Laura Garrison scite author profile

Severe fluid forces are believed to be a source of injury and mortality to fish that pass through hydroelectric turbines. A process is described by which laboratory bioassays, computational fluid dynamics models, and field studies can be integrated to evaluate the significance of fluid shear stresses that occur in a turbine. Areas containing potentially lethal shear stresses were identified near the stay vanes and wicket gates, runner, and in the draft tube of a large Kaplan turbine. However, under typical operating conditions, computational models estimated that these dangerous areas comprise less than 2% of the flow path through the modeled turbine. The predicted volumes of the damaging shear stress zones did not correlate well with observed fish mortality at a field installation of this turbine, which ranged from less than 1% to nearly 12%. Possible reasons for the poor correlation are discussed. Computational modeling is necessary to develop an understanding of the role of particular fish injury mechanisms, to compare their effects with those of other sources of injury, and to minimize the trial and error previously needed to mitigate those effects. The process we describe is being used to modify the design of hydroelectric turbines to improve fish passage survival.

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Alcohol consumption among college students: An agent‐based computational simulation

Garrison

Babcock

2008

Complexity

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An agent-based C11 program was developed to model student drinking. Student-agents interact with each other and are randomly subjected to good or bad drinking experiences, to stories of other students' experiences, and to peer pressure. The program outputs drinking rates as functions of time based on various input parameters. The intent of this project is to simulate alcohol use, eventually adding other drugs, and possibly creating a simulation game for use as an educational tool.

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Narrative medical visualization to communicate disease data

Meuschke

Garrison

Smit

et al. 2022

Computers & Graphics

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Application of biological design criteria and computational fluid dynamics to investigate fish survival in Kaplan turbines

Garrison¹,

Fisher²,

Hydro³

et al. 2002

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Laura Garrison

Efforts to Reduce Mortality to Hydroelectric Turbine-Passed Fish: Locating and Quantifying Damaging Shear Stresses

Alcohol consumption among college students: An agent‐based computational simulation

Narrative medical visualization to communicate disease data

Application of biological design criteria and computational fluid dynamics to investigate fish survival in Kaplan turbines

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