3D NUMERICAL ANALYSIS ABOUT THE SHAPE INFLUENCE OF THE HYDRO-PNEUMATIC CHAMBER IN AN OSCILLATING WATER COLUMN (OWC)

Autores

  • L. A. Isoldi Universidade Federal do Rio Grande
  • J. do A. M. Grimmler Universidade Federal do Rio Grande
  • M. Letzow Universidade Federal do Rio Grande
  • J. A. Souza Universidade Federal do Rio Grande
  • M. das N. Gomes Instituto Federal do Paraná
  • L. A. O. Rocha Universidade Federal do Rio Grande do Sul
  • E. D. dos Santos Universidade Federal do Rio Grande

DOI:

https://doi.org/10.5380/reterm.v14i1.62106

Palavras-chave:

wave energy, oscillating water column (OWC), numerical simulation

Resumo

The oceans represent one of the major energy natural resources, which potentially can be used to supply the World energy demand. In the last decades some devices to convert the wave ocean energy into electrical energy have been studied. In this work the operating principle of an Oscillating Water Column (OWC) converter was analyzed with a transient 3D numerical methodology, using the Finite Volume Method (FVM) and the Volume of Fluid (VOF) model. The incident waves on the OWC hydro- pneumatic chamber cause an oscillation of the water column inside the chamber producing an alternate air flow through the chimney. The air drives a turbine that is coupled to an electric generator. The aim of this work was to investigate the shape influence of the hydro-pneumatic chamber geometry in the air flow. For this, six cases were studied in laboratory scale and the results showed that the variation of the OWC chamber shape can improve 12.4% the amount of mass air flow.

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Publicado

2015-06-30

Como Citar

Isoldi, L. A., Grimmler, J. do A. M., Letzow, M., Souza, J. A., Gomes, M. das N., Rocha, L. A. O., & dos Santos, E. D. (2015). 3D NUMERICAL ANALYSIS ABOUT THE SHAPE INFLUENCE OF THE HYDRO-PNEUMATIC CHAMBER IN AN OSCILLATING WATER COLUMN (OWC). Revista Da Engenharia Térmica, 14(1), 03–08. https://doi.org/10.5380/reterm.v14i1.62106

Edição

Seção

Technology