WMS:HEC-HMS Transform: Difference between revisions

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The first and second kinematic wave records can be used to distinguish  between different properties such as pervious/impervious (grass/pavement). For  each record, the following parameters can be supplied.
The first and second kinematic wave records can be used to distinguish  between different properties such as pervious/impervious (grass/pavement). For  each record, the following parameters can be supplied.


*L - Overland flow length.
*L – Overland flow length.


*S - Representative slope.
*S – Representative slope.


*N - Manning's roughness coefficient.
*N – Manning's roughness coefficient.


*A - Percentage of sub basins area that this record represents (The total of  the two records must sum to 100).
*A – Percentage of sub basins area that this record represents (The total of  the two records must sum to 100).


In addition to the kinematic wave records, collector channels and a main  channel must be defined. The main channel must be defined, whereas the two  collector channels are optional. The following parameters are used for each  channel:
In addition to the kinematic wave records, collector channels and a main  channel must be defined. The main channel must be defined, whereas the two  collector channels are optional. The following parameters are used for each  channel:


*L - Channel length.
*L – Channel length.


*S - Channel slope.
*S – Channel slope.


*N - Manning's roughness coefficient for the channel.
*N – Manning's roughness coefficient for the channel.


*CA - Contributing area to the channel.
*CA – Contributing area to the channel.


*SHAPE - The characteristic shape of the channel.
*SHAPE – The characteristic shape of the channel.


*WD - Channel bottom width or diameter.
*WD – Channel bottom width or diameter.


*Z - Side slopes if the channel type requires it.
*Z – Side slopes if the channel type requires it.


===ModClark===
===ModClark===

Revision as of 19:26, 8 February 2013

Clark

The parameters for the Clark method are as follows:

  • Time of concentration in hours for the unit hydrograph. Several different equations exist for determining the time of concentration. The list of basin geometric attributes computed automatically when basins have been delineated from a terrain model can be useful in many of these equations. These attributes can be viewed from within the Unit Hydrograph Method dialog by choosing the View Basin Geometrical Attributes button. Time of concentration can be computed from one of several equations using these attributes, or by using a time computation coverage. These options are accessed from the Compute Parameters – Basin Data] and Compute Parameters – Map Data buttons respectively.
  • Clark storage coefficient in hours.

A synthetic time area curve is used in the HMS Clark method, but you can use the HEC-1 model if you want to derive a time area curve that is more specific to your sub-basin.

Kinematic Wave

Distributed outflow from a basin may be obtained by utilizing combinations of three conceptual elements: overland flow planes, collector channels, and a main channel. These elements can be defined if the kinematic wave option is specified.

The first and second kinematic wave records can be used to distinguish between different properties such as pervious/impervious (grass/pavement). For each record, the following parameters can be supplied.

  • L – Overland flow length.
  • S – Representative slope.
  • N – Manning's roughness coefficient.
  • A – Percentage of sub basins area that this record represents (The total of the two records must sum to 100).

In addition to the kinematic wave records, collector channels and a main channel must be defined. The main channel must be defined, whereas the two collector channels are optional. The following parameters are used for each channel:

  • L – Channel length.
  • S – Channel slope.
  • N – Manning's roughness coefficient for the channel.
  • CA – Contributing area to the channel.
  • SHAPE – The characteristic shape of the channel.
  • WD – Channel bottom width or diameter.
  • Z – Side slopes if the channel type requires it.

ModClark

Snyder

Parameters for the Snyder unit hydrograph are as follows:

  • Lag time in hours. Several different equations have been published to determine the lag time of a basin. Many of them use some of the geometric attributes computed automatically when a terrain model is present. These attributes can be viewed by choosing the View Basin Geometrical Attributes button. Lag time can be computed from one of several equations using these attributes, or by using a time computation coverage. These options are accessed from the Compute Parameters - Basin Data and Compute Parameters - Map Data buttons respectively (see Computing Travel Times).
  • Peaking coefficient.

A synthetic time area curve is used in the HMS Snyder method, but you can use the HEC-1 model if you want to derive a time area curve that is more specific to your sub-basin.

SCS

Parameters for generating a unit hydrograph using the SCS dimensionless method include:

  • SCS lag time in hours. Several different equations have been published to determine the lag time of a basin. Many of these use some of the geometric attributes computed automatically when a TIN is present. Lag time can be computed from one of several equations using these attributes, or by using a time computation coverage. These options are accessed from the Compute Parameters - Basin Data] and Compute Parameters - Map Data buttons respectively.

User Specified S-Graph

The user specified S-Graph method allows you to enter the exact specification of the empirical relationship between on unit of excess rainfall and the resulting direct runoff. The relationship is defined using a dimensionless s-graph in the time series editor.

User Specified Unit Hydrograph

The user specified unit hydrograph option allows you to define the exact unit hydrograph for the basin in the time series editor.


Related Topics

Editing HMS Properties

Sub-Basins

Base Flow

Loss-Rates