Application Of Vortex Induced Vibration Energy Generation Technologies To The Offshore Oil And Gas Platform: The Preliminary Study

The global demand for continuous and eco-friendly renewable energy as alternative to fossils fuels is large and ever growing in nowadays. This paper will focus on capability of Vortex Induced Vibration (VIV) phenomenon in generating alternative energy for offshore platform application. In order to m...

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Main Authors: M. A. Zahari, S. S. Dol
Format: Text
Language:English
Published: Zenodo 2014
Subjects:
Vortex Induced Vibration
Vortex Shedding
Renewable Energy
Arctic
New Zealand
Tripp
Williamson
Online Access:https://dx.doi.org/10.5281/zenodo.1096534
https://zenodo.org/record/1096534
id ftdatacite:10.5281/zenodo.1096534
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Vortex Induced Vibration
Vortex Shedding
Renewable Energy
spellingShingle Vortex Induced Vibration
Vortex Shedding
Renewable Energy
M. A. Zahari
S. S. Dol
Application Of Vortex Induced Vibration Energy Generation Technologies To The Offshore Oil And Gas Platform: The Preliminary Study
topic_facet Vortex Induced Vibration
Vortex Shedding
Renewable Energy
description The global demand for continuous and eco-friendly renewable energy as alternative to fossils fuels is large and ever growing in nowadays. This paper will focus on capability of Vortex Induced Vibration (VIV) phenomenon in generating alternative energy for offshore platform application. In order to maximize the potential of energy generation, the effects of lock in phenomenon and different geometries of cylinder were studied in this project. VIV is the motion induced on bluff body which creates alternating lift forces perpendicular to fluid flow. Normally, VIV is unwanted in order to prevent mechanical failure of the vibrating structures. But in this project, instead of eliminating these vibrations, VIV will be exploited to transform these vibrations into a valuable resource of energy. : {"references": ["R. Fross, Concept Selection of Normally Unmanned Installations in the\nNorth Sea, Thesis (M.A), Lund University, Sweden, 2012.", "A. Beaumont, \"Field development Concept Scenarios for Pohokura,\"\nInt. J. New Zealand Petroleum Conference Proceedings, 2002.", "M. A. Azhar, U. Azimov, C. I Lim, and S.S Dol, \"Conceptual Study and\nPreliminary Design of Offshore Mariculture Farm on Decommissioned\nOil and Gas Platform,\" Proceedings of Science & Engineering\nTechnology National Conference, Kuala Lumpur, Malaysia, 2013.", "E. Goffman, \"Why Not the Sun? Advantages of and Problems with Solar\nEnergy,\" Int. J. ProQuest Discovery Guides, 2008.", "A. Vinod, A. Kashyap, A. Banerjee, and J. Kimball, \"Augmenting\nEnergy extraction From Vortex Induced Vibration Using Strips of\nRoughness/Thickness Combinations,\" Int. J. Marine Energy technology\nSymposium, 2013.", "M. M. Bernitsas, K. Raghavan, Y. Ben-Simon, and E. M. Garcia,\n\"VIVACE (Vortex Induced Vibration Aquatic Clean Energy): A New\nConcept in Generation of Clean and Renewable Energy From Fluid\nFlow,\" Int. J. Offshore Mechanics and Arctic Engineering, 2006.", "I. Ball, T. Killen, S. Sakhuja, and E. Warner, Energy Generation From\nVortex Induced Vibration, Thesis (B.S.), Worcester Polytechnic\nInstitute, United States, 2012.", "A. Hall-Stinson, C. Lehrman, and E. Tripp, Energy Generation From\nVortex Induced Vibration, Thesis (B.S.), Worcester Polytechnic\nInstitute, United States, 2011.", "R. D. Blevins, Flow Induced vibration, Thesis (Ph.D.), California\nInstitute of Technology, California, 1974.\n[10] A. Techet, Vortex Induced Vibration. MIT OpenCourseWare.\nMassachusetts Institute of Technology, United States, 2005.\n[11] C. H. Williamson, and R. Govardhan, \"Vortex-Induced Vibration,\" Int.\nJ. Fluid Mech, 2004.\n[12] Y. Omar, T. Tengku, and A. Mohamad, \"Prospects for Ocean Energy in\nMalaysia,\" Int. J. International Conference on Energy and Environment,\n2006.\n[13] R. Fitzpatrick, Oscillations and Waves. The University of Texas, United\nStates.\n[14] M. A. Zahari, Renewable Energy Harvesting using Vortex Induced\nVibration, Thesis (B.ME.), Curtin University, Malaysia.\n[15] W. He, K. Uhlen, M. Hadiya, Z. Chen, G. Shi, and E. Rio, \"Integrating\nan Offshore Wind Farm with Offshore Oil and Gas Platforms and with\nan Onshore Electrical Grid,\" Int. J. Renewable Energy, 2013."]}
format Text
author M. A. Zahari
S. S. Dol
author_facet M. A. Zahari
S. S. Dol
author_sort M. A. Zahari
title Application Of Vortex Induced Vibration Energy Generation Technologies To The Offshore Oil And Gas Platform: The Preliminary Study
title_short Application Of Vortex Induced Vibration Energy Generation Technologies To The Offshore Oil And Gas Platform: The Preliminary Study
title_full Application Of Vortex Induced Vibration Energy Generation Technologies To The Offshore Oil And Gas Platform: The Preliminary Study
title_fullStr Application Of Vortex Induced Vibration Energy Generation Technologies To The Offshore Oil And Gas Platform: The Preliminary Study
title_full_unstemmed Application Of Vortex Induced Vibration Energy Generation Technologies To The Offshore Oil And Gas Platform: The Preliminary Study
title_sort application of vortex induced vibration energy generation technologies to the offshore oil and gas platform: the preliminary study
publisher Zenodo
publishDate 2014
url https://dx.doi.org/10.5281/zenodo.1096534
https://zenodo.org/record/1096534
long_lat ENVELOPE(166.883,166.883,-83.283,-83.283)
ENVELOPE(-65.383,-65.383,-67.717,-67.717)
geographic Arctic
New Zealand
Tripp
Williamson
geographic_facet Arctic
New Zealand
Tripp
Williamson
genre Arctic
genre_facet Arctic
op_relation https://dx.doi.org/10.5281/zenodo.1096535
op_rights Open Access
Creative Commons Attribution 4.0
https://creativecommons.org/licenses/by/4.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC-BY
op_doi https://doi.org/10.5281/zenodo.1096534
https://doi.org/10.5281/zenodo.1096535
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spelling ftdatacite:10.5281/zenodo.1096534 2023-05-15T15:19:40+02:00 Application Of Vortex Induced Vibration Energy Generation Technologies To The Offshore Oil And Gas Platform: The Preliminary Study M. A. Zahari S. S. Dol 2014 https://dx.doi.org/10.5281/zenodo.1096534 https://zenodo.org/record/1096534 en eng Zenodo https://dx.doi.org/10.5281/zenodo.1096535 Open Access Creative Commons Attribution 4.0 https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess CC-BY Vortex Induced Vibration Vortex Shedding Renewable Energy Text Journal article article-journal ScholarlyArticle 2014 ftdatacite https://doi.org/10.5281/zenodo.1096534 https://doi.org/10.5281/zenodo.1096535 2021-11-05T12:55:41Z The global demand for continuous and eco-friendly renewable energy as alternative to fossils fuels is large and ever growing in nowadays. This paper will focus on capability of Vortex Induced Vibration (VIV) phenomenon in generating alternative energy for offshore platform application. In order to maximize the potential of energy generation, the effects of lock in phenomenon and different geometries of cylinder were studied in this project. VIV is the motion induced on bluff body which creates alternating lift forces perpendicular to fluid flow. Normally, VIV is unwanted in order to prevent mechanical failure of the vibrating structures. But in this project, instead of eliminating these vibrations, VIV will be exploited to transform these vibrations into a valuable resource of energy. : {"references": ["R. Fross, Concept Selection of Normally Unmanned Installations in the\nNorth Sea, Thesis (M.A), Lund University, Sweden, 2012.", "A. Beaumont, \"Field development Concept Scenarios for Pohokura,\"\nInt. J. New Zealand Petroleum Conference Proceedings, 2002.", "M. A. Azhar, U. Azimov, C. I Lim, and S.S Dol, \"Conceptual Study and\nPreliminary Design of Offshore Mariculture Farm on Decommissioned\nOil and Gas Platform,\" Proceedings of Science & Engineering\nTechnology National Conference, Kuala Lumpur, Malaysia, 2013.", "E. Goffman, \"Why Not the Sun? Advantages of and Problems with Solar\nEnergy,\" Int. J. ProQuest Discovery Guides, 2008.", "A. Vinod, A. Kashyap, A. Banerjee, and J. Kimball, \"Augmenting\nEnergy extraction From Vortex Induced Vibration Using Strips of\nRoughness/Thickness Combinations,\" Int. J. Marine Energy technology\nSymposium, 2013.", "M. M. Bernitsas, K. Raghavan, Y. Ben-Simon, and E. M. Garcia,\n\"VIVACE (Vortex Induced Vibration Aquatic Clean Energy): A New\nConcept in Generation of Clean and Renewable Energy From Fluid\nFlow,\" Int. J. Offshore Mechanics and Arctic Engineering, 2006.", "I. Ball, T. Killen, S. Sakhuja, and E. Warner, Energy Generation From\nVortex Induced Vibration, Thesis (B.S.), Worcester Polytechnic\nInstitute, United States, 2012.", "A. Hall-Stinson, C. Lehrman, and E. Tripp, Energy Generation From\nVortex Induced Vibration, Thesis (B.S.), Worcester Polytechnic\nInstitute, United States, 2011.", "R. D. Blevins, Flow Induced vibration, Thesis (Ph.D.), California\nInstitute of Technology, California, 1974.\n[10] A. Techet, Vortex Induced Vibration. MIT OpenCourseWare.\nMassachusetts Institute of Technology, United States, 2005.\n[11] C. H. Williamson, and R. Govardhan, \"Vortex-Induced Vibration,\" Int.\nJ. Fluid Mech, 2004.\n[12] Y. Omar, T. Tengku, and A. Mohamad, \"Prospects for Ocean Energy in\nMalaysia,\" Int. J. International Conference on Energy and Environment,\n2006.\n[13] R. Fitzpatrick, Oscillations and Waves. The University of Texas, United\nStates.\n[14] M. A. Zahari, Renewable Energy Harvesting using Vortex Induced\nVibration, Thesis (B.ME.), Curtin University, Malaysia.\n[15] W. He, K. Uhlen, M. Hadiya, Z. Chen, G. Shi, and E. Rio, \"Integrating\nan Offshore Wind Farm with Offshore Oil and Gas Platforms and with\nan Onshore Electrical Grid,\" Int. J. Renewable Energy, 2013."]} Text Arctic DataCite Metadata Store (German National Library of Science and Technology) Arctic New Zealand Tripp ENVELOPE(166.883,166.883,-83.283,-83.283) Williamson ENVELOPE(-65.383,-65.383,-67.717,-67.717)

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