Engineering Hydrology Class 3
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1 Engineering Hydrology Class 3 Topics and Goals: I.Develop s (estimate precipitation) II.Develop simple constant intensity design storm III.Develop SCS design storm Ocean
2 s Why do we want to derive the? Convolve the Design with the unit hydrograph (transfer function) to predict a runoff hydrograph (output function). Design storms are convolved with a Unit Hydrograph (think of it as a transfer function ) to make real-time predictions of ultimate discharge. Such predictions are essential for effective engineering design for detention basins, drainage systems, etc.
3 s Peak Discharge Predicting peak discharge is of particular interest!!
4 s The simplest design storm is a constant intensity design storm: The time of concentration, or t c, is generally defined as the time required for a drop of water to travel from the most hydrologically remote point in the subcatchment to the point of collection. We ll study this later (week 8)!
5 s The simplest design storm is a constant intensity design storm: The time of concentration, or t c, is generally defined as the time required for a drop of water to travel from the most hydrologically remote point in the subcatchment to the point of collection. We ll study this later (week 8)!
6 s The simplest design storm is a constant intensity design storm, composed as follows: (1)Read the IDF to determine rain intensity (2) Assume that the time of concentration of the watershed is the duration of peak intensity of the storm. (3)Plot the resulting hyetograph.
7 s : Check out NOAA Atlas 14 (IDF Data Server) Intensity Duration - Frequency
8 s
9 s The average intensity for 24 hr and 5-yr return period is ~0.3 in/hr
10 s : Example Example: For Tallahassee watershed, (1) The design standard specifies a 10-year return period for design, (2) The watershed time of concentration is 22 minutes. From the Bedient et al. text, Chapter 6 (Tallahassee IDF):
11 s : Example The average intensity for a 22 minute duration and 10-yr return period is ~5.5 in/hr
12 s : Example Example: For Tallahassee watershed, (1) The design standard specifies a 10-year return period for design, (2) The watershed time of concentration is 22 minutes. From Figure 6-5 in your reading packet (Tallahassee IDF): The average intensity for a 22 minute duration and 10-yr return period is ~5.5 in/hr; which yields a storm volume of 2.01 inches
13 s : Example Example: For Tallahassee watershed, (1) The design standard specifies a 10-year return period for design, (2) The watershed time of concentration is 22 minutes. The average intensity for a 22 minute duration and 10-yr return period is ~5.5 in/hr; which yields a storm volume of 2.01 inches [5.5 in/hr X (22 / 60)]
14 s SCS 4 dimensionless rainfall distributions (as determined by the SCS); valid for areas < 400 mi 2, durations up to 24 hr, and frequencies of 1 yr to 100 yr
15 s SCS 4 dimensionless rainfall distributions (as determined by the SCS); valid for areas < 400 mi 2, durations up to 24 hr, and frequencies of 1 yr to 100 yr Fraction of 24-hr Rainfall IA I III II Time (hr)
16 s SCS 4 dimensionless rainfall distributions (as determined by the SCS); valid for areas < 400 mi 2, durations up to 24 hr, and frequencies of 1 yr to 100 yr Incremental Fraction Rainfall II I III IA Time (hr)
17
18 s : In Sum Intensity Duration - Frequency Constant-Intensity Check out NOAA Atlas 14 (IDF Data Server)
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