Test 1 Results Mean 29.8 Std dev 3.5.

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Presentation transcript:

Test 1 Results Mean 29.8 Std dev 3.5

Water Budget in a Watershed From Mays, 2011, Ground and Surface Water Hydrology

Streamstats http://water.usgs.gov/osw/streamstats/utah.html

Example – Design Rainfall for Logan What amount of rain in Logan in a 6 hr period is a 100 yr storm What amount of rain in Logan in a 1 hr period is a 100 year storm

NOAA Hydrometeorological Design Studies Center Precipitation Frequency Data Server (PFDS) http://hdsc.nws.noaa.gov/hdsc/pfds/ The standard source for design storm data CEE 3430 – Spring 2011

From NOAA Atlas 14 (for Utah)

From NOAA Atlas 2 http://www. nws. noaa

From NOAA Atlas 2 http://www. nws. noaa

Example Tabulated are the data from a storm within a 23,300 ha basin Interval of isohyets (cm) 0-2 2-4 4-6 6-8 8-10 10-12 12-14 Enclosed area (ha x 1000) 6 5 4.1 3.3 2.5 1.6 0.8 Determine the average depth of precipitation within the basin Develop the depth-area relationship

Example Consider a rainfall event having a 5-min cumulative rainfall record given below Time (min) 5 10 15 20 25 30 35 40 Cumulative rainfall (mm) 6 13 24 36 45 What is the duration of the entire rainfall event What is the total amount of rainfall Find the rainfall hyetograph with 10 min time steps (in mm/hr) Find the maximum 10-min and 20-min average rainfall intensities (mm/hr)for this event

Summary The atmosphere is the major link between oceans and continents The hydrologic cycle is shaped by conditions in the atmosphere with precipitation as the major input Precipitation due to atmospheric moisture, lifting, cooling, condensation, release of latent heat, instability Precipitation variability is summarized statistically in intensity-duration-frequency curves used for design Spatial averaging methods are used to calculate precipitation over a watershed