Abstract
In recent years, due to the increase in the consumption of electric energy worldwide, the generation of sustainable energy has become the focus of several scientific investigations. In this scenario, this project will propose a new technology for energy generation, based on the use of residue of Agate Stone Powder. It is worth noting that, currently, there is still no regulation for the disposal of these materials, occurring most of the time inadequately. Besides this, an iron-based particle will also be used, in order to build a cement artifact that works as an energy generator. It is expected that, at the end of the project, the developed prototype will be able to generate electrical energy in a satisfactory manner. The built prototype will have to be tested in a state of super humidity, that is, totally submerged in water, in order to evaluate its quality and efficiency. The final material confectioned, because it is a material capable of generating energy through humidity, receives the name of hygrogenerator and awakens great future possibilities for the development of new technologies, besides contributing to the sustainability of the environment.
Publisher
Universidade Federal de Santa Maria
Reference8 articles.
1. BRANDÃO, JOSÉ RONALDO JÚNIOR et al. Caracterização da cinza da casca de arroz vermelho para aplicação como material pozolânico. Energia na Agricultura, v. 35, n. 1, p. 80-88, 2020.
2. BRASILEIRO,L; MATOS, J. M.E. Revisão bibliográfica: Reutilização de resíduos reutilização de resíduos da construção e demolição na indústria da construção civil. Cerâmica, V. 61, n. 358. P 178-189,2015. Disponível em: https://www.scielo.br/j/ce/a/8v5cGYtby3Xm3Snd6NjNdtQ/.Acesso em: 1 mar. 2023.
3. DELLA, V. P. et al. Estudo comparativo entre sílica obtida por lixívia ácida da casca de arroz e sílica obtida por tratamento térmico da cinza de casca de arroz. Química Nova, SciELO Brasil, v. 29, p. 1175–1179, 2006
4. FERNANDO GALEMBECK, THIAGO AL BURGO, TELMA DUCATI E RUBIA GOUVEIA. Processo de eletrização e armazenamento de cargas elétricas em materiais por adsorção/ dessorção de água e material eletrizado pelo dito processo. 2010. WO 2011/0723481.
5. GALEMBECK, F.; BURGO, T. A. Hygroelectricity: The atmosphere as a charge reservoir. In: Chemical Electrostatics. [S.l.]: Springer, 2017. p. 65–90.