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Spectral density for ocean wave forces

Borgman, L.E.

Computational formula is developed for determining, from sea surface spectral density, spectral density function of force per unit length at point on vertical pile; computational formula and its approximation are extended to provide procedures for determination of spectral density of total force or total overturning moment on structure consisting of array of vertical cylinders; approximation leads to particularly simple relation in which spectral density for total structure is spectral density for single pile times function which characterizes geometry of array; as illustration of procedure, total force spectral density is computed for four-pile instrument platform in 49 ft of water.

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Spectral density for ocean wave forces

Borgman, L.E.

Computational formula is developed for determining, from sea surface spectral density, spectral density function of force per unit length at point on vertical pile; computational formula and its approximation are extended to provide procedures for determination of spectral density of total force or total overturning moment on structure consisting of array of vertical cylinders; approximation leads to particularly simple relation in which spectral density for total structure is spectral density for single pile times function which characterizes geometry of array; as illustration of procedure, total force spectral density is computed for four-pile instrument platform in 49 ft of water.

Spectral density for ocean wave forces

Borgman, L.E.

Computational formula is developed for determining, from sea surface spectral density, spectral density function of force per unit length at point on vertical pile; computational formula and its approximation are extended to provide procedures for determination of spectral density of total force or total overturning moment on structure consisting of array of vertical cylinders; approximation leads to particularly simple relation in which spectral density for total structure is spectral density for single pile times function which characterizes geometry of array; as illustration of procedure, total force spectral density is computed for four-pile instrument platform in 49 ft of water.

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Title:

Spectral density for ocean wave forces

Additional title:

ASCE -- Coastal Eng

Contributors:

Borgman, L.E. (author)

Conference:

ASCE -- Coastal Engineering, Santa Barbara Specialty Conference ; 1965

Published in:

American Society of Civil Engineers -- Coastal Engineering

Publication date:

1965

Size:

36 pages

Type of media:

Conference paper

Type of material:

Print

Language:

English

Keywords:

© Metadata Copyright Elsevier B. V. All rights reserved.

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