WMS:Storage Capacity Curves: Difference between revisions

Revision as of 20:02, 19 March 2013

There are three different methods for defining storage capacity: volume vs. elevation, area vs. elevation, and known geometry.

In all three cases a relationship between elevation and volume will be computed. For the volume vs. elevation option this is explicitly defined. If area vs. elevation is specified, then a corresponding volume for each elevation is computed using the conic method. The conic method is illustrated below.

File:Image144.gif

The volume between incremental areas $A_{1}$ and $A_{2}$ is computed using the following equation:

\Delta V12={\frac {h}{3}}(A_{1}+A_{2}+{\sqrt {A_{1}A_{2}}})

where:

\Delta V12

– The volume between areas

A_{1}

and

A_{2}

.

A_{i}

– surface area

i

.

h

– vertical distance

(E_{2}-E_{1})

between surface areas

A_{1}

and

A_{2}

.

E_{i}

– elevation of surface area

i

.

The same equation is used to compute the volume between each adjacent set of surface areas, with the bottom area assumed to be 0. A TIN can be used to automatically create and store for use in the detention basin calculator the elevation-volume relationship.

If the basin geometry option is chosen then an elevation vs. volume relationship is computed directly from the geometry defined for the basin.

@@ Line 11: / Line 11: @@
 where:
-<math>\Delta V 12</math> &ndash; The volume between areas <math>A_1</math> and <math>A_2</math>.
+:<math>\Delta V 12</math> &ndash; The volume between areas <math>A_1</math> and <math>A_2</math>.
-<math>A_i</math> &ndash; surface area <math>i</math>.
+:<math>A_i</math> &ndash; surface area <math>i</math>.
-<math>h</math> &ndash; vertical distance <math>(E_2-E_1)</math> between surface areas <math>A_1</math> and <math>A_2</math>.
+:<math>h</math> &ndash; vertical distance <math>(E_2-E_1)</math> between surface areas <math>A_1</math> and <math>A_2</math>.
-<math>E_i</math> &ndash; elevation of surface area <math>i</math>.
+:<math>E_i</math> &ndash; elevation of surface area <math>i</math>.
 The same equation is used to compute the volume between each adjacent set of surface areas, with the bottom area assumed to be 0. A TIN can be used to automatically create and store for use in the detention basin calculator the elevation-volume relationship.

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WMS:Storage Capacity Curves: Difference between revisions

Revision as of 20:02, 19 March 2013

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