A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique

Ionut Emanuel Stroescu; Lasse Sørensen; Peter Bak Frigaard; Morten Fejerskov

A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique

Ionut Emanuel Stroescu, Lasse Sørensen, Peter Bak Frigaard, Morten Fejerskov

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

Abstract

A non-linear stretching method was implemented for stream function theory to solve wave kinematics for physical conditions close to breaking waves in shallow waters, with wave heights limited by the water depth. The non-linear stretching method proves itself robust, efficient and fast, showing good agreement with numerical tools used in the current study; hereby, extending the practical application to load assessment for wind offshore engineering designs.

Originalsprog	Engelsk
Titel	The Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference
Redaktører	Jin S. Chung, Sa Young Hong, Sebastian Schreier, Shiqiang Yan, Decheng Wan
Antal sider	8
Vol/bind	3
Forlag	International Society of Offshore & Polar Engineers
Publikationsdato	2016
Sider	687-694
ISBN (Trykt)	978-1-880653-88-3
Status	Udgivet - 2016
Begivenhed	ISOPE: The 26th International Ocean and Polar Engineering Conference - Rhodos, Grækenland Varighed: 25 jun. 2016 → 1 jul. 2016

Konference

Konference	ISOPE: The 26th International Ocean and Polar Engineering Conference
Land/Område	Grækenland
By	Rhodos
Periode	25/06/2016 → 01/07/2016

Navn	Proceedings of the International Offshore and Polar Engineering Conference
Nummer	25
ISSN	1098-6189

Emneord

Stream
Function
Non-linear
Stretching
Practical
Engineering
CFD

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Stroescu, I. E., Sørensen, L., Frigaard, P. B., & Fejerskov, M. (2016). A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique. I J. S. Chung, S. Y. Hong, S. Schreier, S. Yan, & D. Wan (red.), The Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference (Bind 3, s. 687-694). International Society of Offshore & Polar Engineers.

Stroescu, Ionut Emanuel ; Sørensen, Lasse ; Frigaard, Peter Bak et al. / A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique. The Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference. red. / Jin S. Chung ; Sa Young Hong ; Sebastian Schreier ; Shiqiang Yan ; Decheng Wan. Bind 3 International Society of Offshore & Polar Engineers, 2016. s. 687-694 (Proceedings of the International Offshore and Polar Engineering Conference; Nr. 25).

@inproceedings{0b34bdc661da4d85b6621217747c0ab0,

title = "A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique",

abstract = "A non-linear stretching method was implemented for stream function theory to solve wave kinematics for physical conditions close to breaking waves in shallow waters, with wave heights limited by the water depth. The non-linear stretching method proves itself robust, efficient and fast, showing good agreement with numerical tools used in the current study; hereby, extending the practical application to load assessment for wind offshore engineering designs.",

keywords = "Stream, Function , Non-linear, Stretching, Practical, Engineering, CFD, Stream, Function , Non-linear, Stretching, Practical, Engineering, CFD",

author = "Stroescu, {Ionut Emanuel} and Lasse S{\o}rensen and Frigaard, {Peter Bak} and Morten Fejerskov",

year = "2016",

language = "English",

isbn = "978-1-880653-88-3",

volume = "3",

series = "Proceedings of the International Offshore and Polar Engineering Conference",

publisher = "International Society of Offshore & Polar Engineers",

number = "25",

pages = "687--694",

editor = "Chung, {Jin S.} and Hong, {Sa Young} and Sebastian Schreier and Shiqiang Yan and Decheng Wan",

booktitle = "The Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference",

note = "ISOPE: The 26th International Ocean and Polar Engineering Conference, ISOPE 2016 ; Conference date: 25-06-2016 Through 01-07-2016",

}

Stroescu, IE, Sørensen, L, Frigaard, PB & Fejerskov, M 2016, A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique. i JS Chung, SY Hong, S Schreier, S Yan & D Wan (red), The Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference. bind 3, International Society of Offshore & Polar Engineers, Proceedings of the International Offshore and Polar Engineering Conference, nr. 25, s. 687-694, ISOPE: The 26th International Ocean and Polar Engineering Conference, Rhodos, Grækenland, 25/06/2016.

A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique. / Stroescu, Ionut Emanuel; Sørensen, Lasse; Frigaard, Peter Bak et al.
The Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference. red. / Jin S. Chung; Sa Young Hong; Sebastian Schreier; Shiqiang Yan; Decheng Wan. Bind 3 International Society of Offshore & Polar Engineers, 2016. s. 687-694 (Proceedings of the International Offshore and Polar Engineering Conference; Nr. 25).

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

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T1 - A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique

AU - Stroescu, Ionut Emanuel

AU - Sørensen, Lasse

AU - Frigaard, Peter Bak

AU - Fejerskov, Morten

PY - 2016

Y1 - 2016

N2 - A non-linear stretching method was implemented for stream function theory to solve wave kinematics for physical conditions close to breaking waves in shallow waters, with wave heights limited by the water depth. The non-linear stretching method proves itself robust, efficient and fast, showing good agreement with numerical tools used in the current study; hereby, extending the practical application to load assessment for wind offshore engineering designs.

AB - A non-linear stretching method was implemented for stream function theory to solve wave kinematics for physical conditions close to breaking waves in shallow waters, with wave heights limited by the water depth. The non-linear stretching method proves itself robust, efficient and fast, showing good agreement with numerical tools used in the current study; hereby, extending the practical application to load assessment for wind offshore engineering designs.

KW - Stream

KW - Function

KW - Non-linear

KW - Stretching

KW - Practical

KW - Engineering

KW - CFD

KW - Stream

KW - Function

KW - Non-linear

KW - Stretching

KW - Practical

KW - Engineering

KW - CFD

UR - http://www.isope.org/publications/publications.htm

M3 - Article in proceeding

SN - 978-1-880653-88-3

VL - 3

T3 - Proceedings of the International Offshore and Polar Engineering Conference

SP - 687

EP - 694

BT - The Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference

A2 - Chung, Jin S.

A2 - Hong, Sa Young

A2 - Schreier, Sebastian

A2 - Yan, Shiqiang

A2 - Wan, Decheng

PB - International Society of Offshore & Polar Engineers

T2 - ISOPE: The 26th International Ocean and Polar Engineering Conference

Y2 - 25 June 2016 through 1 July 2016

ER -

Stroescu IE, Sørensen L, Frigaard PB, Fejerskov M. A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique. I Chung JS, Hong SY, Schreier S, Yan S, Wan D, red., The Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference. Bind 3. International Society of Offshore & Polar Engineers. 2016. s. 687-694. (Proceedings of the International Offshore and Polar Engineering Conference; Nr. 25).

A Stream Function Theory Based Calculation of Wave Kinematics for Very Steep Waves Using a Novel Non-linear Stretching Technique

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