Precipitation Data Modeling#

  • Risk Based Design Concepts

  • Precipitation

  • Design Storms

Risk-Based Design Concepts#

Probability Estimation Modeling#

  1. Probability Estimation Modeling - I

  2. Probability Estimation Modeling - II

  3. Design Rainfall

  4. Rainfall Intensity for Design

  5. Empirical Hyetographs

  6. DDF-Texas

  7. Texas DDF Atlas

  8. Texas DDF Atlas on-line

  9. NOAA PFDS

References#

  1. Chow, V.T., Maidment,D.M., and Mays, L.W. (1998) Applied Hydrology, McGraw Hill, (Read pages 26 to 31; 416 to 423)

  2. McCuen, R.H., Johnson, P.A., and Ragan, R.M. (2002) Highway Hydrology. HDS-2 (2ed) FHWA-NHI-02-001 (Read pages 3-1 to 3-5; 4-86 to 4-89; 5-1 to 5-8; 5-16 to 5-17)

  3. Texas Hydraulic Design Manual (2014-1) Texas Department of Transportation. (2014) Hydraulic Design Manual (Read pages 4-1 to 4-5; 4-31 to 4-35)

  4. Linear Theory of Hydrologic Systems Dooge, J.C. I. (1973) Linear Theory of Hydrologic Systems. USDA ARS Technical Bulletin No. 1468. (Read pages 127 to 147)

  5. Cleveland, T. G. (2017) Engineering Hydrology Notes to Accompany CE 3354 (Discrete Data Analysis; Risk Based Design; Regression Equations), Department of Civil, Environmental, and Construction Engineering, Whitacre College of Engineering.

  6. Cleveland, T. G. (2017) Engineering Hydrology Notes to Accompany CE 3354 (Probability Estimation Modeling), Department of Civil, Environmental, and Construction Engineering, Whitacre College of Engineering.

  7. Cleveland, T. G. (2017) Engineering Hydrology Notes to Accompany CE 3354 (Point Precipitation; Design Storms), Department of Civil, Environmental, and Construction Engineering, Whitacre College of Engineering.