Details
Originalsprache | Deutsch |
---|---|
Seiten | 421-425 |
Seitenumfang | 5 |
Publikationsstatus | Veröffentlicht - 2008 |
Abstract
Schlagwörter
- Air entrainment, Computer simulation, Fisheries, Ocean engineering, Reefs, Velocity, Water waves, Artificial reefs, Engineering interests, Mathematical solutions, Non-linear model, Propagating waves, Submerged horizontal plate, Typical structures, Validation of numerical model, Plates (structural components)
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2008. 421-425.
Publikation: Konferenzbeitrag › Paper › Forschung › Peer-Review
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TY - CONF
T1 - Velocity field under propagating waves over a submerged horizontal plate and induced forces
AU - Hildebrandt, A.
AU - Schlurmann, T.
N1 - Export Date: 1 February 2021
PY - 2008
Y1 - 2008
N2 - Under the key assumption of linearity, the mathematical solutions for progressive small-amplitude water waves provide the basis for applications to numerous problems. It enables to describe and quantify most phenomena that are related to engineering interests having a bearing on coastal and ocean design. However, some of those essential postulations are unfounded when dealing with water waves being significantly transformed due to interaction with structures. Complex effects like wave breaking, air entrainment or turbulence may become dominant and encourage applying nonlinear models for an appropriate simulation. Artificial reefs made of a horizontal submerged plate are typical structures with high wave interaction. In this paper we describe processes on the basis of physical tests in a wave flume, which support the validation of numerical models.
AB - Under the key assumption of linearity, the mathematical solutions for progressive small-amplitude water waves provide the basis for applications to numerous problems. It enables to describe and quantify most phenomena that are related to engineering interests having a bearing on coastal and ocean design. However, some of those essential postulations are unfounded when dealing with water waves being significantly transformed due to interaction with structures. Complex effects like wave breaking, air entrainment or turbulence may become dominant and encourage applying nonlinear models for an appropriate simulation. Artificial reefs made of a horizontal submerged plate are typical structures with high wave interaction. In this paper we describe processes on the basis of physical tests in a wave flume, which support the validation of numerical models.
KW - Air entrainment
KW - Computer simulation
KW - Fisheries
KW - Ocean engineering
KW - Reefs
KW - Velocity
KW - Water waves
KW - Artificial reefs
KW - Engineering interests
KW - Mathematical solutions
KW - Non-linear model
KW - Propagating waves
KW - Submerged horizontal plate
KW - Typical structures
KW - Validation of numerical model
KW - Plates (structural components)
M3 - Paper
SP - 421
EP - 425
ER -