Coordinate systems
Terms:
Geographic coordinate systems:
In Delft3D there are two methods to store coordinates:
- Cartesian
- Spherical
SOBEK stores output in a cartesian system. If you start an empty SOBEK session the default is to show the Dutch Map stored in Amersfoort New system.
|
Current Delft3D/SOBEK |
CF Compliant |
notes |
---|---|---|---|
Datum (shape of the earth) |
Delft3D:WGS_1984 |
WGS_1984 |
The geoid is not explicitly defined in the CF convention. There was some discussion on this. |
Projection/Geographic Coordinate System |
Delft3D Spherical:WGS84 |
Projection by grid mapping. Projection information is also stored. Data is alwasy provided in WGS84 |
|
Distance function |
Delft3D:Spherical & Cartesian |
|
Questions:
Is it correct to assume that Spherical is always based on a WGS84 datum.
Naming convention
Names in Delft3D FLOW
Abbreviation |
Meaning |
---|---|
D |
depth points, corners of grid cells |
Z |
water level points, cell centres of grid |
UV |
velocity points |
Z (UV) |
data averaged to water level points (data on file defined at velocity points) |
c |
defined at cell centres in vertical direction |
i |
defined at cell interfaces in vertical direction |
Quantity |
Unit |
Symbol |
---|---|---|
morphologic grid |
|
D |
hydrodynamic grid |
|
Z (1) |
domain decomposition boundaries |
|
UV |
open boundaries |
|
UV |
closed boundaries |
|
UV |
thin dams |
|
UV |
temporarily inactive water level points |
|
Z |
temporarily inactive velocity points |
|
UV |
air temperature |
°C |
Z |
cloud coverage |
% |
Z |
relative air humidity |
% |
Z |
wind speed |
m/s |
Z |
wave height |
m |
Z |
wave vector |
m |
Z |
orbital velocity amplitude |
m/s |
Z |
wave period |
s |
Z |
wave length |
m |
Z |
short-wave energy |
J/m^2 |
Z |
roller energy |
J/m^2 |
Z |
transport velocity of roller energy |
m/s |
Z (UV) |
transport velocity of wave energy |
m/s |
Z (UV) |
wave force |
N/m^2 |
Z (UV) |
roller force |
N/m^2 |
Z (UV) |
water level (when dry: bed level) |
m |
Z |
water level |
m |
Z |
water depth |
m |
Z |
depth averaged velocity |
m/s |
Z (UV) |
horizontal velocity |
m/s |
Z (UV), c |
velocity |
m/s |
Z (UV), c |
vertical velocity |
m/s |
Z, c |
velocity in depth averaged flow direction |
m/s |
Z (UV), c |
velocity normal to depth averaged flow direction |
m/s |
Z (UV), c |
filtered depth averaged velocity |
m/s |
Z (UV), c |
d.a. velocity fluctuations |
m/s |
Z (UV), c |
froude number |
Z |
|
head |
m |
Z |
density |
kg/m^3 |
Z, c |
non-hydrostatic pressure |
Pa |
Z, c |
constituents(2) |
(2) |
Z, c |
constituents flux(2) |
(2)*m^3/s |
Z (UV), c |
constituents cumulative flux(2) |
(2)*m^3 |
Z (UV), c |
turbulent quantities(2) |
(2) |
Z, i |
vertical eddy viscosity |
m^2/s |
Z, i |
vertical eddy diffusivity |
m^2/s |
Z, i |
horizontal viscosity |
m^2/s |
Z,i |
Richardson number |
Z, i |
|
vorticity |
1/s |
D, c |
enstrophy |
1/s^2 |
D, c |
characteristic velocity |
m/s |
Z |
characteristic velocity magnitude |
m/s |
Z |
height above bed for characteristic velocity |
m |
Z |
bed shear velocity magnitude |
m/s |
Z |
settling velocity |
m/s |
Z, i |
equilibrium concentration |
kg/m^3 |
Z, c |
bed load transport due to currents (zeta point) |
(4) |
Z |
bed load transport due to currents |
(4) |
Z (UV) |
bed load transport due to waves (zeta point) |
(4) |
Z |
bed load transport due to waves |
(4) |
Z (UV) |
suspended load transport due to waves (zeta point) |
(4) |
Z |
suspended load transport due to waves |
(4) |
Z (UV) |
bed load transport |
(4) |
Z (UV) |
d.a. suspended transport |
(4) |
Z (UV) |
total transport |
(4) |
Z (UV) |
mean bed load transport |
(4) |
Z (UV) |
mean d.a. suspended transport |
(4) |
Z (UV) |
mean total transport |
(4) |
Z (UV) |
concentration |
kg/m^3 |
Z, c (gen.sig.) |
settling velocity |
m/s |
Z, i (gen.sig.) |
bed shear stress |
N/m^2 |
Z (UV) |
maximum bed shear stress |
N/m^2 |
Z |
excess bed shear ratio |
Z |
|
initial bed level |
m |
D (2)i |
bed level in water level points |
m |
Z(2)i |
bed slope |
Z (UV) |
|
cum. erosion/sedimentation |
m |
Z(2)i |
morphological acceleration factor |
||
available mass of sediment |
kg/m^2 |
Z |
sediment fraction in top layer |
Z |
|
mud fraction in top layer |
Z |
|
sediment fraction |
Z, c (bed) |
|
cumulative mass error |
m |
Z |
arithmic mean sediment diameter |
m |
Z |
geometric mean sediment diameter |
m |
Z |
hiding and exposure |
Z |
|
reduction factor due to limited sediment thickness |
Z |
|
other fields |
(5) |
Z(4) |
- In the current version of the program, the hydrodynamic grid connects the 3D coördinates of the cell centres of the computation grid points. This may change in a future release to represent the bounding boxes of the grid cells.
- These fields are expanded depending on the contents of the data file. Units: temperature in °C, salinity in ppt, secondary flow in m/s, sediment concentrations in kg/m$^3$, turbulent kinetic energy in m$^2$/s$^2$, energy dissipation in m$^2$/s$^3$. The user defined tracer concentrations are in unknown units.
- These locations are only valid if the correct drying/flooding setting is selected in the file options dialog.
- Units depend on the model input. By default the units are m$^3$/sm where the volume represents m$^3$ stone. It can also be switched to m$^3$/sm where the volume represents m$^3$ bed volume, or kg/sm.
- New 2D and 3D fields of the same dimension as the grid are automatically detected. They are assumed to be located at water level points.
Names in WAQ
ID |
Unit |
Description |
Substance group |
---|---|---|---|
cTR1 |
(g/m3) |
conservative tracer source 1 |
Age and fraction |
cTR2 |
(g/m3) |
conservative tracer source 2 |
Age and fraction |
cTR3 |
(g/m3) |
conservative tracer source 3 |
Age and fraction |
cTR4 |
(g/m3) |
conservative tracer source 4 |
Age and fraction |
cTR5 |
(g/m3) |
conservative tracer source 5 |
Age and fraction |
dTR1 |
(g/m3) |
decayable tracer source 1 |
Age and fraction |
dTR2 |
(g/m3) |
decayable tracer source 2 |
Age and fraction |
dTR3 |
(g/m3) |
decayable tracer source 3 |
Age and fraction |
dTR4 |
(g/m3) |
decayable tracer source 4 |
Age and fraction |
dTR5 |
(g/m3) |
decayable tracer source 5 |
Age and fraction |
ASMPOM |
(gO2/m3) |
particulate degradable organic matter |
ASM Substances |
ASMPOMS1 |
|
undefined |
ASM Substances |
ASMPIM |
(gO2/m3) |
particulate inert organic matter |
ASM Substances |
ASMPIMS1 |
|
undefined |
ASM Substances |
HetBac |
(gO2/m3) |
heterotrophic bacteria |
ASM Substances |
HetBacS1 |
|
undefined |
ASM Substances |
AutBac |
(gO2/m3) |
nitrifying autotrophic bacteria |
ASM Substances |
AutBacS1 |
|
undefined |
ASM Substances |
ASMDOM |
(gO2/m3) |
dissolved organic matter concentration |
ASM Substances |
ASMFOM |
(gO2/m3) |
fermentation products concentration |
ASM Substances |
ASMDIM |
|
undefined |
ASM Substances |
AlgC |
|
undefined |
Auxiliary nut.bal.DBS |
AlgC_S1 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgN |
(gN/m3) |
total nitrogen in algae |
Auxiliary nut.bal.DBS |
AlgN_S1 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgN_S2 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgNS1 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgP |
(gP/m3) |
total phosphorus in algae |
Auxiliary nut.bal.DBS |
AlgP_S1 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgP_S2 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgPS1 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgSi |
(gSi/m3) |
total silica in algae |
Auxiliary nut.bal.DBS |
AlgSi_S1 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgSi_S2 |
|
undefined |
Auxiliary nut.bal.DBS |
AlgSiS1 |
|
undefined |
Auxiliary nut.bal.DBS |
CA++ _tot |
(g/m3) |
component Ca++ |
Charon component |
CD++ _tot |
(g/m3) |
component Cd++ |
Charon component |
CEC _tot |
(eq/m3) |
component CEC (adsorption sites inorganic matter) |
Charon component |
CL- _tot |
(g/m3) |
component Cl- |
Charon component |
CO2 _tot |
(g/m3) |
component CO2 |
Charon component |
CR+++ _tot |
(g/m3) |
component Cr+++ |
Charon component |
CU++ _tot |
(g/m3) |
component Cu++ |
Charon component |
FEADS _tot |
(eq/m3) |
component FeADS (adsorption sites iron oxide) |
Charon component |
H2O _tot |
(g/m3) |
component H2O |
Charon component |
H2PO4-_tot |
(g/m3) |
component H2PO4- |
Charon component |
HG++ _tot |
(g/m3) |
component Hg++ |
Charon component |
HHUM _tot |
(eq/m3) |
component HHUM (adsorption sites dis. organic matt |
Charon component |
K+ _tot |
(g/m3) |
component K+ |
Charon component |
MG++ _tot |
(g/m3) |
component Mg++ |
Charon component |
NA+ _tot |
(g/m3) |
component Na+ |
Charon component |
NH4+ _tot |
(g/m3) |
component NH4+ |
Charon component |
NI++ _tot |
(g/m3) |
component Ni++ |
Charon component |
O2 _tot |
(g/m3) |
component O2 |
Charon component |
OH- _tot |
(g/m3) |
component OH- |
Charon component |
PB++ _tot |
(g/m3) |
component Pb++ |
Charon component |
SO4-- _tot |
(g/m3) |
component SO4-- |
Charon component |
ZN++ _tot |
(g/m3) |
component Zn++ |
Charon component |
CA++ _dis |
(g/m3) |
dissolved component Ca++ |
Charon hybrid |
CA++ _par |
(g/m3) |
particulate component Ca++ |
Charon hybrid |
CD++ _dis |
(g/m3) |
dissolved component Cd++ |
Charon hybrid |
CD++ _par |
(g/m3) |
particulate component Cd++ |
Charon hybrid |
CL- _dis |
(g/m3) |
dissolved component Cl- |
Charon hybrid |
CO2 _dis |
(g/m3) |
dissolved component CO2 |
Charon hybrid |
CO2 _par |
(g/m3) |
particulate component CO2 |
Charon hybrid |
CR+++ _dis |
(g/m3) |
dissolved component Cr+++ |
Charon hybrid |
CR+++ _par |
(g/m3) |
particulate component Cr+++ |
Charon hybrid |
CU++ _dis |
(g/m3) |
dissolved component Cu++ |
Charon hybrid |
CU++ _par |
(g/m3) |
particulate component Cu++ |
Charon hybrid |
H2PO4-_dis |
(g/m3) |
dissolved component H2PO4- |
Charon hybrid |
H2PO4-_par |
(g/m3) |
particulate component H2PO4- |
Charon hybrid |
HG++ _dis |
(g/m3) |
dissolved component Hg++ |
Charon hybrid |
HG++ _par |
(g/m3) |
particulate component Hg++ |
Charon hybrid |
HHUM _dis |
(eq/m3) |
dissolved component HHUM |
Charon hybrid |
K+ _dis |
(g/m3) |
dissolved component K+ |
Charon hybrid |
K+ _par |
(g/m3) |
particulate component K+ |
Charon hybrid |
MG++ _dis |
(g/m3) |
dissolved component Mg++ |
Charon hybrid |
MG++ _par |
(g/m3) |
particulate component Mg++ |
Charon hybrid |
NA+ _dis |
(g/m3) |
dissolved component Na+ |
Charon hybrid |
NA+ _par |
(g/m3) |
particulate component Na+ |
Charon hybrid |
NH4+ _dis |
(g/m3) |
dissolved component NH4+ |
Charon hybrid |
NH4+ _par |
(g/m3) |
particulate component NH4+ |
Charon hybrid |
NI++ _dis |
(g/m3) |
dissolved component Ni++ |
Charon hybrid |
NI++ _par |
(g/m3) |
particulate component Ni++ |
Charon hybrid |
O2 _dis |
(g/m3) |
dissolved component O2 |
Charon hybrid |
PB++ _dis |
(g/m3) |
dissolved component Pb++ |
Charon hybrid |
PB++ _par |
(g/m3) |
particulate component Pb++ |
Charon hybrid |
SO4-- _dis |
(g/m3) |
dissolved component SO4-- |
Charon hybrid |
ZN++ _dis |
(g/m3) |
dissolved component Zn++ |
Charon hybrid |
ZN++ _par |
(g/m3) |
particulate component Zn++ |
Charon hybrid |
CA++ |
(g/m3) |
Ca++ |
Charon species |
CACEC |
(g/m3) |
CaCEC |
Charon species |
CACL+ |
(g/m3) |
CaCl+ |
Charon species |
CAHCO3 |
(g/m3) |
CaHCO3 |
Charon species |
CAHUM |
(g/m3) |
Ca adsorbed to organic matter |
Charon species |
CASO4 |
(g/m3) |
CaSO4 |
Charon species |
CD++ |
(g/m3) |
Cd++ |
Charon species |
CDCEC |
(g/m3) |
CdCEC |
Charon species |
CDCl+ |
(g/m3) |
CdCl+ |
Charon species |
CDCL2 |
(g/m3) |
CdCl2 |
Charon species |
CDCL3- |
(g/m3) |
CdCl3- |
Charon species |
CDCL4- |
(g/m3) |
CdCl4- |
Charon species |
CDCO3 |
(g/m3) |
CdCO3 |
Charon species |
CDHCO3 |
(g/m3) |
CdHCO3+ |
Charon species |
CDHUM |
(g/m3) |
CdHUM |
Charon species |
CDSO4 |
(g/m3) |
CdSO4 |
Charon species |
CH4 |
(g/m3) |
CH4 (methane) |
Charon species |
CO2 |
(g/m3) |
CO2 |
Charon species |
CO3-- |
(g/m3) |
CO3-- |
Charon species |
CRCEC |
(g/m3) |
CrCEC |
Charon species |
CRO4 |
(g/m3) |
CrO4-- |
Charon species |
CU++ |
(g/m3) |
Cu++ |
Charon species |
CU2HUM |
(g/m3) |
Cu2HUM |
Charon species |
CUCEC |
(g/m3) |
CuCEC |
Charon species |
CUCl+ |
(g/m3) |
CuCl+ |
Charon species |
CUCL2 |
(g/m3) |
CuCl2 |
Charon species |
CUCL3- |
(g/m3) |
CuCl3- |
Charon species |
CUCL4- |
(g/m3) |
CuCl4-- |
Charon species |
CUCO3 |
(g/m3) |
CuCO3 |
Charon species |
CUCO32 |
(g/m3) |
CuCO32 |
Charon species |
CUHCO3 |
(g/m3) |
CuHCO3+ |
Charon species |
CUSO4 |
(g/m3) |
CuSO4 |
Charon species |
H+ |
(g/m3) |
H+ |
Charon species |
H2O |
(g/m3) |
H2O |
Charon species |
H2PO4- |
(g/m3) |
H2PO4- |
Charon species |
H2S |
(g/m3) |
H2S |
Charon species |
H3PO4 |
(g/m3) |
H3PO4 |
Charon species |
HCEC |
(g/m3) |
HCEC |
Charon species |
HCO3- |
(g/m3) |
HCO3- |
Charon species |
HCRO4 |
(g/m3) |
HCrO4- |
Charon species |
HG++ |
(g/m3) |
Hg++ |
Charon species |
HGCL+ |
(g/m3) |
HgCL+ |
Charon species |
HGCL2 |
(g/m3) |
HgCL2 |
Charon species |
HGCL3 |
(g/m3) |
HgCL3- |
Charon species |
HGCL4 |
(g/m3) |
HgCL4 |
Charon species |
HGCO3 |
(g/m3) |
HgCO3 |
Charon species |
HGHCO3 |
(g/m3) |
HgHCO3 |
Charon species |
HGHUM |
(g/m3) |
HgHUM |
Charon species |
HGSO4 |
(g/m3) |
HgSO4 |
Charon species |
HHUM |
(g/m3) |
HHUM (Humus) |
Charon species |
HPO4-- |
(g/m3) |
HPO4-- |
Charon species |
HS- |
(g/m3) |
HS- |
Charon species |
HUM |
(gC/m3) |
Dissolved Organic Carbon (HUM) |
Charon species |
K+ |
(g/m3) |
K+ |
Charon species |
KCEC |
(g/m3) |
KCEC |
Charon species |
KCL |
(g/m3) |
KCl |
Charon species |
KCRO4 |
(g/m3) |
KCrO4 |
Charon species |
KHCO3 |
(g/m3) |
KHCO3 |
Charon species |
KSO4- |
(g/m3) |
KSO4- |
Charon species |
MG++ |
(g/m3) |
Mg++ |
Charon species |
MGCEC |
(g/m3) |
MgCEC |
Charon species |
MGCL+ |
(g/m3) |
MgCl+ |
Charon species |
MGCO3 |
(g/m3) |
MgCO3 |
Charon species |
MGHCO3 |
(g/m3) |
MgHCO3+ |
Charon species |
MGHUM |
(g/m3) |
Mg adsorbed to organic matter |
Charon species |
MGSO4 |
(g/m3) |
MgSO4 |
Charon species |
NA+ |
(g/m3) |
Na+ |
Charon species |
NACEC |
(g/m3) |
NaCEC |
Charon species |
NACL |
(g/m3) |
NaCl |
Charon species |
NACO3- |
(g/m3) |
NaCO3- |
Charon species |
NACRO4 |
(g/m3) |
NaCrO4 |
Charon species |
NAHCO3 |
(g/m3) |
NaHCO3 |
Charon species |
NH3 |
(gN/m3) |
Unionized ammonia (NH3) |
Charon species |
NH4+ |
(g/m3) |
NH4+ |
Charon species |
NH4CEC |
(g/m3) |
NH4CEC |
Charon species |
NI++ |
(g/m3) |
Ni++ |
Charon species |
NICL+ |
(g/m3) |
NiCl+ |
Charon species |
NICL2 |
(g/m3) |
NiCl2 |
Charon species |
NICO3 |
(g/m3) |
NiCO3 |
Charon species |
NIHCO3 |
(g/m3) |
NiHCO3+ |
Charon species |
NIHUM |
(g/m3) |
NiHUM |
Charon species |
NISO4 |
(g/m3) |
NiSO4 |
Charon species |
NO2- |
(g/m3) |
Nitrite (NO2) |
Charon species |
OH- |
(g/m3) |
OH- |
Charon species |
PB++ |
(g/m3) |
Pb++ |
Charon species |
PBCEC |
(g/m3) |
PbCEC |
Charon species |
PBCL+ |
(g/m3) |
PbCl+ |
Charon species |
PBCL2 |
(g/m3) |
PbCl2 |
Charon species |
PBCL3- |
(g/m3) |
PbCl3- |
Charon species |
PBCL4 |
(g/m3) |
PbCl4-- |
Charon species |
PBCO3 |
(g/m3) |
PbCO3 |
Charon species |
PBHCO3 |
(g/m3) |
PbHCO3 |
Charon species |
PBSO4 |
(g/m3) |
PbSO4 |
Charon species |
PFE1 |
(g/m3) |
PO4--- adsorbed to iron oxide |
Charon species |
PFE2 |
(g/m3) |
HPO4-- adsorbed to iron oxide |
Charon species |
PO4--- |
(g/m3) |
PO4--- |
Charon species |
RES |
(g/m3) |
RES |
Charon species |
RES2 |
(g/m3) |
RES2 |
Charon species |
S-- |
(g/m3) |
S-- |
Charon species |
SO4-- |
(g/m3) |
SO4-- |
Charon species |
ZN++ |
(g/m3) |
Zn++ |
Charon species |
ZNCEC |
(g/m3) |
ZnCEC |
Charon species |
ZNCL+ |
(g/m3) |
ZnCl+ |
Charon species |
ZNCL2 |
(g/m3) |
ZnCl2 |
Charon species |
ZNCL3- |
(g/m3) |
ZnCl3- |
Charon species |
ZNCL4- |
(g/m3) |
ZnCl4-- |
Charon species |
ZNCO3 |
(g/m3) |
ZnCO3 |
Charon species |
ZNCO32 |
(g/m3) |
ZnCO32 |
Charon species |
ZNHCO3 |
(g/m3) |
ZnHCO3 |
Charon species |
ZNHUM |
(g/m3) |
ZnHUM |
Charon species |
ZNSO4 |
(g/m3) |
ZnSO4 |
Charon species |
EColi |
(MPN/m3) |
E. Coli bacteria |
Coli-Bacteria |
FColi |
(MPN/m3) |
Faecal coli bacteria |
Coli-Bacteria |
TColi |
(MPN/m3) |
Total coli bacteria |
Coli-Bacteria |
AAP |
(gP/m3) |
adsorbed ortho phosphate |
Eutrophication |
AAPS1 |
(gP) |
adsorbed O-PO4 in layer S1 |
Eutrophication |
AAPS2 |
(gP) |
adsorbed O-PO4 in layer S2 |
Eutrophication |
BLOOMALG01 |
(gC/m3) |
concentration of algae type 1 |
Eutrophication |
BLOOMALG02 |
(gC/m3) |
concentration of algae type 2 |
Eutrophication |
BLOOMALG03 |
(gC/m3) |
concentration of algae type 3 |
Eutrophication |
BLOOMALG04 |
(gC/m3) |
concentration of algae type 4 |
Eutrophication |
BLOOMALG05 |
(gC/m3) |
concentration of algae type 5 |
Eutrophication |
BLOOMALG06 |
(gC/m3) |
concentration of algae type 6 |
Eutrophication |
BLOOMALG07 |
(gC/m3) |
concentration of algae type 7 |
Eutrophication |
BLOOMALG08 |
(gC/m3) |
concentration of algae type 8 |
Eutrophication |
BLOOMALG09 |
(gC/m3) |
concentration of algae type 9 |
Eutrophication |
BLOOMALG10 |
(gC/m3) |
concentration of algae type 10 |
Eutrophication |
BLOOMALG11 |
(gC/m3) |
concentration of algae type 11 |
Eutrophication |
BLOOMALG12 |
(gC/m3) |
concentration of algae type 12 |
Eutrophication |
BLOOMALG13 |
(gC/m3) |
concentration of algae type 13 |
Eutrophication |
BLOOMALG14 |
(gC/m3) |
concentration of algae type 14 |
Eutrophication |
BLOOMALG15 |
(gC/m3) |
concentration of algae type 15 |
Eutrophication |
DetC |
(gC/m3) |
Detritus Carbon (DetC) |
Eutrophication |
DetCS1 |
(gC) |
DetC in layer S1 |
Eutrophication |
DetCS2 |
(gC) |
DetC in layer S2 |
Eutrophication |
DetN |
(gN/m3) |
Detritus Nitrogen (DetN) |
Eutrophication |
DetNS1 |
(gN) |
DetN in layer S1 |
Eutrophication |
DetNS2 |
(gN) |
DetN in layer S2 |
Eutrophication |
DetP |
(gP/m3) |
Detritus Phosphorus (DetP) |
Eutrophication |
DetPS1 |
(gP) |
DetP in layer S1 |
Eutrophication |
DetPS2 |
(gP) |
DetP in layer S2 |
Eutrophication |
DetSi |
(gSi/m3) |
Detritus Silica (DetSi) |
Eutrophication |
DetSiS1 |
(gSi) |
DetSi in layer S1 |
Eutrophication |
DetSiS2 |
(gSi) |
DetSi in layer S2 |
Eutrophication |
DIAT |
(gC/m3) |
Diatoms |
Eutrophication |
DiatS1 |
(gC) |
Diatoms in layer S1 |
Eutrophication |
DiatS2 |
(gC) |
Diatoms in layer S2 |
Eutrophication |
GREEN |
(gC/m3) |
Algae (non-Diatoms) |
Eutrophication |
GreenS1 |
(gC) |
Algae in layer S1 |
Eutrophication |
GreenS2 |
(gC) |
Algae in layer S2 |
Eutrophication |
NH4 |
(gN/m3) |
Ammonium (NH4) |
Eutrophication |
NO3 |
(gN/m3) |
Nitrate (NO3) |
Eutrophication |
OOC |
(gC/m3) |
Other Organic Carbon (OOC) |
Eutrophication |
OOCS1 |
(gC) |
OOC in layer S1 |
Eutrophication |
OOCS2 |
(gC) |
OOC in layer S2 |
Eutrophication |
OON |
(gN/m3) |
Other Organic Nitrogen (OON) |
Eutrophication |
OONS1 |
(gN) |
OON in layer S1 |
Eutrophication |
OONS2 |
(gN) |
OON in layer S2 |
Eutrophication |
OOP |
(gN/m3) |
Other Organic Phosphorus (OOP) |
Eutrophication |
OOPS1 |
(gP) |
OOP in layer S1 |
Eutrophication |
OOPS2 |
(gP) |
OOP in layer S2 |
Eutrophication |
OOSi |
(gSi/m3) |
Other Organic Silica (OOSi) |
Eutrophication |
OOSiS1 |
(gSi) |
OOSi in layer S1 |
Eutrophication |
OOSiS2 |
(gSi) |
OOSi in layer S2 |
Eutrophication |
PAP |
(gP/m3) |
Adsorbed ortho-phosphate (irreversible) |
Eutrophication |
PO4 |
(gP/m3) |
Ortho-Phosphate (PO4) |
Eutrophication |
Si |
(gSi/m3) |
dissolved Silica (Si) |
Eutrophication |
APHANFIX |
(gC/m3) |
N-fixing Aphanizomenon |
Eutrophication |
APHANIZO |
(gC/m3) |
Aphanizomenon |
Eutrophication |
BLUEGRN |
(gC/m3) |
Blue Greens |
Eutrophication |
DINOFLAG |
(gC/m3) |
Dinoflagellates |
Eutrophication |
DINOMIX |
(gC/m3) |
Mixotrophic dinoflagellates |
Eutrophication |
FDIATOMS |
(gC/m3) |
Freshwater Diatoms |
Eutrophication |
FFLAGELA |
(gC/m3) |
Freshwater flagellates |
Eutrophication |
GREENS |
(gC/m3) |
Green algae |
Eutrophication |
MDIATOMS |
(gC/m3) |
Marine Diatoms |
Eutrophication |
MFLAGELA |
(gC/m3) |
Marine flagellates |
Eutrophication |
MICROCYS |
(gC/m3) |
Microcystis |
Eutrophication |
OSCILAT |
(gC/m3) |
Oscillatoria |
Eutrophication |
PHAEOCYS |
(gC/m3) |
Phaeocystis |
Eutrophication |
UlvaF |
(gC) |
Ulva rooted |
Eutrophication |
UlvaS |
(gC/m3) |
Ulva suspended |
Eutrophication |
SO4 |
(gS/m3) |
sulphate (SO4) |
Eutrophication |
SUD |
(gS/m3) |
total dissolved sulphide (SUD) |
Eutrophication |
SUP |
(gS/m3) |
particulate sulphide (SUP) |
Eutrophication |
Bulkvolume |
|
undefined |
GEM Substances |
DOC |
(gC/m3) |
Dissolved Organic Carbon (DOC) |
GEM Substances |
DON |
(gN/m3) |
Dissolved Organic Nitrogen (DON) |
GEM Substances |
DOP |
(gP/m3) |
Dissolved Organic Phosphorus (DOP) |
GEM Substances |
Mfb1Diat |
(gC/m3) |
microfytobenthos (Diatoms) |
GEM Substances |
MFB1DiatS1 |
(gC) |
MFB Diatoms biomass in layer S1 |
GEM Substances |
MFB1DiatS2 |
(gC) |
MFB Diatoms biomass in layer S2 |
GEM Substances |
MFB2NDiaS1 |
(gC) |
MFB n-diat biomass in layer S1 |
GEM Substances |
MFB2NDiaS2 |
(gC) |
MFB n-diat biomass in sediment S2 |
GEM Substances |
Mfb2NDiat |
(gC/m3) |
microfytobenthos (non-Diatoms) |
GEM Substances |
Mnd1Diat-m |
(gC/m3) |
algae Mnd1 Diat-m |
GEM Substances |
Mnd2Flag-m |
(gC/m3) |
algae Mnd2 Flag-m |
GEM Substances |
Mnd3Diat-f |
(gC/m3) |
algae Mnd3 Diat-f |
GEM Substances |
Mnd4Flag-f |
(gC/m3) |
algae Mnd4 Flag-f |
GEM Substances |
Opal |
(gSi/m3) |
Opal-Si |
GEM Substances |
POC1 |
(gC/m3) |
POC1 (fast decaying fraction) |
GEM Substances |
POC2 |
(gC/m3) |
POC2 (slow decaying fraction) |
GEM Substances |
POC3 |
(gC/m3) |
POC3 (refractory fraction) |
GEM Substances |
PON1 |
(gN/m3) |
PON1 (fast decaying fraction) |
GEM Substances |
PON2 |
(gN/m3) |
PON2 (slow decaying fraction) |
GEM Substances |
PON3 |
(gN/m3) |
PON1 (refractory fraction) |
GEM Substances |
POP1 |
(gP/m3) |
POP1 (fast decaying fraction) |
GEM Substances |
POP2 |
(gP/m3) |
POP2 (slow decaying fraction) |
GEM Substances |
POP3 |
(gP/m3) |
POP3 (refractory fraction) |
GEM Substances |
POSi1 |
(gSi/m3) |
dummy fast detritus silicium |
GEM Substances |
VIVP |
(gP/m3) |
Vivianite-P |
GEM Substances |
ZooDyn |
(gC/m3) |
concentration of zooplankton, forcing |
GEM Substances |
Alka |
(gHCO3/m3) |
alkalinity |
General |
Cl |
(g/m3) |
Chloride |
General |
Continuity |
(g/m3) |
Continuity |
General |
DisHum |
(g/m3) |
Dissolved humic acids |
General |
ModTemp |
(oC) |
Water Temperature |
General |
NatTemp |
(oC) |
natural temperature |
General |
Salinity |
(g/kg) |
Salinity |
General |
TIC |
(gC/m3) |
total inorganic carbonate |
General |
FrCon |
|
Fraction fresh water from constant discharge |
General |
FrFlow |
|
Fraction fresh water from variable discharge |
General |
SalBnd |
(ppt) |
Salinity from boundary inflow |
General |
Cd |
(g/m3) |
Cadmium (Cd) |
Heavy metals |
Cd-Dis |
(g/m3) |
dissolved concentration Cd |
Heavy metals |
Cd-Par |
(g/m3) |
particulate concentration Cd |
Heavy metals |
CdS1 |
(g) |
Cd in layer S1 |
Heavy metals |
CdS1-Dis |
(g) |
dissolved mass Cd in layer S1 |
Heavy metals |
CdS1-Par |
(g) |
particulate mass Cd in layer S1 |
Heavy metals |
CdS2 |
(g) |
Cd in layer S2 |
Heavy metals |
CdS2-Dis |
(g) |
dissolved mass Cd in layer S2 |
Heavy metals |
CdS2-Par |
(g) |
particulate mass Cd in layer S2 |
Heavy metals |
Cr |
(g/m3) |
Chromium (Cr) |
Heavy metals |
Cr-Dis |
(g/m3) |
dissolved concentration Cr |
Heavy metals |
Cr-Par |
(g/m3) |
particulate concentration Cr |
Heavy metals |
CrS1 |
(g) |
Cr in layer S1 |
Heavy metals |
CrS1-Dis |
(g) |
dissolved mass Cr in layer S1 |
Heavy metals |
CrS1-Par |
(g) |
particulate mass Cr in layer S1 |
Heavy metals |
CrS2 |
(g) |
Cr in layer S2 |
Heavy metals |
CrS2-Dis |
(g) |
dissolved mass Cr in layer S2 |
Heavy metals |
CrS2-Par |
(g) |
particulate mass Cr in layer S2 |
Heavy metals |
Cu |
(g/m3) |
Copper (Cu) |
Heavy metals |
Cu-Dis |
(g/m3) |
dissolved concentration Cu |
Heavy metals |
Cu-Par |
(g/m3) |
particulate concentration Cu |
Heavy metals |
CuS1 |
(g) |
Cu in layer S1 |
Heavy metals |
CuS1-Dis |
(g) |
dissolved mass Cu in layer S1 |
Heavy metals |
CuS1-Par |
(g) |
particulate mass Cu in layer S1 |
Heavy metals |
CuS2 |
(g) |
Cu in layer S2 |
Heavy metals |
CuS2-Dis |
(g) |
dissolved mass Cu in layer S2 |
Heavy metals |
CuS2-Par |
(g) |
particulate mass Cu in layer S2 |
Heavy metals |
Hg |
(g/m3) |
Mercury (Hg) |
Heavy metals |
Hg-Dis |
(g/m3) |
dissolved concentration Hg |
Heavy metals |
Hg-Par |
(g/m3) |
particulate concentration Hg |
Heavy metals |
HgS1 |
(g) |
Hg in layer S1 |
Heavy metals |
HgS1-Dis |
(g) |
dissolved mass Hg in layer S1 |
Heavy metals |
HgS1-Par |
(g) |
particulate mass Hg in layer S1 |
Heavy metals |
HgS2 |
(g) |
Hg in layer S2 |
Heavy metals |
HgS2-Dis |
(g) |
dissolved mass Hg in layer S2 |
Heavy metals |
HgS2-Par |
(g) |
particulate mass Hg in layer S2 |
Heavy metals |
Ni |
(g/m3) |
Nickel (Ni) |
Heavy metals |
Ni-Dis |
(g/m3) |
dissolved concentration Ni |
Heavy metals |
Ni-Par |
(g/m3) |
particulate concentration Ni |
Heavy metals |
NiS1 |
(g) |
Ni in layer S1 |
Heavy metals |
NiS1-Dis |
(g) |
dissolved mass Ni in layer S1 |
Heavy metals |
NiS1-Par |
(g) |
particulate mass Ni in layer S1 |
Heavy metals |
NiS2 |
(g) |
Ni in layer S2 |
Heavy metals |
NiS2-Dis |
(g) |
dissolved mass Ni in layer S2 |
Heavy metals |
NiS2-Par |
(g) |
particulate mass Ni in layer S2 |
Heavy metals |
Pb |
(g/m3) |
Lead (Pb) |
Heavy metals |
Pb-Dis |
(g/m3) |
dissolved concentration Pb |
Heavy metals |
Pb-Par |
(g/m3) |
particulate concentration Pb |
Heavy metals |
PbS1 |
(g) |
Pb in layer S1 |
Heavy metals |
PbS1-Dis |
(g) |
dissolved mass Pb in layer S1 |
Heavy metals |
PbS1-Par |
(g) |
particulate mass Pb in layer S1 |
Heavy metals |
PbS2 |
(g) |
Pb in layer S2 |
Heavy metals |
PbS2-Dis |
(g) |
dissolved mass Pb in layer S2 |
Heavy metals |
PbS2-Par |
(g) |
particulate mass Pb in layer S2 |
Heavy metals |
Va |
(g/m3) |
Vanadium (Va) |
Heavy metals |
Va-Dis |
(g/m3) |
dissolved concentration Va |
Heavy metals |
Va-Par |
(g/m3) |
particulate concentration Va |
Heavy metals |
VaS1 |
(g) |
Va in layer S1 |
Heavy metals |
VaS1-Dis |
(g) |
dissolved mass Va in layer S1 |
Heavy metals |
VaS1-Par |
(g) |
particulate mass Va in layer S1 |
Heavy metals |
VaS2 |
(g) |
Va in layer S2 |
Heavy metals |
VaS2-Dis |
(g) |
dissolved mass Va in layer S2 |
Heavy metals |
VaS2-Par |
(g) |
particulate mass Va in layer S2 |
Heavy metals |
Zn |
(g/m3) |
Zinc (Zn) |
Heavy metals |
Zn-Dis |
(g/m3) |
dissolved concentration Zn |
Heavy metals |
Zn-Par |
(g/m3) |
particulate concentration Zn |
Heavy metals |
ZnS1 |
(g) |
Zn in layer S1 |
Heavy metals |
ZnS1-Dis |
(g) |
dissolved mass Zn in layer S1 |
Heavy metals |
ZnS1-Par |
(g) |
particulate mass Zn in layer S1 |
Heavy metals |
ZnS2 |
(g) |
Zn in layer S2 |
Heavy metals |
ZnS2-Dis |
(g) |
dissolved mass Zn in layer S2 |
Heavy metals |
ZnS2-Par |
(g) |
particulate mass Zn in layer S2 |
Heavy metals |
As |
(g/m3) |
Arsenic (As) |
Heavy metals |
As-Dis |
(g/m3) |
dissolved concentration As |
Heavy metals |
As-Par |
(g/m3) |
particulate concentration As |
Heavy metals |
AsS1 |
(g) |
As in layer S1 |
Heavy metals |
AsS1-Dis |
(g) |
dissolved mass As in layer S1 |
Heavy metals |
AsS1-Par |
(g) |
particulate mass As in layer S1 |
Heavy metals |
AsS2 |
(g) |
As in layer S2 |
Heavy metals |
AsS2-Dis |
(g) |
dissolved mass As in layer S2 |
Heavy metals |
AsS2-Par |
(g) |
particulate mass As in layer S2 |
Heavy metals |
Cha |
gC/m3 |
Chattonella sp. |
Kajima |
ChaN |
gN/m3 |
Chattonella sp. Nitrogen |
Kajima |
ChaP |
gP/m3 |
Chattonella sp. Phosphorus |
Kajima |
COD1_NK |
(mgO/l) |
Imported COD NK |
Kajima specials |
COD2_NK |
(mgO/l) |
Internally produced COD NK |
Kajima specials |
DO_NK |
(gO2/m3) |
Dissolved oxygen NK |
Kajima specials |
IN_NK |
(mgN/l) |
Inorganic nitrogen NK |
Kajima specials |
IP_NK |
(mgP/l) |
Inorganic phosphorus NK |
Kajima specials |
ON_NK |
(mgN/l) |
Organic nitrogen NK |
Kajima specials |
OP_NK |
(mgP/l) |
Organic phosphorus NK |
Kajima specials |
S2MIN_AO |
(mg S/l) |
Sulphide |
Kajima specials |
SULPH_AO |
(mg S/l) |
Sulphur particles |
Kajima specials |
153 |
(g/m3) |
Polychloorbiphenyl (PCB-153) |
Organic micro pollutants |
153-dis |
(g/m3) |
dissolved concentration 153 |
Organic micro pollutants |
153-par |
(g/m3) |
particulate concentration 153 |
Organic micro pollutants |
153S1 |
(g) |
PCB-153 in layer S1 |
Organic micro pollutants |
153S1-Dis |
(g) |
dissolved mass 153 in layer S1 |
Organic micro pollutants |
153S1-Par |
(g) |
particulate mass 153 in layer S1 |
Organic micro pollutants |
153S2 |
(g) |
PCB-153 in layer S2 |
Organic micro pollutants |
153S2-Dis |
(g) |
dissolved mass 153 in layer S2 |
Organic micro pollutants |
153S2-Par |
(g) |
particulate mass 153 in layer S2 |
Organic micro pollutants |
Atr |
(g/m3) |
Atrazine (Atr) |
Organic micro pollutants |
Atr-dis |
(g/m3) |
dissolved concentration Atrazine |
Organic micro pollutants |
Atr-par |
(g/m3) |
particulate concentration Atrazine |
Organic micro pollutants |
AtrS1 |
(g) |
Atrazine in layer S1 |
Organic micro pollutants |
AtrS1-Dis |
(g) |
dissolved mass Atrazine in layer S1 |
Organic micro pollutants |
AtrS1-Par |
(g) |
particulate mass Atrazine in layer S1 |
Organic micro pollutants |
AtrS2 |
(g) |
Atrazine in layer S2 |
Organic micro pollutants |
AtrS2-Dis |
(g) |
dissolved mass Atrazine in layer S2 |
Organic micro pollutants |
AtrS2-Par |
(g) |
particulate mass Atrazine in layer S2 |
Organic micro pollutants |
BaP |
(g/m3) |
Benzo(a)pyrene (BaP) |
Organic micro pollutants |
BaP-dis |
(g/m3) |
dissolved concentration BaP |
Organic micro pollutants |
BaP-par |
(g/m3) |
particulate concentration BaP |
Organic micro pollutants |
BaPS1 |
(g) |
BaP in layer S1 |
Organic micro pollutants |
BaPS1-Dis |
(g) |
dissolved mass BaP in layer S1 |
Organic micro pollutants |
BaPS1-Par |
(g) |
particulate mass BaP in layer S1 |
Organic micro pollutants |
BaPS2 |
(g) |
BaP in layer S2 |
Organic micro pollutants |
BaPS2-Dis |
(g) |
dissolved mass BaP in layer S2 |
Organic micro pollutants |
BaPS2-Par |
(g) |
particulate mass BaP in layer S2 |
Organic micro pollutants |
Diu |
(g/m3) |
Diuron (Diu) |
Organic micro pollutants |
Diu-dis |
(g/m3) |
dissolved concentration Diu |
Organic micro pollutants |
Diu-par |
(g/m3) |
particulate concentration Diu |
Organic micro pollutants |
DiuS1 |
(g) |
Diu in layer S1 |
Organic micro pollutants |
DiuS1-Dis |
(g) |
dissolved mass Diu in layer S1 |
Organic micro pollutants |
DiuS1-Par |
(g) |
particulate mass Diu in layer S1 |
Organic micro pollutants |
DiuS2 |
(g) |
Diu in layer S2 |
Organic micro pollutants |
DiuS2-Dis |
(g) |
dissolved mass Diu in layer S2 |
Organic micro pollutants |
DiuS2-Par |
(g) |
particulate mass Diu in layer S2 |
Organic micro pollutants |
Flu |
(g/m3) |
Fluoranthene (Flu) |
Organic micro pollutants |
Flu-dis |
(g/m3) |
dissolved concentration Flu |
Organic micro pollutants |
Flu-par |
(g/m3) |
particulate concentration Flu |
Organic micro pollutants |
FluS1 |
(g) |
Flu in layer S1 |
Organic micro pollutants |
FluS1-Dis |
(g) |
dissolved mass Flu in layer S1 |
Organic micro pollutants |
FluS1-Par |
(g) |
particulate mass Flu in layer S1 |
Organic micro pollutants |
FluS2 |
(g) |
Flu in layer S2 |
Organic micro pollutants |
FluS2-Dis |
(g) |
dissolved mass Flu in layer S2 |
Organic micro pollutants |
FluS2-Par |
(g) |
particulate mass Flu in layer S2 |
Organic micro pollutants |
HCB |
(g/m3) |
Hexachlorobenzene (HCH) |
Organic micro pollutants |
HCB-dis |
(g/m3) |
dissolved concentration HCB |
Organic micro pollutants |
HCB-par |
(g/m3) |
particulate concentration HCB |
Organic micro pollutants |
HCBS1 |
(g) |
HCB in layer S1 |
Organic micro pollutants |
HCBS1-Dis |
(g) |
dissolved mass HCB in layer S1 |
Organic micro pollutants |
HCBS1-Par |
(g) |
particulate mass HCB in layer S1 |
Organic micro pollutants |
HCBS2 |
(g) |
HCB in layer S2 |
Organic micro pollutants |
HCBS2-Dis |
(g) |
dissolved mass HCB in layer S2 |
Organic micro pollutants |
HCBS2-Par |
(g) |
particulate mass HCB in layer S2 |
Organic micro pollutants |
HCH |
(g/m3) |
Lindane (HCH) |
Organic micro pollutants |
HCH-dis |
(g/m3) |
dissolved concentration HCH |
Organic micro pollutants |
HCH-par |
(g/m3) |
particulate concentration HCH |
Organic micro pollutants |
HCHS1 |
(g) |
HCH in layer S1 |
Organic micro pollutants |
HCHS1-Dis |
(g) |
dissolved mass HCH in layer S1 |
Organic micro pollutants |
HCHS1-Par |
(g) |
particulate mass HCH in layer S1 |
Organic micro pollutants |
HCHS2 |
(g) |
HCH in layer S2 |
Organic micro pollutants |
HCHS2-Dis |
(g) |
dissolved mass HCH in layer S2 |
Organic micro pollutants |
HCHS2-Par |
(g) |
particulate mass HCH in layer S2 |
Organic micro pollutants |
Mef |
(g/m3) |
Mefinphos (Mef) |
Organic micro pollutants |
Mef-dis |
(g/m3) |
dissolved concentration Mef |
Organic micro pollutants |
Mef-par |
(g/m3) |
particulate concentration Mef |
Organic micro pollutants |
MefS1 |
(g) |
Mef in layer S1 |
Organic micro pollutants |
MefS1-Dis |
(g) |
dissolved mass Mef in layer S1 |
Organic micro pollutants |
MefS1-Par |
(g) |
particulate mass Mef in layer S1 |
Organic micro pollutants |
MefS2 |
(g) |
Mef in layer S2 |
Organic micro pollutants |
MefS2-Dis |
(g) |
dissolved mass Mef in layer S2 |
Organic micro pollutants |
MefS2-Par |
(g) |
particulate mass Mef in layer S2 |
Organic micro pollutants |
OMP |
(g/m3) |
Organic Micro Pollutant (OMP) |
Organic micro pollutants |
OMPS1 |
(g) |
OMP in sediment 1 |
Organic micro pollutants |
OMPS1-Dis |
(g) |
dissolved mass OMP in S1 |
Organic micro pollutants |
OMPS1-Par |
(g) |
particulate mass OMP in S1 |
Organic micro pollutants |
OMPS2 |
(g) |
OMP in sediment 2 |
Organic micro pollutants |
OMPS2-Dis |
(g) |
dissolved mass OMP in S2 |
Organic micro pollutants |
OMPS2-Par |
(g) |
particulate mass OMP in S2 |
Organic micro pollutants |
OMP-dis |
(g/m3) |
dissolved concentration OMP |
Organic micro pollutants |
OMP-par |
(g/m3) |
particulate concentration OMP |
Organic micro pollutants |
BODC |
(gC/m3) |
BOD-Carbon |
Oxygen-BOD |
BODCS1 |
(gC) |
BOD-Carbon in layer S1 |
Oxygen-BOD |
CBOD5 |
(gO2/m3) |
carbonaceous BOD (first pool) at 5 days |
Oxygen-BOD |
CBOD5_2 |
(gO2/m3) |
carbonaceous BOD (second pool) at 5 days |
Oxygen-BOD |
CBODu |
(gO2/m3) |
carbonaceous BOD (first pool) ultimate |
Oxygen-BOD |
CBODu_2 |
(gO2/m3) |
carbonaceous BOD (second pool) ultimate |
Oxygen-BOD |
COD_Cr |
(gO2/m3) |
COD concentration by the Cr-method |
Oxygen-BOD |
COD_Mn |
(gO2/m3) |
COD concentration by the Mn-method |
Oxygen-BOD |
NBOD5 |
(gO2/m3) |
nitrogenous BOD at 5 days |
Oxygen-BOD |
NBODu |
(gO2/m3) |
nitrogenous BOD ultimate |
Oxygen-BOD |
OXY |
(g/m3) |
Dissolved Oxygen |
Oxygen-BOD |
SOD |
(gO2/m3) |
Sediment oxygen demand (SOD) |
Oxygen-BOD |
CBOD5_3 |
(gO2/m3) |
carbonaceous BOD (third pool) at 5 days |
Oxygen-BOD |
IM1 |
(gDM/m3) |
inorganic matter (IM1) |
Suspended matter |
IM1S1 |
(gDM) |
IM1 in layer S1 |
Suspended matter |
IM1S2 |
(gDM) |
IM1 in layer S2 |
Suspended matter |
IM2 |
(gDM/m3) |
inorganic matter (IM2) |
Suspended matter |
IM2S1 |
(gDM) |
IM2 in layer S1 |
Suspended matter |
IM2S2 |
(gDM) |
IM2 in layer S2 |
Suspended matter |
IM3 |
(gDM/m3) |
inorganic matter (IM3) |
Suspended matter |
IM3S1 |
(gDM) |
IM3 in layer S1 |
Suspended matter |
IM3S2 |
(gDM) |
IM3 in layer S2 |
Suspended matter |
Zsand |
(mm) |
Sand |
Suspended matter |
http://cf-pcmdi.llnl.gov/documents/cf-standard-names/8/cf-standard-name-table.html/
Standard names for chemicals:
http://en.wikipedia.org/wiki/IUPAC_nomenclature_of_inorganic_chemistry
Locations (Staggering)
Grid/network
Aggregation methods
Required information per file format:
- References to write and read routines.
- References to example files. (in quickplot tests)
- For each file we need information of how this file will be made CF compliant.
GRID
file:///d:/checkouts/matlab/Grid - Dutch Coast
file:///d:/checkouts/matlab/GRID - FLOW restart
file:///d:/checkouts/matlab/Grid - grensproject
file:///d:/checkouts/matlab/Grid - Maas
file:///d:/checkouts/matlab/Grid - opstuw
file:///d:/checkouts/matlab/GRID - portcarrara
file:///d:/checkouts/matlab/Grid - Roosteren
file:///d:/checkouts/matlab/Grid - SWAN
file:///d:/checkouts/matlab/GRID - trirst - JJ
file:///d:/checkouts/matlab/GRID - tru1 - JM
file:///d:/checkouts/matlab/GRID - weirs
file:///d:/checkouts/matlab/Grid - World
Delft3D-FLOW - COM
file:///d:/checkouts/matlab/Delft3D-PAR - COM and PLO
file:///d:/checkouts/matlab/Delft3D-FLOW - COM - z-layer - 125
Delft3D-FLOW - TRID
file:///d:/checkouts/matlab/Delft3D-FLOW - TRID - s33
Delft3D-FLOW - TRIH
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - a01 - Giles
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - AdrianWright
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - b64
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - c13
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - c16 - sdx series
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - cz7 - Western Scheldt Scale Model
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - dd5 - JanJoost
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - du9 - Duck
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - faa
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - g1a
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - Hsu
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - m01 - Meghna Estuary
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - mu3
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - new - JvK-testgoot
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - nm1
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - ref - DirkSchwanenberg
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - s33
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - t01 - Dredging
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - t01- D&D
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - tt0 - culvert
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - tt1 - culvert
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - tt2 - culvert
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIH - w12 - Giles
Delft3D-FLOW - TRIM
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - 1c1 - TRITON coupling
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - c06 - Giles
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - c16 - morph. time
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - cz4l - Western Scheldt Scale Model
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - du9 - Duck
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - edw
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - fl2 - Slib3D
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - m01 - Meghna Estuary
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - new - JvK-testgoot
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - s33
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - t01 - old 3DMOR
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - TAI
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - tes - 2D Roller
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - tes - 3D Roller
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - v15
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - z-layer - 125
file:///d:/checkouts/matlab/Delft3D-FLOW - TRIM - zp0
Delft3D-PAR - HIS - Binary
file:///d:/checkouts/matlab/Delft3D-PAR - HIS - Nefis - par2
file:///d:/checkouts/matlab/Delft3D-PAR - HIS - Nefis - parn
Delft3D-PAR - HIS - Nefis
file:///d:/checkouts/matlab/Delft3D-PAR - MAPasHIS - Binary - par2
Delft3D-PAR - MAP - Binary
file:///d:/checkouts/matlab/Delft3D-PAR - MAP - Binary - par2
file:///d:/checkouts/matlab/Delft3D-PAR - MAP - Binary - parn
Delft3D-PAR - MAP - Nefis
file:///d:/checkouts/matlab/Delft3D-PAR - MAP - Nefis - par2
file:///d:/checkouts/matlab/Delft3D-PAR - MAP - Nefis - parn
Delft3D-PAR - PLOT - Binary
file:///d:/checkouts/matlab/Delft3D-PAR - PLOT - Binary
file:///d:/checkouts/matlab/Delft3D-PAR - PLOT - Binary - bed layer
file:///d:/checkouts/matlab/Delft3D-PAR - PLOT - Binary - par2
file:///d:/checkouts/matlab/Delft3D-PAR - PLOT - Binary - parn
Delft3D-PAR - PLOT - Nefis
file:///d:/checkouts/matlab/Delft3D-PAR - PLOT - Nefis
file:///d:/checkouts/matlab/Delft3D-PAR - PLOT - Nefis - bed layer
file:///d:/checkouts/matlab/Delft3D-PAR - PLOT - Nefis - par2
file:///d:/checkouts/matlab/Delft3D-PAR - PLOT - Nefis - parn
Delft3D-PAR - PSF - Binary
file:///d:/checkouts/matlab/Delft3D-PAR - PSF - Binary
Delft3D-PAR - PSF - Nefis
file:///d:/checkouts/matlab/Delft3D-PAR - PSF - Nefis
Delft3D-PAR - TRK
file:///d:/checkouts/matlab/Delft3D-PAR - TRK
Delft3D-WAQ - BAL
file:///d:/checkouts/matlab/Delft3D-WAQ - BAL - Binary - Tenryuu
Delft3D-WAQ - HIS - Binary
Delft3D-WAQ - HIS - Nefis
file:///d:/checkouts/matlab/Delft3D-WAQ - HIS - Nefis - Limiting Factors
file:///d:/checkouts/matlab/Delft3D-WAQ - HIS - Nefis - Tenryuu
file:///d:/checkouts/matlab/Delft3D-WAQ - HIS - Nefis - test013
Delft3D-WAQ - LGACCO
file:///d:/checkouts/matlab/Delft3D-WAQ - LGACCO - gw1
Delft3D-WAQ - MAP - Binary
file:///d:/checkouts/matlab/Delft3D-WAQ - MAP - Binary
file:///d:/checkouts/matlab/Delft3D-WAQ - MAP - Binary - Hong_Li
file:///d:/checkouts/matlab/Delft3D-WAQ - MAP - Binary - no T0
file:///d:/checkouts/matlab/Delft3D-WAQ - MAP - Binary - Pearl
file:///d:/checkouts/matlab/Delft3D-WAQ - MAP - Binary - Waddenzee
file:///d:/checkouts/matlab/Delft3D-WAQ - MAP - Binary - z-layer - c02
Delft3D-WAQ - MAP - Nefis
file:///d:/checkouts/matlab/Delft3D-WAQ - MAP - Nefis - Tenryuu
Delft3D-WAVE - WAVM
file:///d:/checkouts/matlab/Delft3D-WAVE - WAVM - cst - multiple times
file:///d:/checkouts/matlab/Delft3D-WAVE - WAVM - cvn
file:///d:/checkouts/matlab/Delft3D-WAVE - WAVM - st2-01 - Giles
These older Delft3D-WAVE HWGXY files are almost identical to WAVM files with M and N index directions switched.
file:///d:/checkouts/matlab/Delft3D-WAVE - HWGXY - b64
file:///d:/checkouts/matlab/Delft3D-WAVE - HWGXY - du9 - Duck
file:///d:/checkouts/matlab/Delft3D-WAVE - HWGXY - siu
file:///d:/checkouts/matlab/Delft3D-WAVE - HWGXY - tes
Delft3D-WAVE - COM
Pharos - directional spreading
file:///d:/checkouts/matlab/Pharos - directional spreading - 1hr
file:///d:/checkouts/matlab/Pharos - directional spreading - 3hr
Pharos - seiches with locations
file:///d:/checkouts/matlab/Pharos - seiches with locations - I
file:///d:/checkouts/matlab/Pharos - seiches with locations - II
Pharos - spectral
file:///d:/checkouts/matlab/Pharos - spectral
Pharos - either one of three types above (need to check)
file:///d:/checkouts/matlab/Pharos - breaking
file:///d:/checkouts/matlab/Pharos - current
file:///d:/checkouts/matlab/Pharos - Dunkirk
file:///d:/checkouts/matlab/Pharos - h3288
file:///d:/checkouts/matlab/Pharos - long crested
file:///d:/checkouts/matlab/Pharos - seiching
file:///d:/checkouts/matlab/Pharos - Tm01
SIMONA - SDS
file:///d:/checkouts/matlab/SIMONA - SDS Waqad - 1
file:///d:/checkouts/matlab/SIMONA - SDS Waqad - 2
file:///d:/checkouts/matlab/SIMONA - SDS Waqad - 3
file:///d:/checkouts/matlab/SIMONA - SDS Waqbhd
file:///d:/checkouts/matlab/SIMONA - SDS Waqua
file:///d:/checkouts/matlab/SIMONA - SDS Waqua - Lent
file:///d:/checkouts/matlab/SIMONA - SDS-Waqua - Vortices
SOBEK-RE
file:///d:/checkouts/matlab/SOBEK-River - Maas
This test consists of multiple RE files. The deftop files are a previous version of the SOBEK river schematisation. The file specification has changed. Paul vd Berg has updated the sobcnv to convert old files to new files.
The following is a part of the file DEFTOP.1. I could not find a reference in the SOBEK documentation (chm help file). The first column seems to be an object. In this file it's either NODE or BRCH (branch?). The following columns seem to be paired. The line ends with the object name in lowercase.
So one line consists of:
Object Parameter Value Parameter Value Parameter Value Parameter Value object
The parameters
- id seems to be a non unique id, '001' is used for both a branch and a node.
- nm might be the name, probably limited to 9 characters for some historical reason.
- px looks like a cartesian coordinate for x
- py looks like a cartesian coordinate for y
- bn is probably a reference to a node (begin node?)
- en is probably a reference to a node (end node)
- al might be a reference to the length of the branch(in Cartesian space in m?)
...maas/data/deftop.1
NODE id '001' nm 'EysdenMSW' px 175810.0 py 307627.0 node NODE id '002' nm 'StPietMSW' px 176868.0 py 315464.0 node NODE id '003' nm 'km__14_84' px 176925.0 py 319425.0 node NODE id '004' nm 'BorghdMSW' px 176377.0 py 320325.0 node BRCH id '001' nm 'Kalkmas1' bn '001' en '002' al 8243 brch BRCH id '002' nm 'Kalkmas2' bn '002' en '003' al 4039 brch
file:///d:/checkouts/matlab/SOBEK-River - Maas2
file:///d:/checkouts/matlab/SOBEK-River - Simple
file:///d:/checkouts/matlab/SOBEK-River - Wheatstone
SOBEK-Rural/Urban
file:///d:/checkouts/matlab/SOBEK-Rural - GWV
file:///d:/checkouts/matlab/SOBEK-Rural - netwerk6.6
Skylla
file:///d:/checkouts/matlab/Skylla
TRITON - 1D
file:///d:/checkouts/matlab/TRITON - 1D
TRITON - 2D
file:///d:/checkouts/matlab/TRITON - 2D
file:///d:/checkouts/matlab/TRITON - 2D - autodetect
Unibest
file:///d:/checkouts/matlab/Unibest Nieuw
file:///d:/checkouts/matlab/Unibest Nieuw - gwk
file:///d:/checkouts/matlab/Unibest Oud
Tekal - annotations
file:///d:/checkouts/matlab/Tekal - Annotations
Tekal - time series
file:///d:/checkouts/matlab/Tekal - Date - Time
file:///d:/checkouts/matlab/Tekal - Date and Time
file:///d:/checkouts/matlab/Tekal - datetime - EOF marker
file:///d:/checkouts/matlab/Tekal - yymmdd - hhmmss
Tekal - landboundary
file:///d:/checkouts/matlab/Tekal - LDB - 999.999
file:///d:/checkouts/matlab/Tekal - LDB - big combine
file:///d:/checkouts/matlab/Tekal - LDB - closed polygons
file:///d:/checkouts/matlab/Tekal - LDB - combine
Tekal - maps/vectors
file:///d:/checkouts/matlab/Tekal - vectors
Other quickplot test files
These files are not part of our conversion tests. Either because they are external generated files or because I couldn't classify the files or because it's a legacy format.
file:///d:/checkouts/matlab
file:///d:/checkouts/matlab/ArcGrid - adp
file:///d:/checkouts/matlab/ArcGrid - afb
file:///d:/checkouts/matlab/ArcGrid - afw
file:///d:/checkouts/matlab/ArcGrid - aht
file:///d:/checkouts/matlab/ArcGrid - amh series
file:///d:/checkouts/matlab/ArcGrid - amp pressure file
file:///d:/checkouts/matlab/ArcGrid - amuv
file:///d:/checkouts/matlab/ArcGrid - amuv series
file:///d:/checkouts/matlab/ArcGrid - amuv wind file
file:///d:/checkouts/matlab/ArcUnGenerate - Flevoland
file:///d:/checkouts/matlab/ArcUnGenerate - Jamuna
file:///d:/checkouts/matlab/AukePC - 1
file:///d:/checkouts/matlab/AukePC - 2
file:///d:/checkouts/matlab/AukePC - 3
file:///d:/checkouts/matlab/BIL - lidar
file:///d:/checkouts/matlab/BMP file
file:///d:/checkouts/matlab/BNA - 1
file:///d:/checkouts/matlab/BNA - 2
file:///d:/checkouts/matlab/BNA - 3
file:///d:/checkouts/matlab/BNA - Pellestrina
file:///d:/checkouts/matlab/FLS - BIN - History
file:///d:/checkouts/matlab/FLS - CRS - History
file:///d:/checkouts/matlab/FLS - HIS - History
file:///d:/checkouts/matlab/JPost - arjen
These meteo files used in earlier FEWS systems are NEFIS with similar internal structure as the Delft3D-COM file as written by Delft3D-FLOW.
file:///d:/checkouts/matlab/Meteo DWD GME
file:///d:/checkouts/matlab/Meteo DWD LM
file:///d:/checkouts/matlab/Meteo ECMWF Forecast
file:///d:/checkouts/matlab/Meteo ECMWF Old Ensemble
file:///d:/checkouts/matlab/MIKE - ct0 - eastci1
file:///d:/checkouts/matlab/MIKE - ct1 - cals500
file:///d:/checkouts/matlab/MIKE - ct1 - e500mar
file:///d:/checkouts/matlab/MIKE - ct2 - bathy
file:///d:/checkouts/matlab/MIKE - ct2 - saltem1
file:///d:/checkouts/matlab/MIKE - dfs0 - qqq
file:///d:/checkouts/matlab/MIKE - dfs1 - qqq
file:///d:/checkouts/matlab/MIKE - dfs2 - adres
file:///d:/checkouts/matlab/Mike - dfs2 - DHI-waterforecast
file:///d:/checkouts/matlab/MIKE - dfs3 - Grid1
file:///d:/checkouts/matlab/MorfTree - g01
file:///d:/checkouts/matlab/MorfTree - rij
file:///d:/checkouts/matlab/MorfTree - Walstra compex - 3dyn2
file:///d:/checkouts/matlab/MorfTree - Walstra compex - aa
file:///d:/checkouts/matlab/MorfTree - Walstra compex - ref
file:///d:/checkouts/matlab/MorfTree - Walstra compex - t01
file:///d:/checkouts/matlab/MorfTree - Walstra compex - t02
file:///d:/checkouts/matlab/MorfTree - wav
This is a Delft3D-FLOW COM file like file that was written by a special version of POM
file:///d:/checkouts/matlab/POM - COM
file:///d:/checkouts/matlab/Samples
file:///d:/checkouts/matlab/Shape - Line
file:///d:/checkouts/matlab/Shape - Point
file:///d:/checkouts/matlab/Shape - Polygon
file:///d:/checkouts/matlab/SIMONA - PRESENT - Tekal
file:///d:/checkouts/matlab/Sobek-Overland - Incremental Flevoland
file:///d:/checkouts/matlab/SWAN - s1d
file:///d:/checkouts/matlab/SWAN - sp1
file:///d:/checkouts/matlab/SWAN - sp2
file:///d:/checkouts/matlab/SWAN - sp2 - JJ
file:///d:/checkouts/matlab/SWAN - sp2 - ruwais
file:///d:/checkouts/matlab/Tekal - FK
file:///d:/checkouts/matlab/Telemac - 3D
file:///d:/checkouts/matlab/Telemac - BAW
file:///d:/checkouts/matlab/Telemac - English
file:///d:/checkouts/matlab/Telemac - Vlissingen