EZG-File: Difference between revisions

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*'''A''': unique ID (must begin with 'A'!)
*'''A''': unique ID (must begin with 'A'!)
*'''B''': calculation type [1-4] (see below). Refers to the non-sealed-off areas; the sealed-off areas are generally calculated with the same methods.
*'''B''': calculation type [1-4] (see below). Refers to the pervious areas; the impervious areas are generally calculated with the same methods.
*'''C''': area [ha]
*'''C''': area [ha]
*'''D''': degree of sealed-off area [%]
*'''D''': fraction of impervious area [%]
*'''E''': maximum height Höhe [müNN]
*'''E''': maximum height [müNN]
*'''F''': minimum height [müNN]
*'''F''': minimum height [müNN]
*'''G''': longest flow path [m]
*'''G''': longest flow path [m]
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*'''I''': calculation type for the evaporation (1 = annual evaporation; 2 = evaporation out of a time series / file)
*'''I''': calculation type for the evaporation (1 = annual evaporation; 2 = evaporation out of a time series / file)
**'''J''': annual evaporation [mm/a]  
**'''J''': annual evaporation [mm/a]  
*:If [[Bodenfeuchteberechnung | soil moisture calculation]]: the sum refering to grasland must be entered,which is internally overprinted with hydrographs accordint to  {{:Literatur:Brandt_1979|Brandt}} and Haude{{:Literatur:Haude_1954|}}{{:Literatur:Haude_1955|}} and is adjusted to the [[LNZ-Datei|land use]] in the individual hydrological response unit.
*:If [[Bodenfeuchteberechnung | soil moisture calculation]]: the sum refering to grasland must be entered,which is internally overprinted with hydrographs according to  {{:Literatur:Brandt_1979|Brandt}} and Haude{{:Literatur:Haude_1954|}}{{:Literatur:Haude_1955|}} and is adjusted to the [[LNZ-Datei|land use]] in the individual hydrological response unit.
**'''K''': filenumber of the evapotation time series to be utilized  (refer to [[TSIM.EXT | *.EXT-File]])
**'''K''': filenumber of the evapotation time series to be utilized  (refer to [[TSIM.EXT | *.EXT-File]])
*:''only daily values may be listed in the time series because the time series values are always additionally overprinted with a daily pattern! (Bug 1)''
*:''only daily values may be listed in the time series because the time series values are always additionally overprinted with a daily pattern! (Bug 1)''
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*'''L''': calculation type for the temperature (1 = mean value with optional [[TSIM.JGG | annual]]/[[TSIM.WGG | weekly]]/[[TSIM.TGG | daily pattern]]; 2 = temperature out of a time seres/ file)
*'''L''': calculation type for the temperature (1 = mean value with optional [[TSIM.JGG | annual]]/[[TSIM.WGG | weekly]]/[[TSIM.TGG | daily pattern]]; 2 = temperature out of a time seres/ file)
*'''M''': mean temperature [°C]
*'''M''': mean temperature [°C]
*'''N''', '''O''': number of the [[TSIM.JGG | annual]]/[[TSIM.WGG | weekly]]/[[TSIM.TGG | daily pattern]]to be utilized
*'''N''', '''O''': number of the [[TSIM.JGG | annual]]/[[TSIM.WGG | weekly]]/[[TSIM.TGG | daily pattern]] to be utilized
*'''P''': filenumber of the temperature time series to be utilized  (refer to [[TSIM.EXT | *.EXT-File]])
*'''P''': filenumber of the temperature time series to be utilized  (refer to [[TSIM.EXT | *.EXT-File]])


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*'''R1''': manual input of the retention constants as well as the distribution factors [Y/N] <br/>
*'''R1''': manual input of the retention constants as well as the distribution factors [Y/N] <br/>
*:if No (<code>N</code>) the retention constants as well as the distribution factors are calculated internally according to  {{:Literatur:Zaiß_1986|Zaiß}} on the basis of catchment characteristics  anhand. The calculated parameters are written into the [[$LOG.TXT|Protocol-File]],if it's activated.
*:if No (<code>N</code>) the retention constants as well as the distribution factors are calculated internally according to  {{:Literatur:Zaiß_1986|Zaiß}} on the basis of catchment characteristics  anhand. The calculated parameters are written into the [[$LOG.TXT|Protocol-File]],if it's activated.
*'''R2''': Retention constant of the sealed-off area cascade [h]
*'''R2''': Retention constant of the impervious area cascade [h]
*'''R3''': Retention constant of the fast cascade [h]
*'''R3''': Retention constant of the fast cascade [h]
*'''R4''': Retention constant of the slow cascade [h]
*'''R4''': Retention constant of the slow cascade [h]
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<u>Distribution factors:</u><br/>
<u>Distribution factors:</u><br/>
The distribution factors Beta1 and Beta2 only refer to ''non-sealed areas''!  
The distribution factors Beta1 and Beta2 only refer to ''pervious areas''!  


The sum of Beta1 and Beta2 must be 1  (<code>&beta;<sub>1</sub> + &beta;<sub>2</sub> = 1</code>)!
The sum of Beta1 and Beta2 must be 1  (<code>&beta;<sub>1</sub> + &beta;<sub>2</sub> = 1</code>)!
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*'''B2''': Distribution factor of the slow cascade <code>0 &le; &beta;<sub>2</sub> &le; 1</code>
*'''B2''': Distribution factor of the slow cascade <code>0 &le; &beta;<sub>2</sub> &le; 1</code>


The distribution factor <code>&beta;<sub>3</sub></code> of the cascade fot sealed-off areas is determined internally on basis of the degree of sealed-off area ('''D''').
The distribution factor <code>&beta;<sub>3</sub></code> of the cascade for impervious areas is determined internally on basis of the fraction of impervious areas ('''D''').


;Hint:Giving Beta2 is optional. If not given it's calculated by <code>&beta;<sub>2</sub> = 1. - &beta;<sub>1</sub></code>
;Hint:Giving Beta2 is optional. If not given it's calculated by <code>&beta;<sub>2</sub> = 1. - &beta;<sub>1</sub></code>

Revision as of 06:34, 25 February 2013

BlueM_icon.png BlueM.Sim | Downloads | Application | Theory | Development

Input files · ALL SYS · FKT KTR · EXT JGG WGG TGG · TAL HYA TRS EIN URB VER RUE BEK EZG FKA · BOA BOD LNZ EFL · DIF

Rural catchment

also refer to Theory: Rural catchment

File

*Einzugsgebiete (*.EZG)
*======================
*|------|-----|------------------------------|--------|------------------|------------------------|---------|-----|----------|-----|----------------------------------------------|--------------|-------------------------------------|--------------|
*| Bez  | KNG |      Gebietskenngroessen     |   N    |   Verdunstung    |       Temperatur       | QBASIS  | PSI | SCS (2)  | BF0 |        Retentionskonstanten                  |  Aufteilung  |           Schneekonstanten          | QSpende      |
*|      |     |   A    VG    Ho    Hu    L   | Datei  |Kng Sum    Datei  |Kng Tem JGG TGG  Datei  | qB  JGG | (1) | CN  VorRg| (3) | R  K(VG)   K1     K2    Int    Bas  nLin Expo| Beta1  Beta2 | R  GrT  NSchD  GrD   RateT   RateSB | MQ           |
*|------|-----|------------------------------|--------|------------------|------------------------|---------|-----|----------|-----|----------------------------------------------|--------------|-------------------------------------|--------------|
*|  -   | 1-4 |  ha     %   muNN  muNN   m   | Nummer |1/2 mm/a   Nummer |1/2 °C   -   -   Nummer |l/sqkm - |  -  |  -   mm  |  %  | -    h      h      h      h      h   J/N  -  |   -      -   | -  °C     %     %   mm/(°d)   mm/d  | m3/(s ha)    |
*|-<-->-|-<->-|<----><----><----><----><---->|<------>|-+-<---->-<------>|-+-<-->-<->-<->-<------>|<--->-<->|<--->|<---><--->|<--->|-+-<---->-<---->-<---->-<---->-<---->--+-<--->|-<---->-<---->|-+-<--->-<--->-<--->-<----->-<----->-|-<---------->-|
 |   A  |  B  |   C     D     E     F     G  |    H   | I    J       K   | L   M   N   O      P   |  Q    R |  S  |  T    U  |  V  |R1   R2     R3     R4     R5     R6   R7   R8 |   B1     B2  |S1   S2    S3    S4     S5      S6   |    Q1        |
*|------|-----|------------------------------|--------|------------------|------------------------|---------|-----|----------|-----|----------------------------------------------|--------------|-------------------------------------|--------------|

Explanations

Versionen:

  • v0.9.4:
    • ab r544: Aufteilungsfaktoren Beta beziehen sich nur noch auf unversiegelte Fläche; Beta2 optional
    • ab r532: wieder ohne urbane Gebiete
  • vorher
  • A: unique ID (must begin with 'A'!)
  • B: calculation type [1-4] (see below). Refers to the pervious areas; the impervious areas are generally calculated with the same methods.
  • C: area [ha]
  • D: fraction of impervious area [%]
  • E: maximum height [müNN]
  • F: minimum height [müNN]
  • G: longest flow path [m]

Rainfall:

  • H: Filenumber of the rainfall file (refer to *.EXT-File)

Evaporation:

  • I: calculation type for the evaporation (1 = annual evaporation; 2 = evaporation out of a time series / file)
    • J: annual evaporation [mm/a]
    If soil moisture calculation: the sum refering to grasland must be entered,which is internally overprinted with hydrographs according to Brandt[1] and Haude[2][3] and is adjusted to the land use in the individual hydrological response unit.
    • K: filenumber of the evapotation time series to be utilized (refer to *.EXT-File)
    only daily values may be listed in the time series because the time series values are always additionally overprinted with a daily pattern! (Bug 1)

Temperature:

Base flow:

  • Q: constant base flow [l/s.km²]
If soil moisture calculation this value only surves the purpose of calculating the initial reservoir content of the groundwater and interflow reservoirs:
S0,Basis = QB,0 × KBasis
S0,Interflow = QB,0 × KInterflow
  • R: number of the annual pattern to be utilized to scale the base flow (not used by soil moisture)

Calculation type 1: run-off coefficient method:

  • S: run-off coefficient (0 < ψ ≤ 1)
[math]\displaystyle{ \psi = \frac{N_{eff} + E_T + h_v}{N} }[/math]
with:
Neff=effective rainfall
ET = evaporation
hv = initial losses (losses due to wetting and troughs)
also refer to http://de.wikipedia.org/wiki/Abflussbeiwert

Calculation type 2: SCS-Method:

refer to Theory:SCS-Method
  • T: CN-Value (0 < CN ≤ 100)
  • U: 21-Day prior rainfall height [mm] (is distributed evenly over 21 days)

Calculation type 3: soil moisture calculation:

refer to Theory: soil moisture calculation
  • V: initial soil moisture [% of field capacity] this value is overprinted by the global initial soil moisture specified in the ALL-File.

Calculation type 4: specific discharge:

  • Q1: constant specific discharge [m3/(s ha)]

Retention constant:

Berechnung der Retentionskonstanten[4]
Parallelspeicherkaskaden
  • R1: manual input of the retention constants as well as the distribution factors [Y/N]
    if No (N) the retention constants as well as the distribution factors are calculated internally according to Zaiß[4] on the basis of catchment characteristics anhand. The calculated parameters are written into the Protocol-File,if it's activated.
  • R2: Retention constant of the impervious area cascade [h]
  • R3: Retention constant of the fast cascade [h]
  • R4: Retention constant of the slow cascade [h]
  • R5: Retention constant of interflow [h] (only for soil moisture calculation)
  • R6: Retention constant of base flow [h] (only for soil moisture calculation)
  • R7: non-linear calculation [Y/N]
  • R8: Exponent fot the non-linear calculation

Distribution factors:
The distribution factors Beta1 and Beta2 only refer to pervious areas!

The sum of Beta1 and Beta2 must be 1 (β1 + β2 = 1)!

  • B1: Distribution factor of the fast cascade 0 ≤ β1 ≤ 1
  • B2: Distribution factor of the slow cascade 0 ≤ β2 ≤ 1

The distribution factor β3 of the cascade for impervious areas is determined internally on basis of the fraction of impervious areas (D).

Hint
Giving Beta2 is optional. If not given it's calculated by β2 = 1. - β1

Snow constants:
For the calculation of snow the Snow-Compaction Method according to Knauf[5] is applied.

  • S1: manual input of the snow constants [Y/N]
    (if N or not available, standard parameters will be utilized)
  • S2: border temperature for the formation of snow [°C]
  • S3: new-snow density [%]
  • S4: border density as of which water output begins [%]
  • S5: temperature dependent melting rate [mm/(K×d)]
  • S6: Insolation and soil warmth dependent melting rate [mm/d]

Value ranges and standard parameters:

Parameter Unit Standar value Value range[5]
border temperature °C 0 ?
new-snow density % 11 5 - 20
border density % 40 40 - 45
temperature dependent melting rate mm/(K×d) 1.8 ?
Insolation and soil warmth dependent melting rate mm/d 4.2 ?

Specific discharge:
constant specific discharge (calculation type = 4)

  • Q1: constant specific discharge [m3/(s ha)]

Literature

  1. Brandt, T. (1979): Modell zur Abflussgangliniensimulation unter Berücksichtigung des grundwasserbürtigen Abflusses, Technischer Bericht Nr. 24 aus dem Institut für Wasserbau, Fachgebiet Ingenieurhydrologie und Hydraulik der TH Darmstadt
  2. Haude, W. (1954): Zur praktischen Bestimmung der aktuellen und potentiellen Evapotranspiration. – Mitteilungen des DWD, Bd. 8; Bad Kissingen
  3. Haude, W. (1955): Zur Bestimmung der Verdunstung auf möglichst einfache Weise. Mitteilungen des DWD, 2 (11), Bad Kissingen
  4. 4.0 4.1 Zaiß, H. (1986): Abflussermittlung aus Teilflächen, in "Hydrologische Abflussmodelle in der praktischen Anwendung", 36. Fortbildungslehrgang des BWK-Hessen am 21. März 1986, Friedberg [ihwb-Bibliothek: Inv.-Nr. 5593, 10 BWK 36] PDF information.png OCR information.png
  5. 5.0 5.1 Knauf, D. (1980): Die Berechnung des Abflusses aus einer Schneedecke, in: DVWK-Schriften, Heft 46, Analyse und Berechnung oberirdischer Abflüsse PDF information.png
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