depth_to – m
  • Z_downwards_from – m
  • Z_downwards_to – m
  • Elevation_from – m
  • Elevation_to – m
  • Z_upwards_from – m
  • Z_upwards_to – m

Files associated with format:

  • GDF_PYHASALMI_drillhole_lithology [Drillhole Lithology]


FAULTS

Data details

‘d’ structure contains fields:

  • Lat – array of real numbers containing vectors of latitude coordinate of the fault [in column]
  • Long – array of real numbers containing vectors of longitude coordinate of the fault [in column]

optional:

  • Name – vector of char type specifying name of the fault

Field details

FieldDescription

  • Lat – Latitude of the faults
  • Long – Longitude of the faults

optional:

  • Name – Name of the fault or fault zone

FieldType

  • Lat – 124
  • Long – 134

optional:

  • Name – 3

FieldUnit

  • Lat – deg
  • Long – deg

optional:

  • Name – char

Files associated with format:

  • GDF_USCB_main_faults [Faults]
  • GDF_USCB_all_faults [Faults]

FLOWBACK BOTTOMHOLE PRESSURE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Flowback_bottomhole_pressure – vector of real numbers containing the flowback bottomhole pressure

Field details

FieldDescription

  • Date – Time of flowback bottomhole pressure
  • Flowback_bottomhole_pressure – Flowback bottomhole pressure

FieldType

  • Date – 5
  • Flowback_bottomhole_pressure – 34

FieldUnit

  • Date – datenum
  • Flowback_bottomhole_pressure – MPa

Files associated with format:

  • GDF_PREESEHALL_Flowback_Bottomhole_Pressure [Flowback Bottomhole Pressure]

FLOWBACK RATE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Flowback_rate – vector of real numbers containing the flowback rate

Field details

FieldDescription

  • Date – Time of flowback rate
  • Flowback_rate – Flowback rate

FieldType

  • Date – 5
  • Flowback_rate – 14

FieldUnit

  • Date – datenum
  • Flowback_rate – m3/min

Files associated with format:

  • GDF_PREESEHALL_Flowback_Rate [Flowback Rate]

FLOWBACK VOLUME

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Flowback_volume – vector of real numbers containing the flowback volume

Field details

FieldDescription

  • Date – Time of flowback volume
  • Flowback_volume – Flowback volume

FieldType

  • Date – 5
  • Flowback_volume – 44

FieldUnit

  • Date – datenum
  • Flowback_volume – m3

Files associated with format:

  • GDF_PREESEHALL_Flowback_Volume [Flowback Volume]


FRACKING PROCESS PARAMETERS

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers specifying ‘matlab’ time
  • Maximum_pressure –vector of real numbers specifying maximum obtained pressure
  • Total_proppant – vector of real numbers specifying total amount of proppant
  • Maximum_proppant_concentration – vector of real numbers specifying maximum concentration of proppant
  • Total_volume_of_slickwater – vector of real numbers specifying total volume of slickwater
  • Total_volume_of_injected_fluid – vector of real numbers specifying total volume of injected fluids (proppant, slickwater, HCl etc.)

optional:

  • Perforation_number – vector of real numbers specifying number of perforations
  • Mesh_100 –vector of real numbers specifying amount of proppant with size 100 mesh
  • Mesh_40_70 – vector of real numbers specifying amount of proppant with size 40/70 mesh
  • ISP_40_70 – vector of real numbers specifying amount of Intermediate Strength Proppant  with size 40/70 mesh
  • Resinated_40_70 – vector of real numbers specifying amount of resinated proppant with size 40/70 mesh
  • Sinterball_30_60 – vector of real numbers specifying amount of Sinterball proppant with size 30/60 mesh
  • NRT_20_40 – vector of real numbers specifying amount of Non-Radioactive Tracers proppant with size 20/40 mesh
  • Carbolite_30_50 – vector of real numbers specifying amount of Carbolite proppant with size 30/50 mesh
  • Slickwater_pump_down – vector of real numbers specifying volume of slickwater during pump down
  • Slickwater_main_operation– vector of real numbers specifying volume of slickwater during main fracking operation
  • Linear_gel – vector of real numbers specifying volume of linear gel
  • HCL – vector of real numbers specifying volume of HCl

Field details

FieldDescription

  • Date – 'Time of fracking stage'
  • Maximum_pressure –'Maximum pressure obtained during fracking stage'
  • Total_proppant – 'Total amount of proppant'
  • Maximum_proppant_concentration – 'Maximum proppant concentration'
  • Total_volume_of_slickwater – 'Total volume of slickwater'
  • Total_volume_of_injected_fluid – 'Total volume of injected fluid'

optional:

  • Perforation_number – 'Number of perforations performed at the particular fracking stage'
  • Mesh_100 –'Concentration of proppant with size 100 mesh'
  • Mesh_40_70 – 'Concentration of proppant with size 40/70 mesh'
  • ISP_40_70 – 'Concentration of Intermediate Strength Proppant with size 40/70 mesh'
  • Resinated_40_70 – 'Concentration of Resinated Proppant with size 40/70 mesh'
  • Sinterball_30_60 – 'Concentration of SinterBall Proppant with size 30/60 mesh'
  • NRT_20_40 – 'Concentration of Non-Radioactive Tracers proppant with size 20/40 mesh'
  • Carbolite_30_50 – 'Concentration of Carbolite Proppant with size 30/50 mesh'
  • Slickwater_pump_down – 'Slickwater volume during pump down'
  • Slickwater_main_operation– 'Slickwater volume during fracking main operation'
  • Linear_gel – 'Volume of linear gel'
  • HCL – 'Volume of HCL'

FieldType

  • Date – 5
  • Maximum_pressure –143
  • Total_proppant – 143
  • Maximum_proppant_concentration – 143
  • Total_volume_of_slickwater – 143
  • Total_volume_of_injected_fluid – 143

optional:

  • Perforation_number – 143
  • Mesh_100 –143
  • Mesh_40_70 – 143
  • ISP_40_70 – 143
  • Resinated_40_70 – 143
  • Sinterball_30_60 – 143
  • NRT_20_40 – 143
  • Carbolite_30_50 – 143
  • Slickwater_pump_down – 143
  • Slickwater_main_operation– 143
  • Linear_gel –143
  • HCL – 143

FieldUnit

  • Date – datenum
  • Maximum_pressure –bar
  • Total_proppant – ton
  • Maximum_proppant_concentration – kg/m3
  • Total_volume_of_slickwater – m3
  • Total_volume_of_injected_fluid – m3

optional:

  • Perforation_number – dimensionless
  • Mesh_100 –ton
  • Mesh_40_70 – ton
  • ISP_40_70 – ton
  • Resinated_40_70 – ton
  • Sinterball_30_60 – ton
  • NRT_20_40 – ton
  • Carbolite_30_50 – ton
  • Slickwater_pump_down – m3
  • Slickwater_main_operation– m3
  • Linear_gel –m3
  • HCL – m3

Files associated with format:

GDF_Wysin_Fracking_process_parameters_2H [Fracking Process Parameters]

GDF_Wysin_Fracking_process_parameters_3H [Fracking Process Parameters]


GEOAREA

Data details

‘d’ structure contains fields:

  • Lat – array of real numbers containing vectors of latitude coordinate [in column]
  • Long – array of real numbers containing vectors of longitude coordinate [in column]

Field details

FieldDescription

  • Lat – Latitude of the… (USCB boundary)
  • Long – Longitude of the… (USCB boundary)

FieldType

  • Lat – 124
  • Long – 134

FieldUnit

  • Lat – deg
  • Long – deg

Files associated with format:

  • GDF_USCB_boundary_of_USCB [Geoarea]


GEOPOLYGON 3D 

Data details

‘d’ structure contains fields:

  • Name  vector of char type specifying name of 3-D polygon 
  • Lat  vector of real numbers specifying latitude of 3-D polygon 
  • Long  vector of real numbers specifying longitude of 3-D polygon 
  • Elevation  vector of real numbers containing elevation above sea of 3-D polygon 

Field details

FieldDescription

  • Name  Name of 3-D polygon 
  • Lat  Latitude of 3-D polygon 
  • Long  Longitude of 3-D polygon 
  • Elevation  Elevation of 3-D polygon in meters above sea level 

FieldType

  • Name  3 
  • Lat  24 
  • Long  14 
  • Elevation  21 

FieldUnit

  • Name  char 
  • Lat  deg 
  • Long  deg 
  • Elevation  m 

Files associated with format:

  • GDF_GISOS_cavity_roof_geopolygon_3D


GNSS STATIONS

Data details

‘d’ structure contains fields:

  • Station_codename– vector of char type specifying code name of the measurement device
  • Lat– vector of real numbers specifying latitude of logger
  • Long– vector of real numbers specifying longitude of logger

optional:

  • Description– vector of char type specifying description of the logger
  • Elevation– vector of real numbers containing elevation above sea level of the logger
  • Depth– vector of real numbers specifying depth of the logger
  • Sensor_type– vector of char type specifying type or name of the logger
  • Sample_rate– vector of char type specifying sample rate of the measurements
  • Parameter_unit– vector of char type specifying measurements parameter information
  • Start– vector of real numbers containing ‘matlab’ time of start operation of the logger
  • End– vector of real numbers containing ‘matlab’ time of end operation of the logger

Field details

FieldDescription

  • Station_codename– Code name of the station
  • Lat– Latitude of the station
  • Long– Longitude of the station

optional:

  • Description– Description of the station
  • Elevation– Elevation of the station
  • Depth– Depth of the station
  • Sensor_type– Type of the sensor
  • Sample_rate– Sample rate
  • Parameter_unit– Unit of the parameter
  • Start– Start time of data recording
  • End– End time of data recording

 FieldType

  • Station_codename– 3
  • Lat– 124
  • Long–134

optional:

  • Description– 3
  • Elevation– 134
  • Depth– 114
  • Sensor_type– 3
  • Sample_rate– 3
  • Parameter_unit– 3
  • Start– 5
  • End– 5

FieldUnit

  • Station_codename– char
  • Lat– deg
  • Long– deg

optional:

  • Description– char
  • Elevation– m
  • Depth– km
  • Sensor_type– char
  • Sample_rate– char
  • Parameter_unit– char
  • Start– datenum
  • End– datenum

Files associated with format:

  • GDF_MUSE1_GNSS_Stations.mat


GRAVITY MONITORING

Data details

‘d’ structure contains fields:

  • Name – vector of char type specifying profile name gravity measurement
  • Lat – vector of real numbers specifying latitude of station/measurement point
  • Long – vector of real numbers specifying longitude of station/measurement point
  • Residual_gravity_anomaly – vector of real numbers containing Residual gravity anomaly values
  • Bouguer_gravity – vector of real numbers containing Bouger gravity values
  • Station_codename – vector of char type specifying code name of station/measurement point

Field details

FieldDescription

  • Name – Profile name of gravity measurement
  • Lat – Latitude of station/measurement point
  • Long – Longitude of station/measurement point
  • Residual_gravity_anomaly – Residual gravity anomaly
  • Bouguer_gravity – Bouger gravity
  • Station_codename – Code name of the station/measurement point

FieldType

  • Name – 3
  • Lat – 124
  • Long – 134
  • Residual_gravity_anomaly – 13
  • Bouguer_gravity – 13
  • Station_codename – 3

FieldUnit

  • Name – char
  • Lat – deg
  • Long – deg
  • Elevation – mGal
  • Bouguer_gravity – mGal
  • Station_codename – char

Files associated with format:

  • GDF_Northwich_gravity_monitoring

GRAVITY STATIONS

Data details

‘d’ structure contains fields:

  • Station_codename– vector of char type specifying code name of the measurement device
  • Lat– vector of real numbers specifying latitude of logger
  • Long– vector of real numbers specifying longitude of logger

optional:

  • Description– vector of char type specifying description of the logger
  • Elevation – vector of real numbers containing elevation above sea level of the logger
  • Depth – vector of real numbers specifying depth of the logger
  • Sensor_type– vector of char type specifying type or name of the logger
  • Sample_rate– vector of char type specifying sample rate of the measurements
  • Parameter_unit– vector of char type specifying measurements parameter information
  • Start– vector of real numbers containing ‘matlab’ time of start operation of the logger
  • End– vector of real numbers containing ‘matlab’ time of end operation of the logger

Field details

FieldDescription

  • Station_codename– Code name of the station
  • Lat– Latitude of the station
  • Long– Longitude of the station

optional:

  • Description– Description of the station
  • Elevation – Elevation of the station
  • Depth – Depth of the station
  • Sensor_type– Type of the sensor
  • Sample_rate– Sample rate
  • Parameter_unit– Unit of the parameter
  • Start– Start time of data recording
  • End– End time of data recording

 FieldType

  • Station_codename– 3
  • Lat– 124
  • Long–134

optional:

  • Description– 3
  • Elevation – 4
  • Depth – 114
  • Sensor_type– 3
  • Sample_rate– 3
  • Parameter_unit– 3
  • Start– 5
  • End– 5

FieldUnit

  • Station_codename– char
  • Lat– deg
  • Long– deg

optional:

  • Description– char
  • Elevation – m
  • Depth – km
  • Sensor_type– char
  • Sample_rate– char
  • Parameter_unit– char
  • Start– datenum
  • End– datenum

Files associated with format:

  • GDF_PREESALL_MINE_gravity_stations

GROUND WATER LEVEL

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers specifying ‘matlab’ time
  • Station_codename 1’ – vector of real numbers containing the ground water level for a specified station/place 1’ [m above sea level]
  • Station_codename 2’ – vector of real numbers containing the ground water level for a specified station/place 2’ [m above sea level]
  • Station_codename n’ – vector of real numbers containing the ground water level for a specified station/place n’ [m above sea level] 

Field details

FieldDescription

  • Date – Time of measurement
  • Station_codename 1’ – ground water level above sea level measured for a specified station/place 1’
  • Station_codename 2’ – ground water level above sea level measured for a specified station/place 2’
  • Station_codename n’ – ground water level above sea level measured for a specified station/place n’

FieldType

  • Date – 5
  • Station_codename 1’ – 32
  • Station_codename 2’ – 32
  • Station_codename n’ – 32

FieldUnit

  • Date – datenum
  • Station_codename 1’ – m
  • Station_codename 2’ – m
  • Station_codename n’ – m

Files associated with format:

  • GDF_GISOS_piezo_ground_water_level
  • GDF_GISOS_cavity_ground_water_level


 

INJECTION RATE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Injection_rate – vector of real numbers containing the injection rate measured at a defined point

Field details

FieldDescription

  • Date – Time of fluid injection
  • Injection_rate – Injection rate

FieldType

  • Date – 5
  • Injection_rate – 24 [34, 134]

FieldUnit

  • Date – datenum
  • Injection_rate – m3/min [l/s]

Files associated with format:

  • GDF_GS_Injection_Rate [Injection Rate]
  • GDF_PREESEHALL_Injection_Rate [Injection Rate]
  • GDF_TG_daily_inj_rate_prati_9 [Injection Rate]
  • GDF_TG_daily_inj_rate_prati_9_29 [Injection Rate]
  • GDF_TG_daily_inj_rate_prati_29 [Injection Rate]
  • GDF_TG_inj_rate_prati_9 [Injection Rate]
  • GDF_TG_inj_rate_prati_9_29 [Injection Rate]
  • GDF_TG_inj_rate_prati_29 [Injection Rate]

INJECTION RATE MULTI

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • 'Well number 1' – vector of real numbers containing the injection rate measured for a specified well no. 1
  • 'Well number 2' – vector of real numbers containing the injection rate measured for a specified well no. 2
  • ...
  • 'Well number n' – vector of real numbers containing the injection rate measured for a specified well no. n

Field details

FieldDescription

  • Date – Time of fluid injection
  • 'Well number 1' – Injection rate measured for a specified well no. 1
  • 'Well number 2' – Injection rate measured for a specified well no. 2
  • ...
  • 'Well number n' – Injection rate measured for a specified well no. n

FieldType

  • Date – 5
  • 'Well number 1'  – 24 [34, 134]
  • 'Well number 2'  – 24 [34, 134]
  • ...
  • 'Well number n'  – 24 [34, 134]

FieldUnit

  • Date – datenum
  • 'Well number 1'  – m3/s
  • 'Well number 2'  – m3/s
  • ...
  • 'Well number n' – m3/s

Files associated with format:

  • GDF_OK_Injection_rate_multi.mat [Injection Rate Multi]


INJECTION VOLUME

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Injection_volume – vector of real numbers containing the volume of injected fluid

Field details

FieldDescription

  • Date – Time of injected volume
  • Injection_volume – Injected volume

FieldType

  • Date – 5
  • Injection_volume – 54

FieldUnit

  • Date – datenum
  • Injection_volume – m3

Files associated with format:

  • GDF_PREESEHALL_Injection_Volume [Injection Volume]

INJECTION VOLUME MULTI

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • 'Well number 1' – vector of real numbers containing the volume of injected fluid for a specified well no. 1
  • 'Well number 2' – vector of real numbers containing the volume of injected fluid for a specified well no. 2
  • ...
  • 'Well number n' – vector of real numbers containing the volume of injected fluid for a specified well no. n

Field details

FieldDescription

  • Date – Time of injected volume
  • 'Well number 1' –  Injected volume for a specified well no. 1
  • 'Well number 2' –  Injected volume for a specified well no. 2
  • ...
  • 'Well number n' –  Injected volumefor a specified well no. n

FieldType

  • Date – 5
  • 'Well number 1' – 54
  • 'Well number 2' –  54
  • ...
  • 'Well number n' – 54

FieldUnit

  • Date – datenum
  • 'Well number 1' –  m3
  • 'Well number 2' –   m3
  • ...
  • 'Well number n' –  m3

Files associated with format:

  • GDF_OK_Injection_volume_multi.mat [Injection Volume Multi]


INSITU DEFORMATION

Data details

‘d’ structure contains fields:

  • Station_codename – variable of char type specifying code name of the measurement device
  • Lat – variable of real numbers specifying latitude of logger
  • Long – variable of real numbers specifying longitude of logger
  • Date – vector containing measurement date for each station
  • DefZvector containing vertical deformation for each station

optional:

  • DefX – vector containing horizontal deformation in X direction for each station
  • DefY–  vector containing horizontal deformation in Y direction for each station
  • Depth – vector of real numbers specifying depth of logger
  • Elevation – vector of real numbers containing elevation in meters above sea level

Field details

FieldDescription

  • Station_codename – Code name of the station of measurement (e.g. target points for GPS, tacheometer and anchored borehole extensometer)
  • Lat – Initial latitude of station/measurement point
  • Long – Initial longitude of station/measurement point
  • Date – Date of measurement for each station
  • DefZMeasurement of deformation in vertical direction relative to initial station position (describe convention, e.g. downward negative; upward positive)

optional:

  • DefX – Measurement of horizontal deformation in X direction relative to initial station position (describe convention, e.g. positive towards East)
  • DefY – Measurement of horizontal deformation in Y direction relative to initial station position (describe convention, e.g. positive towards North)
  • Depth – Depth of each station from surface
  • Elevation – Elevation of each station in meters above sea level

FieldType

  • Station_codename – 3
  • Lat – 24
  • Long – 14
  • Date – 5
  • DefZ – 1

optional:

  • DeflX – 1
  • DeflY – 1
  • Depth – 14
  • Elevation – 1

FieldUnit

  • Station_codename – char
  • Lat – deg
  • Long – deg
  • Date – datenum
  • DefZ – m

optional:

  • DeflX – m
  • DeflY – m
  • Depth – km
  • Elevation – m

Files associated with format:

GDF_GISOS_GPS_insitu_deformation.mat

INSITU TEMPERATURE

Data details

‘d’ structure contains fields:

  • Date – variable of char type specifying measurement time
  • Sensor_1vector of real numbers containing rock temperature measured by sensor 1
  • Sensor_nvector containing rock temperature measured by sensor n

Field details

FieldDescription

  • Date – Time of temperature measurement
  • Sensor_1 – Rock temperature measurement by sensor_1
  • Sensor_n – Rock temperature measurement by sensor_n 

FieldType

  • Date – 5
  • Sensor_1 – 22
  • Sensor_n – 22

FieldUnit

  • Date –datenum
  • Sensor_1 – Celcious deg
  • Sensor_n – Celcious deg

Files associated with format:

  • GDF_STARFISH_insitu_temperature

INSITU TEMPERATURE STATIONS

Data details

‘d’ structure contains fields:

  • Station_codename – vector of char type specifying code name of the logger
  • Lat – vector of real numbers specifying latitude of the logger
  • Long – vector of real numbers specifying longitude of the logger

optional:

  • Description – vector of char type specifying description of the logger
  • Elevation  – vector of real numbers containing elevation above sea level of the logger
  • Depth  – vector of real numbers specifying depth of the logger
  • Sensor_type – vector of char type specifying type or name of the logger
  • Sample_rate – vector of char type specifying sample rate of the measurements
  • Parameter_unit – vector of char type specifying measurements parameter information
  • Start – vector of real numbers containing ‘matlab’ time of start operation of the logger
  • End – vector of real numbers containing ‘matlab’ time of end operation of the logger
  • X – vector of real numbers containing local X coordinate of the logger
  • Y – vector of real numbers containing local Y coordinate of the logger
  • Z – vector of real numbers containing local Z coordinate of the logger

Field details

FieldDescription

  • Station_codename – Code name of the station
  • Lat – Latitude of the station
  • Long – Longitude of the station

optional:

  • Description – Description of the station
  • Elevation  – Elevation of the station
  • Depth  – Depth of the station
  • Sensor_type – Type of the sensor
  • Sample_rate – Sample rate
  • Parameter_unit – Unit of the parameter
  • Start – Start time of data recording
  • End – End time of data recording
  • X – Local X coordinate of the station
  • Y – Local Y coordinate of the station
  • Z – Local Z coordinate of the station

FieldType

  • Station_codename – 3
  • Lat – 124
  • Long –134

optional:

  • Description – 3
  • Elevation  – 4
  • Depth  – 114
  • Sensor_type – 3
  • Sample_rate – 3
  • Parameter_unit – 3
  • Start – 5
  • End – 5
  • X – 12
  • Y – 12
  • Z – 12

FieldUnit

  • Station_codename – char
  • Lat – deg
  • Long – deg

optional:

  • Description – char
  • Elevation  – m
  • Depth  – km
  • Sensor_type – char
  • Sample_rate – char
  • Parameter_unit – char
  • Start – datenum
  • End – datenum
  • X – m
  • Y – m
  • Z – m

Files associated with format:

  • GDF_STARFISH_insitu_temperature_stations


INTERVAL PRESSURE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing 'matlab' time
  • Interval_pressure – vector of real numbers containing pressure measurements at a specified depth in the borehole

Optional:

  • Borehole – vector of char type specifying name of the borehole in which the measurement took place
  • Depth – vector of real numbers containing the depth in the borehole where the measurement took place

Field details

FieldDescription

  • Date – vector of real numbers containing ‘matlab’ time
  • Interval_pressure – vector of real numbers containing pressure values

Optional:

  • Borehole – name of the borehole in which the measurement took place
  • Depth – borehole depth in which the interval pressure was measured

FieldType

  • Date – 5
  • Interval_pressure – 24

Optional:

  • Borehole – 3
  • Depth – 22

FieldUnit

  • Date– datenum
  • Interval_pressure– MPa

Optional:

  • Borehole – char
  • Depth – m

Files associated with format:

  • GDF_STIMTEC_Interval_Pressure.mat

INTERVAL VELOCITY MODEL

Data details

‘d’ structure contains fields:

  • Depth– vector of real numbers containing the depth of measured velocity
  • V_int– vector of real numbers containing the interval velocity information

Optional:

  • TWT– vector of real numbers containing two-way-time information

Field details

FieldDescription

  • Depth – Depth of measured velocity (depth of the layer)
  • V_int– Interval velocity information

Optional:

  • TWT– Two-way-time information

FieldType

  • Depth– 20
  • V_int– 12

Optional:

  • TWT– 20

FieldUnit

  • Depth– m
  • V_int– m/s

Optional:

  • TWT– ms

Files associated with format:

  • GDF_ST_GALLEN_Interval_velocity_model_TWT.mat 

MECHANICAL DATA

Data details

‘d’ structure contains fields:

  • Time – vector of real numbers specifying measurement time since the beginning of the experiment.

optional:

  • AE_Rate – vector of real numbers containing the number of Acoustic Emission occurrence with time.
  • Axial_Stress – vector of real numbers containing measurements of stress in axial direction
  • Confining_Pressure – vector of real numbers containing measurements of stress uniform in horizontal direction
  • Injection_Rate – vector of real numbers containing the injection rate
  • Injection_Volume – vector of real numbers containing the volume of injected fluid
  • Pore_Pressure  – vector of real numbers containing measurements of pore pressure during the experiment
  • Effective_Normal_Stress – vector of real numbers containing estimates of effective normal stress on the saw-cut fault plane
  • Shear_Stress – vector of real numbers containing shear stress on the saw-cut fault plane
  • Fault_Slip – vector of real numbers containing measurements of fault slip on the saw-cut fault plane
  • Fault_Slip_Velocity – vector of real numbers containing measurements of fault slip velocity
  • Vertical_Strain_Gauge_1 – vector of real numbers containing strain measurements in vertical Z direction of strain gauge 1
  • Vertical_Strain_Gauge_2  vector of real numbers containing strain measurements in vertical Z direction of strain gauge 2
  • Vertical_Strain_Gauge_3 – vector of real numbers containing strain measurements in vertical Z direction of strain gauge 3
  • Horizontal_Strain_Gauge_1 – vector of real numbers containing strain measurements in horizontal direction of strain gauge 1
  • Horizontal_Strain_Gauge_2 – vector of real numbers containing strain measurements in horizontal direction of strain gauge 2
  • Horizontal_Strain_Gauge_3 – vector of real numbers containing strain measurements in horizontal direction of strain gauge 3

Field details

FieldDescription

  • Time – Time since the beginning of the experiment.

optional:

  • AE Rate - Acoustic Emission Rate with time.
  • Axial_Stress - Axial Stress measured using an internal load cell with an accuracy of +/- 0.05 MPa
  • Confining_Pressure - Uniform horizontal stress measured using an internal load cell
  • Injection_Rate - Fluid Injection Rate
  • Injection_Volume – Volume of Injected Fluid
  • Pore_Pressure - Pore Pressure measured with the system Quizix 6000
  • Effective_Normal_Stress - Effective Normal Stress results from normal stress acting on the saw-cut fault plane minus pore pressure
  • Shear_Stress - Shear Stress resolved on the saw-cut fault plane
  • Fault_Slip – Fault Slip determined from total axial displacement minus deformation of the loading frame and rock matrix
  • Fault_Slip_Velocity – Measured Fault Slip Velocity
  • Vertical_Strain_Gauge_1 – Data of vertical strain gauge No. 1
  • Vertical_Strain_Gauge_2 – Data of vertical strain gauge No. 2
  • Vertical_Strain_Gauge_3 – Data of vertical strain gauge No. 3
  • Horizontal_Strain_Gauge_1 – Data of horizontal strain gauge No. 1
  • Horizontal_Strain_Gauge_2 – Data of horizontal strain gauge No. 2
  • Horizontal_Strain_Gauge_3 – Data of horizontal strain gauge No. 3

FieldType

  • Time – 47, 412

optional:

  • AE_Rate – 36
  • Axial_Stress – 36
  • Confining_Pressure – 36
  • Injection_Rate – 14
  • Injection_Volume – 26
  • Pore_Pressure – 26
  • Effective_Normal_Stress – 26
  • Shear_Stress – 26
  • Fault_Slip – 16
  • Fault_Slip_Velocity – 16
  • Vertical_Strain_Gauge_1 – 110
  • Vertical_Strain_Gauge_2 – 110
  • Vertical_Strain_Gauge_3 – 110
  • Horizontal_Strain_Gauge_1 – 110
  • Horizontal_Strain_Gauge_2 – 110
  • Horizontal_Strain_Gauge_3 – 110

FieldUnit

  • Time – s

optional:

  • AE_Rate – Hz
  • Axial_Stress – MPa
  • Confining_Pressure – MPa
  • Injection_Rate – ml/min
  • Injection_Volume – ml
  • Pore_Pressure – MPa
  • Effective_Normal_Stress – MPa
  • Shear_Stress – MPa
  • Fault_Slip – mm
  • Fault_Slip_Velocity – mm/s
  • Vertical_Strain_Gauge_1 – m/m
  • Vertical_Strain_Gauge_2 – m/m
  • Vertical_Strain_Gauge_3 – m/m
  • Horizontal_Strain_Gauge_1 – m/m
  • Horizontal_Strain_Gauge_2 – m/m
  • Horizontal_Strain_Gauge_3 – m/m

Files associated with format:

  • GDF_Mechanical_Data


MINE AREA

Data details

‘d’ structure contains fields:

  • Name – vector of char type containing the name of mine area
  • Lat – array of real numbers containing vectors of latitude coordinate [in column]
  • Long – array of real numbers containing vectors of longitude coordinate [in column]

Field details

FieldDescription

  • Name – Mine name
  • Lat – Latitude of the mine boundary
  • Long – Longitude of the mine boundary

FieldType

  • Name – 3
  • Lat – 124
  • Long – 134

FieldUnit

  • Name – char
  • Lat – deg
  • Long – deg

Files associated with format:

  • GDF_LGCD_mine_areas [Mine Area]
  • GDF_USCB_closed_mines_areas [Mine Area]
  • GDF_USCB_Experimental_Mine_Barbara_mine_area [Mine Area]
  • GDF_USCB_Jastrzebska_Spolka_Weglowa_SA_mines_areas [Mine Area]
  • GDF_USCB_Katowicki_Holding_Weglowy_SA_mines_areas [Mine Area]
  • GDF_USCB_Kompania_Weglowa_SA_mines_areas [Mine Area]
  • GDF_USCB_KWK_Bobrek_Centrum_mine_area [Mine Area]
  • GDF_USCB_NWR_KARBONIA_Sp_z_oo_mine_area [Mine Area]
  • GDF_USCB_coal_mine_areas_in_USCB [Mine Area]
  • GDF_USCB_Poludniowy_Koncern_Weglowy_SA_mines_areas [Mine Area]
  • GDF_USCB_ZG_EKO_Plus_Sp_z_oo_mine_area [Mine Area]
  • GDF_USCB_ZG_SILTECH_Sp_z_oo_mine_area [Mine Area]


MINING FRONT ADVANCE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Lat – array of real numbers containing vectors of latitude coordinate [in row]  
  • Long – array of real numbers containing vectors of longitude [in row]
  • Elevation – array of real numbers containing vectors of elevation in meters above sea level [in row]

Field details

FieldDescription

  • Date – Time of front advance
  • Lat – Latitude of mining front
  • Long – Longitude of mining front
  • Elevation – Elevation of mining front [meters above sea level]

FieldType

  • Date – 5
  • Lat – 124
  • Long – 134
  • Elevation – 144

FieldUnit

  • Date – datenum
  • Lat – deg
  • Long – deg
  • Elevation – m

Files associated with format:

  • GDF_BOBREK_mining_front_advance_EPSG4326 [Mining Front Advance]


MINING POLYGON ADVANCE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Lat – array of real numbers containing vectors of latitude coordinate [in row]  
  • Long – array of real numbers containing vectors of longitude coordinate [in row]
  • Elevation – array of real numbers containing vectors of elevation in meters above sea level [in row]

Field details

FieldDescription

  • Date – Time of mining polygon advance
  • Lat – Latitude of mining polygon
  • Long – Longitude of mining polygon
  • Elevation – Elevation of mining polygon [meters above sea level]

FieldType

  • Date – 5
  • Lat – 124
  • Long – 134
  • Elevation – 144

FieldUnit

  • Date – datenum
  • Lat – deg
  • Long – deg
  • Elevation – m

Files associated with format:

  • GDF_BOBREK_mining_polygon_advance_EPSG4326 [Mining Polygon Advance]


NATURAL GAS PRODUCTION

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers specifying ‘matlab’ time
  • Amsweer – vector of real numbers specifying gas production of Amsweer cluster
  • Bierum – vector of real numbers specifying gas production of Bierum cluster
  • De_Eeker – vector of real numbers specifying gas production of De Eeker cluster
  • De_Paauwen – vector of real numbers specifying gas production of De Paauwen cluster
  • Eemskanaal – vector of real numbers specifying gas production of Eemskanaal cluster
  • Kooipolder – vector of real numbers specifying gas production of Kooipolder cluster
  • Leermens – vector of real numbers specifying gas production of Leermens cluster
  • Oudeweg – vector of real numbers specifying gas production of Oudeweg cluster
  • Overschild – vector of real numbers specifying gas production of Overschild cluster
  • Schaapbulten – vector of real numbers specifying gas production of Schaapbulten cluster
  • Scheemderzwaag – vector of real numbers specifying gas production of Scheemderzwaag cluster
  • Siddeburen – vector of real numbers specifying gas production of Siddeburen cluster
  • Slochteren – vector of real numbers specifying gas production of Slochteren cluster
  • Spitsbergen – vector of real numbers specifying gas production of Spitsbergen cluster
  • Ten_Post – vector of real numbers specifying gas production of Ten Post cluster
  • Tjuchem – vector of real numbers specifying gas production of Tjuchem cluster
  • Tusschenklappen – vector of real numbers specifying gas production of Tusschenklappen cluster
  • t_Zandt – vector of real numbers specifying gas production of t Zandt cluster
  • Zuiderpolder – vector of real numbers specifying gas production of Zuiderpolder cluster
  • Zuiderveen – vector of real numbers specifying gas production of Zuiderveen cluster

Field details

FieldDescription

  • Date – Date
  • Amsweer – Amsweer
  • Bierum – Bierum
  • De_Eeker – De Eeker
  • De_Paauwen – De Paauwen
  • Eemskanaal – Eemskanaal
  • Kooipolder – Kooipolder
  • Leermens – Leermens
  • Oudeweg – Oudeweg
  • Overschild – Overschild
  • Schaapbulten – Schaapbulten
  • Scheemderzwaag – Scheemderzwaag
  • Siddeburen – Siddeburen
  • Slochteren – Slochteren
  • Spitsbergen – Spitsbergen
  • Ten_Post – Ten Post
  • Tjuchem – Tjuchem
  • Tusschenklappen – Tusschenklappen
  • t_Zandt – t Zandt
  • Zuiderpolder – Zuiderpolder
  • Zuiderveen – Zuiderveen

FieldType

  • Date – 5
  • Amsweer – 12
  • Bierum – 12
  • De_Eeker – 12
  • De_Paauwen – 12
  • Eemskanaal – 12
  • Kooipolder – 12
  • Leermens – 12
  • Oudeweg – 12
  • Overschild – 12
  • Schaapbulten – 12
  • Scheemderzwaag – 12
  • Siddeburen – 12
  • Slochteren – 12
  • Spitsbergen – 12
  • Ten_Post – 12
  • Tjuchem – 12
  • Tusschenklappen – 12
  • t_Zandt – 12
  • Zuiderpolder – 12
  • Zuiderveen – 12

FieldUnit

  • Date – datenum
  • Amsweer – mln Nm3
  • Bierum – mln Nm3
  • De_Eeker – mln Nm3
  • De_Paauwen – mln Nm3
  • Eemskanaal – mln Nm3
  • Kooipolder – mln Nm3
  • Leermens – mln Nm3
  • Oudeweg – mln Nm3
  • Overschild – mln Nm3
  • Schaapbulten – mln Nm3
  • Scheemderzwaag – mln Nm3
  • Siddeburen – mln Nm3
  • Slochteren – mln Nm3
  • Spitsbergen – mln Nm3
  • Ten_Post – mln Nm3
  • Tjuchem – mln Nm3
  • Tusschenklappen – mln Nm3
  • t_Zandt – mln Nm3
  • Zuiderpolder – mln Nm3
  • Zuiderveen – mln Nm3

Files associated with format:

GDF_GRONINGEN_natural_gas_production_monthly [Natural Gas Production]

GDF_GRONINGEN_natural_gas_production_yearly [Natural Gas Production]

OIL PRODUCTION

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers specifying ‘matlab’ time
  • Name_1 – vector of real numbers specifying oil production of Name_1
  • Name_2– vector of real numbers specifying oil production of Name_2
  • ... – vector of real numbers specifying oil production of ...
  • Name_N – vector of real numbers specifying oil production of Name_N

Field details

FieldDescription

  • Date – Time of oil production
  • Name_1 – Oil Production
  • Name_2 – Oil Production
  • ... – Oil Production
  • Name_N – Oil Production

FieldType

  • Date – 5
  • Name_1 – 4
  • Name_2 – 4
  • ... – 4
  • Name_N – 4

FieldUnit

  • Date – datenum
  • Name_1 – m3
  • Name_2  – m3
  • ... – m3
  • Name_N – m3

Files associated with format:

GDF_EMILIA_ROMAGNA_oil_production_monthly [Oil Production]


PERIODIC GEODETIC MEASUREMENTS

Data details

‘d’ structure contains fields:

  • Station_codename– variable of char type specifying code name of the station/measurement point
  • Date– vector of real numbers specifying ‘matlab’ time
  • Lat– variable of real numbers specifying latitude of the station/measurement point
  • Long– variable of real numbers specifying longitude of the station/measurement point
  • Elevation– variable of real numbers containing elevation in meters above sea level of the station/measurement point
  • Def_Up vector containing geodetic measurements for each station/ measurement point
  • Def_North vector containing geodetic measurements for each station/ measurement point
  • Def_East vector containing geodetic measurements for each station/ measurement point

Optional:

  • Description – variable of char type specifying description of the station/ measurement point
  • Up_error– vector containing error in determining the coordinate ‘Up’ values
  • North_error– vector containing error in determining the coordinate ‘North’ values
  • East_error– vector containing error in determining the coordinate ‘East’ values


Field details

FieldDescription

  • Station_codename– code name of the GNSS measurement device
  • Date– time of measurement for each GNSS station
  • Lat– latitude of the station/ measurement point
  • Long– longitude of the station/ measurement point
  • Elevation– height of each GNSS station/ measurement point
  • Def_Up vertical deformation for each station
  • Def_North horizontal deformation in „North” direction for each station
  • Def_East horizontal deformation in „East” direction for each station

Optional:

  • Description – description of the GNSS measurement device
  • Up_error– error in determining the coordinate „Up” in the topocentric system
  • North_error– error in determining the coordinate „North” in the topocentric system
  • East_error– error in determining the coordinate „East” in the topocentric system

FieldType

  • Station_codename– 3
  • Date– 5
  • Lat– 124
  • Long– 134
  • Elevation– 32
  • Def_Up 114
  • Def_North 114
  • Def_East 114

Optional:

  • Description – 3
  • Up_error– 14
  • North_error– 14
  • East_error– 14

FieldUnit

  • Station_codename– char
  • Date– datenum
  • Lat– deg
  • Long– deg
  • Elevation– m
  • Def_Up m
  • Def_North m
  • Def_East m

Optional:

  • Description – char
  • Up_error– m
  • North_error– m
  • East_error– m

Files associated with format:

  • GDF_MUSE1_Deformation_Monitoring_System_GNSS_campaign.mat


PERIODIC GRAVIMETRIC MEASUREMENTS

Data details

‘d’ structure contains fields:

  • Station_codename– variable of char type specifying code name of the station/measurement point
  • Date– vector of real numbers specifying ‘matlab’ time
  • Lat– variable of real numbers specifying latitude of the station/measurement point
  • Long– variable of real numbers specifying longitude of the station/measurement point
  • Elevation– variable of real numbers containing elevation in meters above sea level of the station/measurement point
  • Gravity vector containing gravitational measuremenst for each station/ measurement point

Optional:

  • Gradient– vector containing vertical gradient of gravitational measuremensts for each station/ measurement point
  • T_U– vector of total uncertainty values
  • StdErr– vector containing standard error values


Field details

FieldDescription

  • Station_codename– code name of the station
  • Date– date of measurement
  • Lat– latitude of the station
  • Long– longitude of the station
  • Elevation– elevation of the station
  • Gravity gravitational acceleration (absolute/relative)

Optional:

  • Gradient– vertical gradient of gravitational acceleration
  • T_U– total uncertainty
  • StdErr– standard error of measurement

FieldType

  • Station_codename– 3
  • Date– 5
  • Lat– 124
  • Long– 134
  • Elevation– 32
  • Gravity 196

Optional:

  • Gradient– 23
  • T_U– 11
  • StdErr– 21

FieldUnit

  • Station_codename– char
  • Date– datenum
  • Lat– deg
  • Long– deg
  • Elevation– m
  • Gravity µGal

Optional:

  • Gradient– µGal/m
  • T_U– µGal
  • StdErr– µGal

Files associated with format:

  • GDF_MUSE1_Relative_Gravity.mat
  • GDF_MUSE1_Absolute_Gravity.mat


POWER PLANT POSITION

Data details

‘d’ structure contains fields:

  • Name – vector of char type specifying code name of the power plant
  • Lat – vector of real numbers specifying latitude of the power plant
  • Long – vector of real numbers specifying longitude of the power plant
  • ID – vector of char type specifying ID of the power plant

Field details

FieldDescription

  • Name – Name of the power plant
  • Lat – Latitude of the power plant
  • Long – Longitude of the power plant
  • ID – ID of the power plant

FieldType

  • Name – 3
  • Lat – 124
  • Long – 134
  • ID – 3

FieldUnit

  • Name – char
  • Lat – deg
  • Long – deg
  • ID – char

Files associated with format:

  • GDF_TG_powerplants_position [Powerplant Position]


PRODUCTION CLUSTER POSITION

Data details

‘d’ structure contains fields:

  • Name – vector of char type specifying name of the production cluster
  • Lat – vector of real numbers specifying latitude of the production cluster
  • Long – vector of real numbers specifying longitude of the production cluster

optional:

  • Abbreviation – vector of char type specifying abbreviation of the production cluster name
  • X – vector of real numbers specifying X coordinate of the production cluster EPSG:28992
  • Y – vector of real numbers specifying Y coordinate of the production cluster EPSG: 28992
  • ID – vector of integer number type specifying ID of the production cluster

Field details

FieldDescription

  • Name – Name of the production cluster
  • Lat – Latitude of the production cluster
  • Long – Longitude of the production cluster

optional:

  • Abbreviation – Abbreviation of the production cluster name
  • X – X coordinate of the production cluster EPSG: 28992
  • Y – Y coordinate of the production cluster EPSG: 28992
  • ID – ID of the production cluster

FieldType

  • Name – 3
  • Lat – 124
  • Long – 134

optional:

  • Abbreviation – 3
  • X – 4
  • Y – 4
  • ID – 2

FieldUnit

  • Name – char
  • Lat – deg
  • Long – deg

optional:

  • Abbreviation – char
  • X – m
  • Y – m
  • ID – char

Files associated with format:

  • GDF_GRONINGEN_production_cluster_position [Production Cluster Position]

PROPPANT CONCENTRATION

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers specifying ‘matlab’ time
  • Proppant_concentration – vector of real numbers specifying concentration of proppant

Field details

FieldDescription

  • Date – Time of measurement
  • Proppant_concentration – Proppant concentration

FieldType

  • Date – 5
  • Proppant_concentration – 54

FieldUnit

  • Date – datenum
  • Proppant_concentration – kg/m3

Files associated with format:

  • GDF_PREESEHALL_Proppant_Concentration [Proppant Concentration]

RADON 222 CONCENTRATION

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers specifying ‘matlab’ time
  • Radon222 – vector of real numbers specifying concentration of Radon 222

Field details

FieldDescription

  • Date – Time of measurement
  • Radon222 – Radon 222

FieldType

  • Date – 5
  • Radon222 – 34

FieldUnit

  • Date – datenum
  • Radon222 – Bq/m3

Files associated with format:

  • GDF_WYSIN_radon222 [Radon 222 Concentration]

RAY TRACING ANGLES

Data details

‘d’ structure contains fields:

  • Epicentral_distance – vector of real numbers containing distance from event to point
  • Depth – vector of real numbers containing depth below elevation
  • Vp – vector of real numbers containing velocity of P wave
  • Distance – vector of real numbers containing ray path distance
  • Take_off_angle – vector of real numbers containing take-off angle
  • Incidence_angle – vector of real numbers containing incidence angle

Field details

FieldDescription

  • Epicentral_distance – Distance from event to point  
  • Depth – Depth below elevation  
  • Vp – Velocity of P wave
  • Distance – Raypath distance
  • Take_off_angle – Take-off angle
  • Incidence_angle –  Incidence angle

FieldType

  • Epicentral_distance – 24
  • Depth – 34
  • Vp – 14
  • Distance – 24
  • Take_off_angle – 34
  • Incidence_angle – 24

FieldUnit

  • Epicentral_distance – m
  • Depth – m
  • Vp – m/s
  • Distance – m
  • Take_off_angle – angle
  • Incidence_angle – angle

Files associated with format:

  • GDF_BOBREK_ray_tracing_table [Ray Tracing Angles]
  • GDF_CZORSZTYN_ray_tracing_table [Ray Tracing Angles]
  • GDF_GS_ray_tracing_table [Ray Tracing Angles]
  • GDF_LGCD_ray_tracing_table [Ray Tracing Angles]
  • GDF_SONG_TRANH_ray_tracing_table [Ray Tracing Angles]
  • GDF_USCB_ray_tracing_table [Ray Tracing Angles]


RESERVOIR PRESSURE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Reservoir_pressure –  vector of real numbers containing the reservoir pressure

Field details

FieldDescription

  • Date – Time of fluid injection
  • Reservoir_pressure – Reservoir pressure

FieldType

  • Date – 5
  • Reservoir_pressure – 34

FieldUnit

  • Date – datenum
  • Reservoir_pressure – MPa

Files associated with format:

GDF_LACQ_reservoir_pressure


ROCK TEMPERATURE

Data details

‘d’ structure contains fields:

  • Name– vector of char type specifying name of the well where the measurement took place
  • Elevation– array of real numbers containing vectors of elevation values
  • Temperature– array of real numbers containing vectors of rock temperature values

Optional:

  • Depth– array of real numbers containing vectors of depth values

Field details

FieldDescription

  • Name – Code name of the well where the measurement took place
  • Elevation– Elevation in metres above sea level of the rock temperature measurement
  • Temperature– Rock temperature

Optional:

  • Depth  – Depth of the rock temperature measurement

FieldType

  • Name– 3
  • Elevation– 4
  • Temperature– 22

Optional:

  • Depth – 4

FieldUnit

  • Name– char
  • Elevation– m
  • Temperature– Celsius deg

Optional:

  • Depth– m

Files associated with format:

  • GDF_CARBFIX_Rock_Temperature.mat

SEISMIC STATIONS

 If the inventory.xml file is not available for specific seismic network, then GDF file can be used to plot the locations of the seismic stations and create the table with information and parameters of seismic networks.

 Data details

‘d’ structure contains fields:

  • Station_codename – vector of char type specifying code name of the logger
  • Lat – vector of real numbers specifying latitude of the logger
  • Long – vector of real numbers specifying longitude of the logger

optional:

  • Description – vector of char type specifying description of the logger
  • Elevation  – vector of real numbers containing elevation above sea level of the logger
  • Depth  – vector of real numbers specifying depth of the logger
  • Sensor_type – vector of char type specifying type or name of the logger
  • Sample_rate – vector of char type specifying sample rate of the measurements
  • Parameter_unit – vector of char type specifying measurements parameter information
  • Start – vector of real numbers containing ‘matlab’ time of start operation of the logger
  • End – vector of real numbers containing ‘matlab’ time of end operation of the logger

Field details

FieldDescription

  • Station_codename – Code name of the station
  • Lat – Latitude of the station
  • Long – Longitude of the station
  • optional:
  • Description – Description of the station
  • Elevation – Elevation of the station
  • Depth- Depth of the station
  • Sensor_type – Type of the sensor
  • Sample_rate – Sample rate
  • Parameter_unit – Unit of the parameter
  • Start – Start time of data recording
  • End – End time of data recording

FieldType

  • Station_codename – 3
  • Lat – 124
  • Long –134

optional:

  • Description – 3
  • Elevation  – 4
  • Depth  – 114
  • Sensor_type – 3
  • Sample_rate – 3
  • Parameter_unit – 3
  • Start – 5
  • End – 5

FieldUnit

  • Station_codename – char
  • Lat – deg
  • Long – deg

optional:

  • Description – char
  • Elevation  – m
  • Depth  – km
  • Sensor_type – char
  • Sample_rate – char
  • Parameter_unit – char
  • Start – datenum
  • End – datenum

Files associated with format:

  • GDF_GISOS_NC_stations
  • GDF_STARFISH_NC_stations
  • GDF_TG_NC_stations

SHALLOW GROUNDWATER TEMPERATURE

Data details

‘d’ structure contains fields:

  • Name– vector of char type specifying name of the well where the measurement took place
  • Depth– array of real numbers containing vectors of depth values
  • Temperature– array of real numbers containing vectors of shallow groundwater temperature values

optional:

  • Elevation – array of real numbers containing vectors of elevation values

Field details

FieldDescription

  • Name – Code name of the well where the measurement took place
  • Depth– Depth of the shallow groundwater temperature measurement
  • Temperature– Shallow groundwater temperature

Optional:

  • Elevation– Elevation in metres above sea level of the shallow groundwater temperature measurement

FieldType

  • Name– 3
  • Depth– 4
  • Temperature– 22

optional:

  • Elevation– 4

FieldUnit

  • Name– char
  • Depth– m
  • Temperature– Celsius deg

optional:

  • Elevation– m


Files associated with format:

  • GFD_CARBFIX_shallow_groundwater_temperature_KH_02.mat
  • GDF_CARBFIX_shallow_groundwater_temperature_KH_05.mat

SHALLOW VELOCITY PROFILE

Data details

‘d’ structure contains fields:

  • Name – vector of char type specifying code name of the measurement point
  • Lat – vector of real numbers specifying latitude of the measurement point
  • Long – vector of real numbers specifying longitude of the measurement point
  • Depth  – array of real numbers containing vectors of depth values [in column]
  • Vs – array of real numbers containing vectors of velocity of S wave values [in column]

optional:

  • Vp – array of real numbers containing vectors of velocity of P wave values [in column]

Field details

FieldDescription

  • Name – Code name of the measurement point
  • Lat – Latitude of the measurement point
  • Long – Longitude of the measurement point
  • Depth  – Depth of measured velocity
  • Vs  – Velocity of S wave measured at different depths

optional:

  • Vp  – Velocity of P wave measured at different depths

FieldType

  • Name – 3
  • Lat – 1
  • Long – 1
  • Depth – 4
  • Vs – 4

optional:

  • Vp – 4

FieldUnit

  • Name – char
  • Lat – deg
  • Long – deg
  • Depth  – m
  • Vs  – m/s

optional:

  • Vp – m/s

Files associated with format:

  • GDF_MUSE1_shallow_velocity_profile_1

image2019-1-9_10-39-45.png


SHEAR WAVE VELOCITY

Data details

‘d’ structure contains fields:

  • Lat – vector of real numbers containing Latitude  
  • Long – vector of real numbers containing Longitude
  • Elevation – vector of real numbers containing elevation above sea level  
  • Vs30 – vector of real numbers containing shear wave velocities

Field details

FieldDescription

  • Lat – Latitude of the station
  • Long – Longitude of the station
  • Elevation – Elevation of the station
  • Vs30 – 30-meter shear wave velocitiy

FieldType

  • Lat – 124
  • Long – 134  
  • Elevation – 144
  • Vs30 – 30

FieldUnit

  • Lat – deg  
  • Long – deg
  • Elevation – m  
  • Vs30 – m/s

Files associated with format:

  • GDF_USCB_Vs30 [Shear Wave Velocity]

SHORELINE

Data details

‘d’ structure contains fields:

  • Lat – vector of real numbers containing latitude  
  • Long – vector of real numbers containing longitude

Field details

FieldDescription

  • Lat – Latitude coordinate of the shoreline
  • Long – Longitude coordinate of the shoreline

FieldType

  • Lat – 124  
  • Long – 134

FieldUnit

  • Lat – deg  
  • Long – deg

Files associated with format:

  • GDF_CZORSZTYN_reservoir_shoreline [Shoreline]
  • GDF_LGCD_Zelazny_Most_reservoir_shoreline [Shoreline]
  • GDF_SONG_TRANH_reservoir_shoreline [Shoreline]

STEAM PRODUCTION

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Steam_production – vector of real numbers containing steam production

Field details

FieldDescription

  • Date – Time of steam production
  • Steam_production – Steam production

FieldType

  • Date – 5
  • Steam_production – 6

FieldUnit

  • Date – datenum
  • Steam_production – ton

Files associated with format:

  • GDF_TG_total_steam_production [Steam Production]
  • GDF_TG_total_steam_production_yearly [Steam Production]

 

STRAIN GAUGE MEASUREMENT

Data details

‘d’ structure contains fields:

  • Station_codename – variable of char type specifying code name of the measurement device
  • Lat – variable of real number specifying latitude of logger
  • Long – variable of real number specifying longitude of logger
  • Date – vector containing measurement date for each station

At least one Strain field:

  • StrainXvector containing strain according X direction gauge orientation for each station
  • StrainYvector containing strain according Y direction gauge orientation for each station
  • StrainZvector containing strain according Z direction gauge orientation for each station

optional:

  • Depth – vector of real numbers specifying depth of logger
  • Elevation – vector of real numbers containing elevation in meters above sea level
  • X – variable of real number specifying X coordinate of logger
  • Y – variable of real number specifying Y coordiante of logger
  • Z – variable of real number specifying Z coordiante of logger

Field details

FieldDescription

  • Station_codename – Code name of the station of measurement (e.g. target points for GPS, tacheometer and anchored borehole extensometer)
  • Lat – Latitude of station/measurement point
  • Long– Longitude of station/measurement point
  • DateDate of measurement for each station

optional:

  • StrainXMeasurement of strain according X direction gauge orientation (describe convention, e.g. positive towards East)
  • StrainYMeasurement of strain according Y direction gauge orientation (describe convention, e.g. positive towards North)
  • StrainZMeasurement of strain according Z direction gauge orientation (describe convention, e.g. downward negative; upward positive)
  • Depth – Depth of each station from surface
  • Elevation – Elevation of each station in meters above sea level

FieldType

  • Station_codename – 3
  • Lat – 24
  • Long – 14
  • Date – 5

optional:

  • StrainX – 1
  • StrainY – 1
  • StrainZ – 1
  • Depth – 14
  • Elevation – 2

FieldUnit

  • Station_codename – char
  • Lat – deg
  • Long – deg
  • Date – datenum

optional:

  • StrainX – microstrain
  • StrainY – microstrain
  • StrainZ – microstrain
  • Depth – km
  • Elevation – m

Files associated with format:

  • GDF_STARFISH_strain_gauge_measurement


STRESS DATA

Data details

‘d’ structure contains fields:

  • XX_Stress – real numbers specifying modelled stress in XX direction (from stress tensor)
  • YY_Stress – real numbers specifying modelled stress in YY direction (from stress tensor)
  • ZZ_Stress – real numbers specifying modelled stress in ZZ direction (from stress tensor)
  • XY_Stress – real numbers specifying modelled stress in XY direction (from stress tensor)
  • YZ_Stress – real numbers specifying modelled stress in YZ direction (from stress tensor)
  • ZX_Stress – real numbers specifying modelled stress in ZX direction (from stress tensor)

optional:

  • X – real numbers specifying X coordinate of the numerical model
  • Y – real numbers specifying Y coordinate of the numerical model
  • Z – real numbers specifying Z coordinate of the numerical model
  • Delta_CFS – real numbers containing estimates of the change of Coulomb Failure Stress
  • SHmax – real numbers containing estimates of maximum horizontal stress
  • Azmiuth_of_SHmax – real numbers of azimuth of maximum horizontal stress
  • Shmin – real numbers of minimum horizontal stress
  • Sv – real numbers of vertical stress

Field details

FieldDescription

  • XX_Stress – Modelled stress in XX direction, compressive negative
  • YY_Stress – Modelled stress in YY direction, compressive negative
  • ZZ_Stress – Modelled stress in ZZ direction, compressive negative
  • XY_Stress – Modelled stress in XY direction, compressive negative
  • YZ_Stress – Modelled stress in YZ direction, compressive negative
  • ZX_Stress – Modelled stress in ZX direction, compressive negative

optional:

  • X – X coordinate (easting)
  • Y – Y coordinate (northing)
  • Z – Z coordinate (depth)
  • Delta_CFS  Change of Coulomb Failure Stress
  • SHmax  Maximum horizontal stress
  • Azmiuth_of_SHmax  Azimuth of maximum horizontal stress
  • Shmin – Minimum horizontal stress
  • Sv  Vertical stress

FieldType

  • XX_Stress – 252
  • YY_Stress  252
  • ZZ_Stress  252
  • XY_Stress  252
  • YZ_Stress  252
  • ZX_Stress  252

optional:

  • X – 252
  • Y – 252
  • Z – 252
  • Delta_CFS  15
  • SHmax – 14
  • Azmiuth_of_SHmax  13
  • Shmin  14
  • Sv  14

 FieldUnit

  • XX_Stress  Pa
  • YY_Stress  Pa
  • ZZ_Stress  Pa
  • XY_Stress  Pa
  • YZ_Stress  Pa
  • ZX_Stress  Pa

optional:

  • X – m
  • Y – m
  • Z – m
  • Delta_CFS  MPa
  • SHmax – MPa
  • Azmiuth_of_SHmax  deg
  • Shmin  MPa
  • Sv  MPa

Files associated with format:

  • GDF_JAGUARS_Stress_Data


VELOCITY MODEL

Data details

‘d’ structure contains fields:

  • Depth – vector of real numbers containing the depth of measured velocity (depth of the layer)
  • Vp – vector of real numbers containing the velocity of P wave
  • Vs – vector of real numbers containing the velocity of S wave

optional:

  • Density – vector of real numbers containing density of the rocks in measured layer
  • Qp – vector of real numbers containing the Q factor of P wave in measured layer
  • Qs – vector of real numbers containing the Q factor of S wave in measured layer

Field details

FieldDescription

  • Depth – Depth
  • Vp – Velocity of P wave
  • Vs – Velocity of S wave

optional:

  • Density – Density of the rocks
  • Qp – Q factor of P wave
  • Qs – Q factor of S wave

FieldType

  • Depth – 34 [20]
  • Vp – 14 [12]
  • Vs – 14 [12]

optional:

  • Density – 14 [12]
  • Qp – 30
  • Qs – 30

FieldUnit

  • Depth – km
  • Vp – km/s
  • Vs – km/s

optional:

  • Density – g/cm3
  • Qp – dimensionless
  • Qs – dimensionless

Files associated with format:

  • GDF_BOBREK_1D_velocity_model [Velocity Model]
  • GDF_CZORSZTYN_1D_velocity_model [Velocity Model]
  • GDF_GS_1D_velocity_model [Velocity Model]
  • GDF_LGCD_1D_velocity_model [Velocity Model]
  • GDF_SONG_TRANH_1D_velocity_model [Velocity Model]
  • GDF_USCB_1D_velocity_model [Velocity Model]
  • GDF_PREESEHALL_1D_Velocity_Structure [Velocity Model]

WATER HEIGHT

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Water_height_min– vector of real numbers containing the minimum water height measured at a defined point
  • Water_height_max– vector of real numbers containing the maximum water height measured at a defined point
  • Water_height_mean– vector of real numbers containing the mean water height measured at a defined point

Field details

FieldDescription

  • Date – Date of water height measure
  • Water_height_min – Minimum water height
  • Water_height_max – Maximum water height
  • Water_height_mean – Mean water height

FieldType

  • Date – 5
  • Water_height_min – 23
  • Water_height_max – 23
  • Water_height_mean – 23

FieldUnit

  • Date – datenum
  • Water_height_min – m
  • Water_height_max – m
  • Water_height_mean – m

Files associated with format:

  • GDF_Monteynard_Water_Height


WATER LEVEL

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Water_level – vector of real numbers containing the water level measured at a defined point [m above sea level]

Field details

FieldDescription

  • Date – Date of water level measure
  • Water_level – Water level above sea level

FieldType

  • Date – 5
  • Water_level – 32

FieldUnit

  • Date – datenum
  • Water_level – m

Files associated with format:

  • GDF_CZORSZTYN_Water_Level [Water Level]
  • GDF_SONG_TRANH_Water_Level [Water Level]

WATER PRODUCTION

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Water_production – vector of real numbers containing water production

Field details

FieldDescription

  • Date – Time of water production
  • Water_production – Water production

FieldType

  • Date – 5
  • Water_production – 4

FieldUnit

  • Date – datenum
  • Water_production – m^3

Files associated with format:

  • GDF_EmiliaRomagna_water_production [Water Production]

WATER STATIONS

Data details

‘d’ structure contains fields:

  • Station_codename – vector of char type specifying code name of the measurement device
  • Lat – vector of real numbers specifying latitude of logger
  • Long – vector of real numbers specifying longitude of logger

optional:

  • Description – vector of char type specifying description of the logger
  • Elevation  – vector of real numbers containing elevation above sea level of the logger
  • Depth  – vector of real numbers specifying depth of the logger
  • Sensor_type – vector of char type specifying type or name of the logger
  • Sample_rate – vector of char type specifying sample rate of the measurements
  • Parameter_unit – vector of char type specifying measurements parameter information
  • Start – vector of real numbers containing ‘matlab’ time of start operation of the logger
  • End – vector of real numbers containing ‘matlab’ time of end operation of the logger

Field details

FieldDescription

  • Station_codename – Code name of the station
  • Lat – Latitude of the station
  • Long – Longitude of the station

optional:

  • Description – Description of the station
  • Elevation  – Elevation of the station
  • Depth  – Depth of the station
  • Sensor_type – Type of the sensor
  • Sample_rate – Sample rate
  • Parameter_unit – Unit of the parameter
  • Start – Start time of data recording
  • End – End time of data recording

FieldType

  • Station_codename – 3
  • Lat – 124
  • Long –134

optional:

  • Description – 3
  • Elevation  – 4
  • Depth  – 114
  • Sensor_type – 3
  • Sample_rate – 3
  • Parameter_unit – 3
  • Start – 5
  • End – 5

FieldUnit

  • Station_codename – char
  • Lat – deg
  • Long – deg

optional:

  • Description – char
  • Elevation  – m
  • Depth  – km
  • Sensor_type – char
  • Sample_rate – char
  • Parameter_unit – char
  • Start – datenum
  • End – datenum

 Files associated with format:

  • GDF_LUBOCINO_water_stations [Water Stations]
  • GDF_WYSIN_water_level_loggers_location [Water Stations]

WATER VOLUME

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Water_volume – vector of real numbers containing the water volume measured at a defined point [mln m3]

Field details

FieldDescription

  • Date – Date of water volume measure
  • Water_volume – Water volume

FieldType

  • Date – 5
  • Water_volume – 32

FieldUnit

  • Date – datenum
  • Water_volume – mln m3

Files associated with format:

  • GDF_CZORSZTYN_Water_Volume [Water Volume]

WELL PATH

Data details

‘d’ structure contains fields:

  • Lat –vector of real numbers specifying latitude  
  • Long –vector of real numbers specifying longitude
  • Elevation – vector of real numbers containing elevation in meters above sea level

optional:

  • Depth  – vector of real numbers specifying depth of the logger
  • Well_codename – vector of char type specifying name of the well
  • Azimuth  – vector of real numbers specifying current azimuth of the well
  • Dip  – vector of real numbers specifying current dip of the well
  • Length_point  – vector of real numbers specifying distance in the pipe from the surface

Field details

FieldDescription

  • Lat – Latitude of the borehole`s trajectory
  • Long – Longitude of the borehole`s trajectory
  • Elevation – Elevation of the borehole`s trajectory

optional:

  • Depth – Depth of the borehole`s trajectory
  • Well_codename – Code name of the well
  • Azimuth  – Current azimuth of the well
  • Dip  – Current dip of the well
  • Length_point  – Distance in the pipe from the surface

FieldType

  • Lat – 124
  • Long – 134
  • Elevation – 144

optional:

  • Depth - 114
  • Well_codename – 3
  • Azimuth  – 4
  • Dip  – 4
  • Length_point  – 4

FieldUnit

  • Lat – deg
  • Long – deg
  • Elevation – m

optional:

  • Depth - km
  • Well_codename – char
  • Azimuth  – deg
  • Dip  – deg
  • Length_point  – m

Files associated with format:

  • GDF_GS_Trajectory_of_GS3_borehole [Well Path]
  • GDF_GS_Trajectory_of_GS4_borehole [Well Path]
  • GDF_PREESEHALL_Well_Trajectory [Well Path]
  • GDF_PYHASALMI_Well_path… [Well Path]
  • GDF_WYSIN_hydrological_well_path… [Well Path] 



WELL POSITION

Data details

‘d’ structure contains fields:

  • Well_codename – vector of char type specifying code name of the station
  • Lat – vector of real numbers specifying latitude of the well
  • Long – vector of real numbers specifying longitude of the well

optional:

  • Depth – vector of real numbers specifying depth of the well
  • Operator_name – vector of char type specifying operator name of the well
  • Well_number – vector of char type specifying well number
  • Lease_name – vector of char type specifying lease name
  • Year_drilling – vector of real numbers specifying year of well drilling
  • Well_type – vector of char type specifying type of well
  • District – vector of real numbers specifying district
  • Status – vector of char type specifying status
  • Status_code – vector of char type specifying status code
  • Section – vector of real numbers specifying section
  • Township – vector of char type specifying township
  • Range – vector of char type specifying range
  • Base_meridian – vector of char type specifying base meridian
  • Source_code – vector of char type specifying source code
  • Well_name – vector of char type specifying well name
  • Formation_code – vector of char type specifying formation code
  • Formation_name – vector of char type specifying formation name
  • Formation_bottom_depth – vector of real numbers specifying depth of the bottom of the formation
  • Formation_top_depth – vector of real numbers specifying depth of the top of the formation

Field details

FieldDescription

  • Well_codename – Code name of the well (…/description)
  • Lat – Latitude of the well
  • Long – Longitude of the well

optional:

  • Depth – Depth of the well
  • Operator_name – Well operator name
  • Well_number – Well number
  • Lease_name – Lease name
  • Year_drilling – Year of drilling
  • Well_type – Type od well (…/description)
  • District – District (…/description)
  • Status – Well status (…/description)
  • Status_code – Well status code (…/description)
  • Section – Section
  • Township – Township
  • Range – Range
  • Base_meridian – Base meridian
  • Source_code – Source code
  • Well_name – Well name
  • Formation_code – Code of the formation
  • Formation_name – Name of the formation
  • Formation_bottom_depth – Depth of the botton of the formation
  • Formation_top_depth – Depth of the top of the formation

FieldType

  • Well_codename – 3
  • Lat – 124
  • Long – 134

optional:

  • Depth – 34
  • Operator_name – 3
  • Well_number – 3
  • Lease_name – 3
  • Year_drilling – 2
  • Well_type – 3
  • District – 2
  • Status – 3
  • Status_code – 3
  • Section – 2
  • Township – 3
  • Range – 3
  • Base_meridian – 3
  • Source_code – 3
  • Well_name – 3
  • Formation_code – 3
  • Formation_name – 3
  • Formation_bottom_depth – 24
  • Formation_top_depth – 24

FieldUnit

  • Well_codename – char
  • Lat – deg
  • Long – deg

optional:

  • Depth – km
  • Operator_name – char
  • Well_number – char
  • Lease_name – char
  • Year_drilling – year
  • Well_type – char
  • District – dimensionless
  • Status – char
  • Status_code – char
  • Section – dimensionless
  • Township – char
  • Range – char
  • Base_meridian – char
  • Source_code – char
  • Well_name – char
  • Formation_code – char
  • Formation_name – char
  • Formation_bottom_depth – km
  • Formation_top_depth – km

Files associated with format:

  • GDF_LUBOCINO_well_position [Well Position]
  • GDF_TG_injection_wells_position [Well Position]
  • GDF_TG_wells_data_for_California [Well Position]
  • GDF_WYSIN_well_position [Well Position]
  • GDF_OKLAHOMA_wells_position.mat [Well Position]

WELLHEAD PRESSURE

Data details

‘d’ structure contains fields:

  • Date – vector of real numbers containing ‘matlab’ time
  • Wellhead_pressure – vector of real numbers containing the wellhead pressure

Field details

FieldDescription

  • Date – Time of wellhead pressure
  • Wellhead_pressure – Wellhead pressure

FieldType

  • Date – 5
  • Wellhead_pressure – 34

FieldUnit

  • Date – datenum
  • Wellhead_pressure – MPa

Files associated with format:

  • GDF_GS_Wellhead_Pressure [Wellhead Pressure]
  • GDF_PREESEHALL_Wellhead_Pressure [Wellhead Pressure]

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