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Minor losses are computed by an individual entering a K reduction coefficient at a specific cross section. The K loss coefficient may differ from 0.0 to 1 1.0. This loss coefficient gets multiplied by the speed mind at that specific combination section to be able to compute the minor energy loss. This energy reduction is put into the energy formula for steady movement computations. For unsteady circulation computations, the energy loss is converted to an equivalent push and inserted into the momentum formula. In both cases the energy reduction is assumed to act as a pressure in the upstream path to decrease circulation speed and increase stage.

For details about how to use the small losses option in HEC-RAS, please review Chapter 6 of the User’s Manual. For unsteady movement are two options for modeling the hydraulics at a junction there. The default option makes some simplifying assumptions for the hydraulics at a junction. If the junction is a standard flow merging junction, then all cross areas that destined the junction are given the same water surface each right time step, based on the computed drinking water surface at the downstream aspect of the junction.

If the junction is a stream split, the water surfaces at the junction are based on the computed drinking water surface at the upstream part of the junction. This simplifying assumption requires users to place cross areas fairly close collectively around a junction, with respect to the slope of the stream. If cross areas aside are too far, model stability problems can arise from the forced water surfaces at all cross areas that destined the junction.

A new junction hydraulics option called the Energy Balance Method has been added for unsteady movement modeling. When this option is turned on, an energy balance is performed across the junction in order to compute the water surfaces, than forcing them to all be the same rather. This is an extremely useful option for medium to steep streams, or where junction reach measures are lengthy pretty. For details on how to use the new junction hydraulics option in HEC-RAS, please review the section on Junctions in Chapter 6 of the User’s Manual.