Full article - Open Access.

Idioma principal | Segundo idioma

APPLICATION OF GOOD PRACTICES IN INDUSTRIAL PROCESSES WITH A FOCUS ON ENERGY EFFICIENCY

APPLICATION OF GOOD PRACTICES IN INDUSTRIAL PROCESSES WITH A FOCUS ON ENERGY EFFICIENCY

Andrade, Fabiana N ; Gonzaga, Luan Carlos Figueiredo ; Rodrigues, Rafaela Reis ; Rodrigues , Yan Valdez Santos ; Sampaio, Tatyana Barbara Torres ; Lira, Daniel Andrade ; Torres, Fernanda Miranda ; Oliveira, Turan Dias ;

Full article:

Brazilian industries consume around 35% of the electricity produced in the country. As such, there is a growing need to optimize energy consumption to reduce operating costs. Actions aimed at energy efficiency generate results with fewer natural resources and the same energy, so there is increasing investment and study in this area. The aim of this article is to look at good practices related to energy efficiency that can be applied to various segments of the industrial production sector. The cases presented here used engineering tools such as AspenPlus© to optimize combustion, the ValorAR program to estimate savings in a compressed air system and the Water Source Diagram (WFD) to evaluate water reuse.

Full article:

Brazilian industries consume around 35% of the electricity produced in the country. As such, there is a growing need to optimize energy consumption to reduce operating costs. Actions aimed at energy efficiency generate results with fewer natural resources and the same energy, so there is increasing investment and study in this area. The aim of this article is to look at good practices related to energy efficiency that can be applied to various segments of the industrial production sector. The cases presented here used engineering tools such as AspenPlus© to optimize combustion, the ValorAR program to estimate savings in a compressed air system and the Water Source Diagram (WFD) to evaluate water reuse.

Palavras-chave: Energy Efficiency, Combustion Optimization, Compressed air, WSD,

Palavras-chave: Energy Efficiency, Combustion Optimization, Compressed air, WSD,

DOI: 10.5151/siintec2023-306060

Referências bibliográficas
  • [1] ".COSTA, A. L. et al. Resultados PROCEL 2020. [s.l.] Eletrobras, 2019.
  • [2] .ACORONI, J. C. et al. EFICIÊNCIA ENERGÉTICA: Melhores Práticas em
  • [3] economia de energia em um setor industrial. 201
  • [4] [3].INNOVATION, D. F. S., TECHNOLOGY AND; STEEL COMMITTEE. AN
  • [5] INTRODUCTION TO ENERGY MANAGEMENT SYSTEMS: ENERGY
  • [6] SAVINGS AND INCREASED INDUSTRIAL PRODUCTIVITY FOR THE IRON
  • [7] AND STEEL SECTOR. [s.l.] Organisation for Economic Co-operation and
  • [8] Development, 17 fev. 2015. Disponível em: .
  • [9] [4].GOMES, Juliana Freitas Santos. Procedimento para Minimização de Efluentes
  • [10] Aquosos. 2002. Tese (Mestre em Ciências) - Universidade Federal do Rio de
  • [11] Janeiro, 2002.
  • [12] [5]. MIRRE, Reinaldo Coelho; YOKOYAMA, Lídia; PESSOA, Fernando Luiz
  • [13] Pellegrini; CALIXTO, Ewerton Emmanuel da Silva. REÚSO DE ÁGUA EM
  • [14] PROCESSOS QUÍMICOS: MODELO INTEGRADO PARA GERENCIAMENTO
  • [15] SUSTENTÁVEL. 2. ed. Curitiba: Appris, 2021. 293 p.
  • [16] [6].HESSEL, V. Process intensification–engineering for efficiency, sustainability
  • [17] and flexibility. Green Processing and Synthesis, v. 1, n. 1, 1 jan. 2012.
  • [18] [7].LOUZADA. Controle Estatístico de Processos-Uma Abordagem Prática para
  • [19] Cursos de Engenharia e Administração. 1. ed. [s.l.] LTC, 2013.
  • [20] [8].THERMAL ENERGY EFFICIENCY IMPROVEMENT HANDBOOK . 1. ed. [s.l.]
  • [21] Department of Industrial Promotion, Ministry of Industry of Thailand And The
  • [22] Energy Conservation Center of Japan, 2007.
  • [23] [9].LEE, P. Y. et al. Total Site Heat and Power Integration for Locally Integrated
  • [24] Energy Sectors. Energy, v. 204, p. 117959, ago. 2020. [10]. INCROPERA, F.P.; DEWITT, D.P. Fundamentos de Transferência de. Calor e
  • [25] de Massa,8a edição, LTC - Livros Técnicos e Científicos Editora. S. A., R. J.
  • [26] 2008.
  • [27] [11]. BORGES, Giovanni Caixeta et al. Implementação do sistema de trabalho
  • [28] integrado no setor de utilidades industriais. 2018.
  • [29] [12]. AGHA, M. H. et al. Integrated production and utility system approach for
  • [30] optimizing industrial unit operations. Energy, v. 35, n. 2, p. 611–627, fev. 2010.
  • [31] [13]. HAHN, A. Compressores Guia Avançado: Eficiência Energética Industrial. Rio
  • [32] de Janeiro: PROCEL INDÚSTRIA, dez 2004.
  • [33] [14]. Energy Tips – Compressed Air.: Energy Efficiency and Renewable Energy. [s.l.]
  • [34] U.S Department of Energy,[s.d.]. Disponível em:
  • [35] .
  • [36] [15]. GOMES, Juliana F.S.; QUEIROZ, Eduardo M.; PESSOA, Fernando L.P. Design
  • [37] procedure for water/wastewater minimization: single contaminant. Journal of
  • [38] Cleaner Production, p. 474-485, 10 jul. 2023.
  • [39] [16]. MIRRE, Reinaldo Coelho; FRANCISCO, Flávio; CALIXTO, Ewerton Emmanuel
  • [40] da Silva; PESSOA, Fernando Luiz Pellegrini; QUEIROZ, Eduardo. MINEA,
  • [41] Software para a Minimização do Consumo de Água em Processos Químicos
  • [42] com Base no Diagrama de Fontes de Água (DFA). CAIP, Lima, p. 1-10, 24 out.
  • [43] 2013.
  • [44] [17]. QUARESMA, Ana Carolina de Lira et al. Source diagram: A new approach for
  • [45] hybrid power systems design. Elsevier, n. 47, p. 1-19, 2021.
  • [46] [18]. QUARESMA, Ana Carolina de Lira et al. Hybrid System Sources Diagram for
  • [47] Designing Off-grid Distributed Energy Systems. Process Integration and
  • [48] Optimization for Sustainability, p. 1-12, 22 jun. 2023."
Como citar:

Andrade, Fabiana N ; Gonzaga, Luan Carlos Figueiredo ; Rodrigues, Rafaela Reis ; Rodrigues , Yan Valdez Santos ; Sampaio, Tatyana Barbara Torres ; Lira, Daniel Andrade ; Torres, Fernanda Miranda ; Oliveira, Turan Dias ; "APPLICATION OF GOOD PRACTICES IN INDUSTRIAL PROCESSES WITH A FOCUS ON ENERGY EFFICIENCY", p. 342-349 . In: . São Paulo: Blucher, 2023.
ISSN 2357-7592, DOI 10.5151/siintec2023-306060

últimos 30 dias | último ano | desde a publicação


downloads


visualizações


indexações