Unsteady Wave-Driven Circulation Cells Relevant to Rip Currents and Coastal Engineering: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Unsteady Wave-Driven Circulation Cells Relevant to Rip Currents and Coastal Engineering

A. Kennedy

The long term goals of this project are to predict waves, currents, sediment transport and morphological development in the nearshore ocean with accuracy and efficiency. The technological objectives of this project are to investigate the mechanics of wave-driven flow on complex topographies. Specifically, we are examining the occurrence, forms, and detailed causes of flow instabilities over complex topographies; the influence of three dimensional topographical features on large scale flow features, and the forms and utility of simplified expressions in predicting flows.

Access

Check availability in my library

Page navigation

Document information

Export, share and cite

Unsteady Wave-Driven Circulation Cells Relevant to Rip Currents and Coastal Engineering

A. Kennedy

The long term goals of this project are to predict waves, currents, sediment transport and morphological development in the nearshore ocean with accuracy and efficiency. The technological objectives of this project are to investigate the mechanics of wave-driven flow on complex topographies. Specifically, we are examining the occurrence, forms, and detailed causes of flow instabilities over complex topographies; the influence of three dimensional topographical features on large scale flow features, and the forms and utility of simplified expressions in predicting flows.

Unsteady Wave-Driven Circulation Cells Relevant to Rip Currents and Coastal Engineering

A. Kennedy

The long term goals of this project are to predict waves, currents, sediment transport and morphological development in the nearshore ocean with accuracy and efficiency. The technological objectives of this project are to investigate the mechanics of wave-driven flow on complex topographies. Specifically, we are examining the occurrence, forms, and detailed causes of flow instabilities over complex topographies; the influence of three dimensional topographical features on large scale flow features, and the forms and utility of simplified expressions in predicting flows.

Access

Check availability in my library

Page navigation

Document information

Export, share and cite

Document information

Title:

Unsteady Wave-Driven Circulation Cells Relevant to Rip Currents and Coastal Engineering

Contributors:

A. Kennedy (author)

Publication date:

2006

Size:

6 pages

Type of media:

Report

Type of material:

No indication

Language:

English

Keywords:

Physical & Chemical Oceanography , Natural Resources & Earth Sciences , Ocean waves , Coastal engineering , Topography , Sediment transport , Water flow , Ocean currents , Rip currents , Ocean circulation , Wave driven circulation

Similar titles

Unsteady Wave-Driven Circulation Cells Relevant to Rip Currents and Coastal Engineering

A. Kennedy | NTIS | 2007

A method of computation for unsteady wave-driven coastal currents

Vreugdenhil, C.B. / Delft Hydraulics Laboratory | UB Braunschweig | 1980

An unsteady wave driver for narrowbanded waves: modeling nearshore circulation driven by wave groups

Kennedy, Andrew B. | Online Contents | 2003

An unsteady wave driver for narrowbanded waves: modeling nearshore circulation driven by wave groups

Kennedy, A. B. / Kirby, J. T. | British Library Online Contents | 2003

Wave induced currents in the vicinity of coastal structures

Verges, D. / Sanchez-Arcilla, A. / Puertos del Estado et al. | British Library Conference Proceedings | 2000