Numerical evaluation on the efficiency of the submerged horizontal plate type wave energy converter

Seibt Flávio Medeiros; de Camargo Felipe Vannucchi; Dos Santos Elizaldo D.; Das Neves Gomes Mateus; Rocha Luiz Alberto Oliveira; Isoldi Liércio André; Fragassa Cristiano

FME Transactions (Jan 2019)

Numerical evaluation on the efficiency of the submerged horizontal plate type wave energy converter

Seibt Flávio Medeiros,
de Camargo Felipe Vannucchi,
Dos Santos Elizaldo D.,
Das Neves Gomes Mateus,
Rocha Luiz Alberto Oliveira,
Isoldi Liércio André,
Fragassa Cristiano

Affiliations

Seibt Flávio Medeiros: Federal University of Rio Grande do Sul, Mechanical Engineering Graduate Program, Porto Alegre, Brazil
de Camargo Felipe Vannucchi: Federal University of Rio Grande do Sul, Post-Graduation Program in Mining, Metallurgical and Materials Engineering, Porto Alegre, Brazil
Dos Santos Elizaldo D.: Federal University of Rio Grande, Ocean Engineering Graduate Program, Rio Grande, Brazil
Das Neves Gomes Mateus: Federal Institute of Education, Science and Technology of Paraná, Paranaguá, Brazil
Rocha Luiz Alberto Oliveira: University of Vale do Rio dos Sinos, Mechanical Engineering Graduate Program, São Leopoldo, Brazil
Isoldi Liércio André: Federal University of Rio Grande, Ocean Engineering Graduate Program, Rio Grande, Brazil
Fragassa Cristiano: University of Bologna, Department of Industrial Engineering, Bologna, Italy

Journal volume & issue: Vol. 47, no. 3
pp. 543 – 551

Abstract

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The high availability of energy within ocean waves is seen as an important and abundant alternative as a renewable energy source. This paper presents a numerical study of the submerged horizontal plate type wave energy converter, assessing its theoretical efficiency for several relative plate heights. The propagation and incidence of distinct wave periods through the device structure were simulated, and the device efficiency was evaluated disregarding the presence of the turbine under the plate. A total of six wave periods between 1.25 and 3.50 s with wave height of 0.06 m were considered for six different plate heights. The results allow to make theoretical recommendations on the converter performance. The multiphase Volume of Fluid model was used through a two-dimensional approach for air-water interaction and the conservation equations of mass, momentum and volume fraction transport were solved by the Finite Volume Method. The results of analysis allowed to observe that the highest relative plate height leads to enhanced submerged horizontal plate efficiencies among the simulated wave periods, as well as to identification of a theoretical device efficiency up to three times higher for larger wave periods than for shorter wave periods.

Published in FME Transactions

ISSN: 1451-2092 (Print); 2406-128X (Online)
Publisher: University of Belgrade - Faculty of Mechanical Engineering, Belgrade
Country of publisher: Serbia
LCC subjects: Technology: Engineering (General). Civil engineering (General): Mechanics of engineering. Applied mechanics
Website: https://scindeks.ceon.rs/journaldetails.aspx?issn=1451-2092&lang=en

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