Tidal Turbine Generators

Faisal Wani; Jianning Dong; Henk Polinder

doi:10.5772/intechopen.90433

Tidal Turbine Generators

Faisal Wani, Jianning Dong, Henk Polinder

Research output: Chapter in Book/Conference proceedings/Edited volume › Chapter › Scientific

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Abstract

Recently, tidal stream turbines have become a preferable mode of harvesting tidal energy. The main issue for low utilization of tidal energy is the high levelized cost of energy (LCoE) from tidal stream turbines. A major reason for this is the high operation and maintenance costs for submerged installations. A possible way of minimizing the LCoE and improving the availability is to use a flooded (or a wetgap) generator rather than a conventional airgap generator. Inside flooded generators, the gap between the stator and rotor is filled with the seawater. This architecture has the potential to improve cooling and reduce reliance on ancillary systems (e.g., bilge system), thereby improving reliability. The chapter begins with a brief description of the generator systems used in current tidal stream turbines. The focus of the chapter is, however, to give a basic insight into the design aspects of the flooded generators, and compares it with the currently used sealed airgap generators in tidal turbine systems.

Original language	English
Title of host publication	Advances in Modelling and Control of Wind and Hydrogenerators
Editors	Amir Ebrahimi
Place of Publication	London, UK
Publisher	IntechOpen
Pages	1-15
ISBN (Electronic)	978-1-83880-544-9
ISBN (Print)	978-1-83880-533-3, 978-1-83880-532-6
DOIs	https://doi.org/10.5772/intechopen.90433
Publication status	Published - 2020

Keywords

tidal stream turbines
permanent magnet generators
flooded generators
corrosion
rotor-can

UN SDGs

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

Access to Document

10.5772/intechopen.90433

70560Final published version, 1.82 MBLicence: CC BY

1 Dissertation (TU Delft)

Improving the Reliability of Tidal Turbine Generator Systems
Wani, F. M., 2021, 181 p.
Research output: Thesis › Dissertation (TU Delft)

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Cite this

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title = "Tidal Turbine Generators",

abstract = "Recently, tidal stream turbines have become a preferable mode of harvesting tidal energy. The main issue for low utilization of tidal energy is the high levelized cost of energy (LCoE) from tidal stream turbines. A major reason for this is the high operation and maintenance costs for submerged installations. A possible way of minimizing the LCoE and improving the availability is to use a flooded (or a wetgap) generator rather than a conventional airgap generator. Inside flooded generators, the gap between the stator and rotor is filled with the seawater. This architecture has the potential to improve cooling and reduce reliance on ancillary systems (e.g., bilge system), thereby improving reliability. The chapter begins with a brief description of the generator systems used in current tidal stream turbines. The focus of the chapter is, however, to give a basic insight into the design aspects of the flooded generators, and compares it with the currently used sealed airgap generators in tidal turbine systems.",

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AU - Wani, Faisal

AU - Dong, Jianning

AU - Polinder, Henk

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N2 - Recently, tidal stream turbines have become a preferable mode of harvesting tidal energy. The main issue for low utilization of tidal energy is the high levelized cost of energy (LCoE) from tidal stream turbines. A major reason for this is the high operation and maintenance costs for submerged installations. A possible way of minimizing the LCoE and improving the availability is to use a flooded (or a wetgap) generator rather than a conventional airgap generator. Inside flooded generators, the gap between the stator and rotor is filled with the seawater. This architecture has the potential to improve cooling and reduce reliance on ancillary systems (e.g., bilge system), thereby improving reliability. The chapter begins with a brief description of the generator systems used in current tidal stream turbines. The focus of the chapter is, however, to give a basic insight into the design aspects of the flooded generators, and compares it with the currently used sealed airgap generators in tidal turbine systems.

AB - Recently, tidal stream turbines have become a preferable mode of harvesting tidal energy. The main issue for low utilization of tidal energy is the high levelized cost of energy (LCoE) from tidal stream turbines. A major reason for this is the high operation and maintenance costs for submerged installations. A possible way of minimizing the LCoE and improving the availability is to use a flooded (or a wetgap) generator rather than a conventional airgap generator. Inside flooded generators, the gap between the stator and rotor is filled with the seawater. This architecture has the potential to improve cooling and reduce reliance on ancillary systems (e.g., bilge system), thereby improving reliability. The chapter begins with a brief description of the generator systems used in current tidal stream turbines. The focus of the chapter is, however, to give a basic insight into the design aspects of the flooded generators, and compares it with the currently used sealed airgap generators in tidal turbine systems.

KW - tidal stream turbines

KW - permanent magnet generators

KW - flooded generators

KW - corrosion

KW - rotor-can

U2 - 10.5772/intechopen.90433

DO - 10.5772/intechopen.90433

M3 - Chapter

SN - 978-1-83880-533-3

SN - 978-1-83880-532-6

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BT - Advances in Modelling and Control of Wind and Hydrogenerators

A2 - Ebrahimi, Amir

PB - IntechOpen

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ER -

Tidal Turbine Generators

Abstract

Keywords

UN SDGs

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Research output

Improving the Reliability of Tidal Turbine Generator Systems

Cite this