科技报告详细信息
Computational Fluid Dynamics Modeling of the John Day Dam Tailrace
Rakowski, Cynthia L. ; Perkins, William A. ; Richmond, Marshall C. ; Serkowski, John A.
Pacific Northwest National Laboratory (U.S.)
关键词: Fluid Mechanics;    99 General And Miscellaneous//Mathematics, Computing, And Information Science;    Computerized Simulation;    Hydraulics;    Rivers;   
DOI  :  10.2172/1033088
RP-ID  :  PNNL-19349
RP-ID  :  AC05-76RL01830
RP-ID  :  1033088
美国|英语
来源: UNT Digital Library
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【 摘 要 】

US Army Corps of Engineers - Portland District required that a two-dimensional (2D) depth-averaged and a three-dimensional (3D) free-surface numerical models to be developed and validated for the John Day tailrace. These models were used to assess potential impact of a select group of structural and operational alternatives to tailrace flows aimed at improving fish survival at John Day Dam. The 2D model was used for the initial assessment of the alternatives in conjunction with a reduced-scale physical model of the John Day Project. A finer resolution 3D model was used to more accurately model the details of flow in the stilling basin and near-project tailrace hydraulics. Three-dimensional model results were used as input to the Pacific Northwest National Laboratory particle tracking software, and particle paths and times to pass a downstream cross section were used to assess the relative differences in travel times resulting from project operations and structural scenarios for multiple total river flows. Streamlines and neutrally-buoyant particles were seeded in all turbine and spill bays with flows. For a Total River of 250 kcfs running with the Fish Passage Plan spill pattern and a spillwall, the mean residence times for all particles were little changed; however the tails of the distribution were truncated for both spillway and powerhouse release points, and, for the powerhouse releases, reduced the residence time for 75% of the particles to pass a downstream cross section from 45.5 minutes to 41.3 minutes. For a total river of 125 kcfs configured with the operations from the Fish Passage Plan for the temporary spillway weirs and for a proposed spillwall, the neutrally-buoyant particle tracking data showed that the river with a spillwall in place had the overall mean residence time increase; however, the residence time for 75% of the powerhouse-released particles to pass a downstream cross section was reduced from 102.4 min to 89 minutes.

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