WMS:SCS Lag Time Equation: Difference between revisions
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where: | where: | ||
<math>T_{LAG}</math> = lag time in hours. | |||
L = hydraulic length of watershed in feet. | <math>L</math> = hydraulic length of watershed in feet. | ||
S = maximum retention in the watershed in inches as defined by: | <math>S</math> = maximum retention in the watershed in inches as defined by: | ||
:[[Image:image124.gif]] | :[[Image:image124.gif]] | ||
Y = watershed slope in percent. | <math>Y</math> = watershed slope in percent. | ||
CN = SCS curve number for the watershed as defined by the loss method. | <math>CN</math> = SCS curve number for the watershed as defined by the loss method. | ||
Revision as of 21:07, 26 February 2013
Perhaps the most commonly used equation for lag time is the SCS equation (1972) as shown. This equation may be used when computing the unit hydrograph using Snyder's method and any of the preceding equations for lag time may also be used when computing the unit hydrograph using the SCS method. Also remember that the SCS used the relationship relating lag time and time of concentration (Overview of Basin Data Equation) to compute lag time (and the other way around) from any of the time of concentration equations which follow.
where:
= lag time in hours.
= hydraulic length of watershed in feet.
= maximum retention in the watershed in inches as defined by:
= watershed slope in percent.
= SCS curve number for the watershed as defined by the loss method.
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