Flocculation, Optics and Turbulence in the Community Sediment Transport Model System: Application of OASIS Results | Zendy

Emmanuel Boss | Zendy; Paul S. Hill | Zendy; Brent A. Law | Zendy; Timothy G. Milligan | Zendy; John Trowbridge | Zendy

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Flocculation, Optics and Turbulence in the Community Sediment Transport Model System: Application of OASIS Results

Author(s) -

Emmanuel Boss,

Paul S. Hill,

Brent A. Law,

Timothy G. Milligan,

John Trowbridge

Publication year - 2011

Publication title -

digital commons - umaine (university of maine)

Language(s) - English

Resource type - Reports

DOI - 10.21236/ada540972

Subject(s) - flocculation , turbulence , sediment transport , sediment , environmental science , hydrology (agriculture) , geology , meteorology , geography , environmental engineering , geomorphology , geotechnical engineering

: The goal of this research is to develop greater understanding of how the flocculation of fine-grained sediment responds to turbulent stresses and how this packaging of sediment affects optical and acoustical properties in the water column. Objectives: 1. Quantify the effects of aggregation dynamics on the size distribution of particles in the bottom boundary layer; 2. Quantify how changes in particle packaging affect the optical and acoustical properties of the water column. 3. Develop models describing the associations between particle aggregation, stress, and the acoustical and optical fields.

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