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Unit Hydrograph: Difference between revisions

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“In the 1930’s, L.K. Sherman (Sherman 1932, 1940) advanced the theory of the unit hydrograph, or unit graph. The unit hydrograph procedure assumes that discharge at any time is proportional to the volume of runoff and that time factors affecting hydrograph shape are constant”.<ref name="NEH210-630-16">[[Hydrology National Engineering Handbook: Chapter 16- Hydrographs | Hydrology National Engineering Handbook: Chapter 16- Hydrographs, NRCS, 2007]]</ref>
“In the 1930’s, L.K. Sherman (Sherman 1932, 1940) advanced the theory of the unit hydrograph, or unit graph. The unit hydrograph procedure assumes that discharge at any time is proportional to the volume of runoff and that time factors affecting hydrograph shape are constant”.<ref name="NEH210-630-16">[[National Engineering Handbook: Chapter 16 - Hydrographs | National Engineering Handbook: Chapter 16 - Hydrographs, NRCS, 2007]]</ref>


“Field data and laboratory tests have shown that the assumption of a linear relationship among watershed components is not strictly true. The nonlinear relationships have not been investigated sufficiently to ascertain their effects on a synthetic hydrograph. Until more information is available, the procedures of this chapter will be based on the unit hydrograph theory”.<ref name="NEH210-630-16" />
“Field data and laboratory tests have shown that the assumption of a linear relationship among watershed components is not strictly true. The nonlinear relationships have not been investigated sufficiently to ascertain their effects on a synthetic hydrograph. Until more information is available, the procedures of this chapter will be based on the unit hydrograph theory”.<ref name="NEH210-630-16" />
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==Best Practices Resources==
==Best Practices Resources==
{{Document Icon}} [[Hydrology National Engineering Handbook: Chapter 4- Storm Rainfall Depth and Distribution|National Engineering Handbook: Chapter 4- Storm Rainfall Depth and Distribution (Natural Resources Conservation Service)]]
{{Document Icon}} [[National Engineering Handbook: Chapter 4 - Storm Rainfall Depth and Distribution | Engineering Handbook: Chapter 4 - Storm Rainfall Depth and Distribution (Natural Resources Conservation Service)]]
{{Document Icon}} [[Hydrology National Engineering Handbook: Chapter 15- Time of Concentration|National Engineering Handbook: Chapter 15- Time of Concentration (Natural Resources Conservation Service)]]
{{Document Icon}} [[National Engineering Handbook: Chapter 15 - Time of Concentration | National Engineering Handbook: Chapter 15- Time of Concentration (Natural Resources Conservation Service)]]
{{Document Icon}} [[Hydrology National Engineering Handbook: Chapter 16- Hydrographs|National Engineering Handbook: Chapter 16- Hydrographs (Natural Resources Conservation Service)]]
{{Document Icon}} [[National Engineering Handbook: Chapter 16 - Hydrographs | National Engineering Handbook: Chapter 16- Hydrographs (Natural Resources Conservation Service)]]
{{Document Icon}} [[Hydrology National Engineering Handbook: Chapter 21- Design Hydrographs|National Engineering Handbook: Chapter 21- Design Hydrographs (Natural Resources Conservation Service)]]
{{Document Icon}} [[National Engineering Handbook: Chapter 21 - Design Hydrographs | National Engineering Handbook: Chapter 21- Design Hydrographs (Natural Resources Conservation Service)]]
{{Document Icon}} [[Flood Hydrology Manual|Flood Hydrology Manual (Bureau of Reclamation)]]
{{Document Icon}} [[Flood Hydrology Manual | Flood Hydrology Manual (Bureau of Reclamation)]]


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Revision as of 19:41, 21 October 2022



“In the 1930’s, L.K. Sherman (Sherman 1932, 1940) advanced the theory of the unit hydrograph, or unit graph. The unit hydrograph procedure assumes that discharge at any time is proportional to the volume of runoff and that time factors affecting hydrograph shape are constant”.[1]

“Field data and laboratory tests have shown that the assumption of a linear relationship among watershed components is not strictly true. The nonlinear relationships have not been investigated sufficiently to ascertain their effects on a synthetic hydrograph. Until more information is available, the procedures of this chapter will be based on the unit hydrograph theory”.[1]

“Many variables are integrated into the shape of a unit hydrograph. Since a dimensionless unit hydrograph is used and the only parameters readily available from field data are drainage area and time of concentration, consideration should be given to dividing the watershed into hydrologic units of uniformly shaped areas. These subareas, it at all possible, should have a homogeneous land use and approximately the same size. To assure that all contributing subareas are adequately represented, it is suggested that no subarea exceed 20 square miles in area and that the ratio of the largest to smallest drainage area not exceed 10”.[1]

Best Practices Resources

Engineering Handbook: Chapter 4 - Storm Rainfall Depth and Distribution (Natural Resources Conservation Service)

National Engineering Handbook: Chapter 15- Time of Concentration (Natural Resources Conservation Service)

National Engineering Handbook: Chapter 16- Hydrographs (Natural Resources Conservation Service)

National Engineering Handbook: Chapter 21- Design Hydrographs (Natural Resources Conservation Service)

Flood Hydrology Manual (Bureau of Reclamation)


Citations: