SOLAR THERMAL ENERGY: WATER HEATING INNOVATION FOR INDUSTRIAL PROCESSES

Authors

  • E. F. Carreira Junior
  • J. B. Sacomano
  • M. Mollo Neto

DOI:

https://doi.org/10.18011/bioeng2014v8n3p209-219

Keywords:

renewable energy, solar water heating, industrial heating

Abstract

The increase of energy consumption worldwide has led to the search for alternative in energy sources, including solar, easy to use, which doesn´t require very sophisticated or complex equipment. Many industrial processes use water at temperatures up to 100 ° C. The use of solar energy in industry is still low if compared to the total energy consumption. The objective of this paper is to investigate possibilities of solar heating uses of water in industrial processes, for what it was search in international papers to identify these applications current stage all around the world. Exploratory research of secondary data from the Brazilian market systems, solar heating in the National Department of Solar Heating (DASOL), and the National Energy Efficiency Plan 2010-2030 (PNEF-2010) of the Ministry of Mines and Energy, sought to characterize the current state of this sector in Brazil. The study concludes that the solar water heating in Brazilian industries is possible and represents an alternative that can contribute to reducing cost and energy consumption by 30% to 40% of the heating process at low temperature, particularly in the food, beverage, textile and chemical sectors.

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References

BEATH, A. C. Industrial energy usage in Australia and the potential for implementation of solar thermal heat and power, Energyv.43, n.1, p.261–272, 2012.

Disponível em <http://www.sciencedirect.com/science/arti

cle/pii/S0360544212003118>, acesso em 11/03/2013.

CALDERONI, M.; APRILE, M. MORETTA, S.; AIDONIS, A. e MOTTA. M. Solar thermal plants for industrial process heat in Tunisia: Economic feasibility analysis and ideas for a new policy. Energy Procedia, v.30, p.1390–1400, 2012. Disponível em <http://www.sciencedirect.com/science/article/pii/S1876610212016694>, acesso em 24/06/2013.

COTTRET, N e MENICHETTI, E.; Technical Study Report on Solar Heat For Industrial Processes (SHIP): State of the art in the Mediterranean region. Observatoire Méditerranéen de l'Energie, 2010. Disponível em <http://www.b2match.eu/system/stworkshop2013/files/SHIP.pdf?1357835481>, acesso em 05/05/2014.

DASOL- Departamento Nacional de Aquecimento Solar da Associação Brasileira de Refrigeração, Ar Condicionado, Ventilação e Aquecimento (ABRAVA) , 2014. Disponível em: <http://www.dasolabrava.org.br> Acesso em 15/11/2014.

FIESP. Panorama da Indústria de Transformação Brasileira. 4a. Edição, 2014. Disponível em <http://www.fiesp.com.br/indices-pesquisas-e-publicacoes/panorama-da-industria-de-transformacao-brasileira>, acesso em 20/10/2014.

FULLER, R.J. Solar industrial process heating in Australia:Past and current status. Renewable Energy v.36, n.1, p.216–221, 2011. Disponível em <http://www.sciencedirect.com/science/article/pii/S096014811000279X>, acesso em 07/05/2012.

IEA. Key World Energy Statistics. International Energy Agency, 2013. Disponível em <http://www.iea.org/publications/freepublications/publication/KeyWorld2013.pdf>, acesso em 31/03/2014.

KALOGIROU, S. The potential of solar industrial process heat applications. Applied Energyv.76, n.4, p.337–361, 2003. Disponível em <http://www.sciencedirect.com/science/article/pii/S0306261902001769>, acesso em 25/06/2012.

KARAGIORGAS, M.; BOTZIOS, A. e TSOUTSOS, T. Industrial solar thermal applications in Greece Economic evaluation, quality requirements and case studies. Renewable and Sustainable Energy Reviews, v.5, n.2, p.157–173, 2001. Disponível em <http://www.sciencedirect.com/science/article/pii/S1364032100000125>, acesso em 25/06/2012.

LAUTERBACH, C.; SCHIMITT, B.; JORDAN, U. e VAJEN, K. The potential of solar heat for industrial processes in Germany. Renewable and Sustainable Energy Reviews, v.16, n.7, p.5121–5130, 2012. Disponível em <http://www.sciencedirect.com/science/article/pii/S1364032112003073>, acesso em 11/03/2013.

MARTINS, F.R; ABREU, S.L. e PEREIRA, E.B. Scenarios for solar thermal energy applications in Brazil. Energy Policy v.48, p.640–649, 2012. Disponível em <http://www.sciencedirect.com/science/article/pii/S0301421512005113>, acesso em 20/06/2014.

MEKHILIEF, S.; SAIDUR, R. e SAFARI, A. A review on solar energy use in industries. Renewable and Sustainable Energy Reviews, v.15, n.4, p.1777–1790, 2011. Disponível em <http://www.sciencedirect.com/science/article/pii/S1364032110004533>, acesso em 02/04/2012.

MME-BEN, 2013 - Empresa de Pesquisa Energética. Balanço Energético Nacional 2013: Ano base 2012. Empresa de Pesquisa Energética. Rio de Janeiro : EPE, 2013, Disponível em <http://www.mme.gov.br/mme/galerias/arquivos/publicacoes/BEN/2_-_BEN_-_Ano_Base/1_-_BEN_Portugues_-_Inglxs_-_Completo.pdf>, acesso em 13/04/2014.

MME-PNEf. Plano Nacional de Eficiência Energética – PNEf: 2010-2030. Ministério de Minas e Energia – Brasília – Brasil – 2010. Ministério de Minas e Energia. Brasília: MME, 2010, Disponível em < http://www.mme.gov.br/mme/galerias/arquivos/noticias/2010/PNEf_-_Premissas_e_Dir._Basicas.pdf>, acesso em 12/06/2012.

PEREIRA E.B. et al. Atlas brasileiro de energia solar. São José dos Campos : INPE, 2006. Disponível em < http://www.ccst.inpe.br/wp-content/themes/ccst-2.0/pdf/atlas_solar-reduced.pdf>, acesso em 16/06/2014.

QUIJERA, J.A.; ALRIOLS, M.G. e LABIDI, J. Integration of a solar thermal system in a dairy process. Renewable Energy, v.36, n.6, p.1843–1853, 2011. Disponível em <http://www.sciencedirect.com/science/article/pii/S0960148110005422>, acesso em 24/06/2013.

TAIBI, E.; GIELENB, D. e BAZILIAN, M. The potential for renewable energy in industrial applications. Renewable and Sustainable Energy Reviews, v.16, n.1, p.735–744, 2012. Disponível em <http://www.sciencedirect.com/science/article/pii/S1364032111004497>, acesso em 11/03/2013.

TIMILSINA, G.R.; KURDGELASHVILI, L. e NARBELC, P.A. Solar energy: Markets, economics and policies. Renewable and Sustainable Energy Reviews, v.16, n.1, p.449–465, 2012. Disponível em <http://www.sciencedirect.com/science/article/pii/S1364032111004199>, acesso em 24/04/2012.

VANNONI, C.; BATTISTI, R. e DRIGO, S. Task 33 - Potential for Solar Heatin Industrial Processes. CIEMAT: Madrid, 2008. Disponível em <http://www.aee-intec.at/0uploads/dateien561.pdf>, acesso em 05/05/2014.

Published

2014-12-08

How to Cite

Carreira Junior, E. F., Sacomano, J. B., & Mollo Neto, M. (2014). SOLAR THERMAL ENERGY: WATER HEATING INNOVATION FOR INDUSTRIAL PROCESSES. Revista Brasileira De Engenharia De Biossistemas, 8(3), 209–219. https://doi.org/10.18011/bioeng2014v8n3p209-219

Issue

Section

Regular Section