TY - CHAP
T1 - Electrical generators in ocean energy converters
AU - O’Sullivan, D.
AU - Bard, J.
AU - Kracht, P.
AU - Ceballos, S.
AU - Robles, E.
N1 - Publisher Copyright:
© The Institution of Engineering and Technology 2014.
PY - 2013/1/1
Y1 - 2013/1/1
N2 - This chapter provides an outline of the issues confronting the designer of an ocean energy converter (OEC) when selecting or designing the electrical generator and its associated control system. It is clear that, especially for wave energy converters (WECs), this is a complex problem due to the high variance in device power take-off (PTO) type, and indeed the functionality of the generator itself within the power chain. Specification and design of the generator system in tidal energy converters (TECs) have been reviewed and shown to be highly dependent on the device, turbine and current characteristics. Both squirrel cage induction generators (SCIGs) and permanent magnet synchronous generators (PMSGs) are promising generator technologies for application in TECs, showing individual advantages and disadvantages. As important as the choice of the generator technology are the concepts to deal with the special requirements of TEC devices like marine environment, submerged operation and extended maintenance intervals. A consistent requirement in both WEC and TEC system generators is the need for variable speed control and operation. In this context, the power converter technology and controller algorithms related to this need have been introduced.
AB - This chapter provides an outline of the issues confronting the designer of an ocean energy converter (OEC) when selecting or designing the electrical generator and its associated control system. It is clear that, especially for wave energy converters (WECs), this is a complex problem due to the high variance in device power take-off (PTO) type, and indeed the functionality of the generator itself within the power chain. Specification and design of the generator system in tidal energy converters (TECs) have been reviewed and shown to be highly dependent on the device, turbine and current characteristics. Both squirrel cage induction generators (SCIGs) and permanent magnet synchronous generators (PMSGs) are promising generator technologies for application in TECs, showing individual advantages and disadvantages. As important as the choice of the generator technology are the concepts to deal with the special requirements of TEC devices like marine environment, submerged operation and extended maintenance intervals. A consistent requirement in both WEC and TEC system generators is the need for variable speed control and operation. In this context, the power converter technology and controller algorithms related to this need have been introduced.
KW - Asynchronous generators
KW - Asynchronous machines
KW - Controller algorithms
KW - Electrical generators
KW - Maintenance engineering
KW - Maintenance engineering
KW - Marine engineering
KW - Ocean energy applications
KW - Ocean energy converters
KW - Permanent magnet generators
KW - Permanent magnet synchronous generators
KW - Plant engineering, maintenance and safety
KW - PMSG
KW - Power converter technology power convertors and power supplies to apparatus
KW - power convertors
KW - Power take-off efficiency
KW - PTO
KW - Squirrel cage induction generators
KW - Synchronous generators
KW - Synchronous machines
KW - Tidal energy system
KW - Tidal power stations
KW - Tidal power stations and plants
KW - Wave energy converter
KW - Wave energy systems
KW - Wave power
KW - Wave power plants
UR - http://www.scopus.com/inward/record.url?scp=85015923704&partnerID=8YFLogxK
U2 - 10.1049/PBRN017E_ch2
DO - 10.1049/PBRN017E_ch2
M3 - Chapter
AN - SCOPUS:85015923704
SN - 9781849195614
SP - 3
EP - 41
BT - Electrical Design for Ocean Wave and Tidal Energy Systems
PB - Institution of Engineering and Technology
ER -