Ocean wave energy as a possible power source for the brazilian energy matrix

被引:0
作者
De Oliveira D.M. [1 ]
Isoldi L.A. [1 ]
Dos Santos E.D. [1 ]
Rocha L.A.O. [1 ]
Das Neves Gomes M. [1 ]
机构
[1] Rua Antonio Carlos Rodrigues 453, Porto Seguro, Paranaguá
来源
Defect and Diffusion Forum | 2019年 / 396卷
关键词
Conversion; Energy; Ocean Waves;
D O I
10.4028/www.scientific.net/DDF.396.70
中图分类号
学科分类号
摘要
Energy is a fundamental element for the development of societies, with energy transformation from renewable sources a challenging theme throughout the world. In Brazil, the energy matrix is composed mainly of non-renewable sources such as petroleum and its derivatives, but the transformation for electricity supply is carried out mainly by hydroelectric plants. This paper presents data from the National Energy Balance between the years 2011 to 2016, regarding the internal supply of energy, as well as the sectors that use it as their main source of electricity, allowing a better visualization of the national scenario. In view of the problem, the main objective is to present possibilities for the production of energy by ocean waves, a concept already studied in developed countries. For example, three tested converter devices are considered: One in Norway and two in Denmark. Considering this possibility from the power of the ocean waves in the world, as well as the climatic, geographical and wave characteristics of Brazil, this work indicates the possibility of a significant increase in the Brazilian energy matrix through the use of the energy of the ocean waves. However, there is a growing need to foster research and development projects in this area, so that this alternative source of energy will become viable. © 2019 Trans Tech Publications Ltd, Switzerland.
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页码:70 / 78
页数:8
相关论文
共 24 条
[1]  
Cruz J.M.P.P., Sarmento A.J.A.A., Wave Energy: Introduction to Technological, (2004)
[2]  
Wang L., Isberg J., Tedeschi E., Review of control strategies for wave energy conversion systems and their validation: The wave-to-wire approach, Renewable and Sustainable Energy Reviews, 81, P1, pp. 366-379, (2018)
[3]  
National Energy Balance 2017: Base Year 2016, Rio de Janeiro, EPE, (2017)
[4]  
Oleinik P.H., Marques W.C., Kirinus E.P., Simulation of ocean waves on the South-Southeastern Brazilian coast to analyze the energy potential, VETOR - Journal of Exact Sciences and Engineering, 26, 2, pp. 39-50, (2016)
[5]  
Gomes M.N., Constructive Design of Sea Wave Energy Converters in Electric Oscillating Water Column Type, (2014)
[6]  
Clement A., McCullen P., Falcao A., Fiorentino A., Gardner F., Hammarlund K., Lemonis G., Lewis T., Nielsen K., Petroncini S., Pontes M.T., Schild P., Sjostrom B.O., Sorensen H.C., Thorpe T., Wave energy in Europe: Current status and perspectives, Renewable and Sustainable Energy Reviews, 6, pp. 405-431, (2002)
[7]  
Wave Energy Utilization in Europe: Current Status and Perspectives, (2002)
[8]  
World Energy Resources: Marine Energy, (2016)
[9]  
De A.F., Falcao O., Wave energy utilization: A review of the technologies, Renewable and Sustainable Energy Reviews, 14, pp. 899-918, (2010)
[10]  
Lopez I., Andreu J., Ceballos S., Alegria I.M., Kortabarria I., Review of wave energy technologies and the necessary power-equipment, Renewable and Sustainable Energy Reviews, 27, pp. 413-434, (2013)