Design of a new turbine for OWC wave energy converters: The DDT concept

Abstract Oscillating Water Column (OWC) has attracted significant research efforts in the field of wave energy technology in the last decades. Recently, the Twin Turbines Configuration (TTC) has received attention because it is based on the use of unidirectional turbines which are much more efficient. Nevertheless, its main disadvantage with respect to classic OWC systems equipped with bidirectional turbines is the duplicity of equipment. To overcome this limitation, the Double Decker Turbine (DDT) concept is presented here as a new turbine which combines the best of both solutions, the TTC and the bidirectional turbine, in which the geometrical design of the DDT has been carried out based on a well-tested geometry taken from the bibliography. In addition, CFD modelling has been used to obtain an optimized DDT by means of a comparison between two new geometries for the outer turbine; while the inner turbine geometry has been already taken from the literature. Outer turbine has been further validated through experimental measurements of a manufactured prototype. Finally, a non-steady analysis of the proposed double turbine is carried out assuming sinusoidal flow conditions. Results demonstrate that the DDT concept can compete with the other alternatives, even envisaging high-performance characteristics to be developed in future works.

[1]  F. Castro,et al.  Viability of unidirectional radial turbines for twin-turbine configuration of OWC wave energy converters , 2018 .

[2]  A. Thakker,et al.  Computed effects of tip clearance on performance of impulse turbine for wave energy conversion , 2004 .

[3]  G. Iglesias,et al.  The economics of wave energy: A review , 2015 .

[4]  Manabu Takao,et al.  Current status of self rectifying air turbines for wave energy conversion , 2006 .

[5]  Tony Lewis,et al.  Weather Window Analysis of Irish and Portuguese Wave Data With Relevance to Operations and Maintenance of Marine Renewables , 2013 .

[6]  João C.C. Henriques,et al.  Oscillating-water-column wave energy converters and air turbines: A review , 2016 .

[7]  Claire Soares 4 – Gas Turbine Major Components and Modules , 2008 .

[8]  Ying Cui,et al.  Review of CFD studies on axial-flow self-rectifying turbines for OWC wave energy conversion , 2019, Ocean Engineering.

[9]  A. Thakker,et al.  3DCAD conceptual design of the next-generation impulse turbine using the Pugh decision-matrix , 2009 .

[10]  Francisco Castro,et al.  Optimization and experimental tests of a centrifugal turbine for an OWC device equipped with a twin turbines configuration , 2019 .

[11]  João C.C. Henriques,et al.  A novel twin-rotor radial-inflow air turbine for oscillating-water-column wave energy converters , 2015 .

[12]  A. Husain,et al.  Performance enhancement of Wells turbine: Combined radiused edge blade tip, static extended trailing edge, and variable thickness modifications , 2019, Ocean Engineering.

[13]  Manabu Takao,et al.  A twin unidirectional impulse turbine topology for OWC based wave energy plants , 2009 .

[14]  Manabu Takao,et al.  A twin unidirectional impulse turbine for wave energy conversion , 2011 .

[15]  S. L. Dixon,et al.  Fluid mechanics, thermodynamics of turbomachinery , 1966 .

[16]  M. Melikoğlu Current status and future of ocean energy sources: A global review , 2018 .

[17]  Francisco Castro,et al.  Numerical analysis of a unidirectional axial turbine for twin turbine configuration , 2014 .

[18]  S. J. Kline,et al.  Describing Uncertainties in Single-Sample Experiments , 1953 .

[19]  Jon Andreu,et al.  Review of wave energy technologies and the necessary power-equipment , 2013 .

[20]  Manabu Takao,et al.  Performance of an impulse turbine with fixed guide vanes for wave power conversion , 1999 .

[21]  B. Lakshminarayana Fluid dynamics and heat transfer of turbomachinery , 1995 .