Access to a floating wind turbine

M. Shanley; C. S. Wright; C. Desmond; A. Otter; J. Murphy

Access to a floating wind turbine

M. Shanley
, C. S. Wright
, C. Desmond
, A. Otter
, J. Murphy

University College Cork

Research output: Chapter in Book/Report/Conference proceedings › Chapter › peer-review

Abstract

The offshore wind turbine service industry is now well established with a large number of turbines being successfully operated and maintained. A number of methods and technologies are available to allow the safe transfer of service crews to these primarily fixed monopile installations. The most common of these is the bow transfer method which uses a combination of a high friction fender and a large vessel thrust to minimise relative motion between the bow and the turbine foundation. An upcoming challenge for the offshore wind turbine service industry will be the increasing use of floating foundations in far offshore and deep water sites. A number of structures are currently being developed and the first commercial floating wind farm is expected to be commissioned in late 2017. The use of floating structures will make it more difficult to ensure crew safety and comfort during transfer operations as the interaction between two floating bodies needs to be considered. Thus, the bow transfer method used to access fixed foundations may not be suitable for accessing floating turbine platforms. This paper will use a combination of physical and numerical modelling to assess the ability of a wind farm service vessel to maintain contact with a floating offshore wind turbine structure by use of the bow transfer method.

Original language	English
Title of host publication	RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers
Publisher	Royal Institution of Naval Architects
ISBN (Electronic)	9781909024649
Publication status	Published - 2017
Event	RINA, Royal Institution of Naval Architects - International Conference on Design and Construction of Wind Farm Support Vessels 2017 - London, United Kingdom Duration: 29 Mar 2017 → 30 Mar 2017

Publication series

Name	RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers

Conference

Conference	RINA, Royal Institution of Naval Architects - International Conference on Design and Construction of Wind Farm Support Vessels 2017
Country/Territory	United Kingdom
City	London
Period	29/03/17 → 30/03/17

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

Shanley, M., Wright, C. S., Desmond, C., Otter, A., & Murphy, J. (2017). Access to a floating wind turbine. In RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers (RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers). Royal Institution of Naval Architects.

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title = "Access to a floating wind turbine",

abstract = "The offshore wind turbine service industry is now well established with a large number of turbines being successfully operated and maintained. A number of methods and technologies are available to allow the safe transfer of service crews to these primarily fixed monopile installations. The most common of these is the bow transfer method which uses a combination of a high friction fender and a large vessel thrust to minimise relative motion between the bow and the turbine foundation. An upcoming challenge for the offshore wind turbine service industry will be the increasing use of floating foundations in far offshore and deep water sites. A number of structures are currently being developed and the first commercial floating wind farm is expected to be commissioned in late 2017. The use of floating structures will make it more difficult to ensure crew safety and comfort during transfer operations as the interaction between two floating bodies needs to be considered. Thus, the bow transfer method used to access fixed foundations may not be suitable for accessing floating turbine platforms. This paper will use a combination of physical and numerical modelling to assess the ability of a wind farm service vessel to maintain contact with a floating offshore wind turbine structure by use of the bow transfer method.",

author = "M. Shanley and Wright, \{C. S.\} and C. Desmond and A. Otter and J. Murphy",

note = "Publisher Copyright: {\textcopyright} 2017: The Royal Institution of Naval Architects.; RINA, Royal Institution of Naval Architects - International Conference on Design and Construction of Wind Farm Support Vessels 2017 ; Conference date: 29-03-2017 Through 30-03-2017",

year = "2017",

language = "English",

series = "RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers",

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Shanley, M, Wright, CS, Desmond, C, Otter, A & Murphy, J 2017, Access to a floating wind turbine. in RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers. RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers, Royal Institution of Naval Architects, RINA, Royal Institution of Naval Architects - International Conference on Design and Construction of Wind Farm Support Vessels 2017, London, United Kingdom, 29/03/17.

Access to a floating wind turbine. / Shanley, M.; Wright, C. S.; Desmond, C. et al.
RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers. Royal Institution of Naval Architects, 2017. (RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers).

Research output: Chapter in Book/Report/Conference proceedings › Chapter › peer-review

TY - CHAP

T1 - Access to a floating wind turbine

AU - Shanley, M.

AU - Wright, C. S.

AU - Desmond, C.

AU - Otter, A.

AU - Murphy, J.

PY - 2017

Y1 - 2017

N2 - The offshore wind turbine service industry is now well established with a large number of turbines being successfully operated and maintained. A number of methods and technologies are available to allow the safe transfer of service crews to these primarily fixed monopile installations. The most common of these is the bow transfer method which uses a combination of a high friction fender and a large vessel thrust to minimise relative motion between the bow and the turbine foundation. An upcoming challenge for the offshore wind turbine service industry will be the increasing use of floating foundations in far offshore and deep water sites. A number of structures are currently being developed and the first commercial floating wind farm is expected to be commissioned in late 2017. The use of floating structures will make it more difficult to ensure crew safety and comfort during transfer operations as the interaction between two floating bodies needs to be considered. Thus, the bow transfer method used to access fixed foundations may not be suitable for accessing floating turbine platforms. This paper will use a combination of physical and numerical modelling to assess the ability of a wind farm service vessel to maintain contact with a floating offshore wind turbine structure by use of the bow transfer method.

AB - The offshore wind turbine service industry is now well established with a large number of turbines being successfully operated and maintained. A number of methods and technologies are available to allow the safe transfer of service crews to these primarily fixed monopile installations. The most common of these is the bow transfer method which uses a combination of a high friction fender and a large vessel thrust to minimise relative motion between the bow and the turbine foundation. An upcoming challenge for the offshore wind turbine service industry will be the increasing use of floating foundations in far offshore and deep water sites. A number of structures are currently being developed and the first commercial floating wind farm is expected to be commissioned in late 2017. The use of floating structures will make it more difficult to ensure crew safety and comfort during transfer operations as the interaction between two floating bodies needs to be considered. Thus, the bow transfer method used to access fixed foundations may not be suitable for accessing floating turbine platforms. This paper will use a combination of physical and numerical modelling to assess the ability of a wind farm service vessel to maintain contact with a floating offshore wind turbine structure by use of the bow transfer method.

UR - https://www.scopus.com/pages/publications/85064426081

M3 - Chapter

AN - SCOPUS:85064426081

T3 - RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers

BT - RINA, Royal Institution of Naval Architects - Design and Construction of Wind Farm Support Vessels 2017, Papers

PB - Royal Institution of Naval Architects

T2 - RINA, Royal Institution of Naval Architects - International Conference on Design and Construction of Wind Farm Support Vessels 2017

Y2 - 29 March 2017 through 30 March 2017

ER -

Access to a floating wind turbine

Abstract

Publication series

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UN SDGs

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