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Environmental technologies used for the mitigation of industrial environmental impacts

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DOI:

https://doi.org/10.5902/2179460X41268

Keywords:

Remediation technologies, Environmental impacts, Pipe end technology, Cleaner production

Abstract

With the growth of the world population, constant technological evolution and consequent change in the habits of our society, human activity is gradually increasing its capacity of alteration to the environment. Small acts of environmental preservation result in great feats for the ecosystem, for humanity and are preludes for the continuity of life. This study discusses the dispersion of pollutants caused by industries, the importance of the remediation technologies used, which can prevent and / or mitigate the impacts that are caused to the environment. This study is a comparison between end-of-pipe technologies and cleaner production, which are the most used by industries. It was based on the environmental impacts caused by the industries and on the most used remediation technologies as mechanisms to reduce or prevent these impacts.

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References

ASSOCIATION, American Library. Anglo-American Cataloging Rules, volume 2, 2005.

BARBIERI, J. C. Corporate Environmental Management: model concepts and instruments. Ed. Saraiva: Rio de Janeiro, 2006.

BARBIERI, José Carlos. Corporate Environmental Management. São Paulo: Editora Saraiva, 2007.

BARBIERI, José Carlos. Corporate Environmental Management: concepts, models and instruments. 3.ed. current and expanded. São Paulo: Saraiva, 2011.

BELLAMY, Alex J. Responsability to Protect. Publisher: Polity, 2009.

CATEORA. P. R., GRAHAN J. International Marketing. 10th ed. Irwin MacGraw-Hil .: Rio de Janeiro, 1999.

CETESB - Technology Company of Environmental Sanitation. Technical Note on control technology. Pigment industry. NT-32. São Paulo, 1995.

CHEHEBE, J.R.B. Product Lifecycle Analysis. Qualitymark Publisher: Rio de Janeiro, 1998.

COLOMBINI, Letícia. The power of integration. Rev. Exam, ten. 2005Available in: http://portalexame.abril.com.br/revista/ediciones/0857/gestao/m0080248,htlm.

DIETRICH, J.A., Membrane technology comes of age. Rev. Polluition Engineering. July, pp.20-25, 1995.

DONAIRE, Denis. Environmental Management in the Company. 2. Ed. São Paulo: Atlas, 1999.

MAGALHÃES, J.P.A. The Evolution of Environmental Law in Brazil. 2nd Edition Editora Juarez de Oliveira: São Paulo, 2002.

MAY, Peter H. Environmental economics: theory and practice. 2. ed. Rio de Janeiro, 2010.

FIRJAN. Environmental management in the industries of the State of Rio de Janeiro. Environmental background. Special edition, 2002. Available at: www.firjan.org.br

GERAUD G, SPIERINGS EL, KEYWOOD C. Tolerability and safety of frovatriptan with short- and long-term use for treatment of migraine and in comparison with sumatriptan. Headache. 2002;42 Suppl 2:S93-9.

HENRIQUE, L.P .; QUELHAS, O.LG. Cleaner Production: An example for sustainability in organizations. 2007. Available in: Accessed on 05/21/2016.

KEMP, Rene, SOETE, Luc (1990). Inside the 'green box': on the economics of technological change and the environment. In:

FREEMAN, C., SOETE, L. (eds). New explorations in the economics of technological change. London: Pinter Publishers.

LUSTOSA, Maria Cecília (1999ª). International trade, environment and Brazilian exports. IE / UFRJ: Rio de Janeiro.

MAGALHÃES, J.P.A. The Evolution of Environmental Law in Brazil. 2nd Edition Editora Juarez de Oliveira: São Paulo, 2002.

MAY, Marilia Cecilia Lutosa; VINHA, Valeria da (orgs). Environmental economics: Theory and practice. Rio de Janeiro: Elsevier, 2003.

MAY, Peter H. Environmental economics: theory and practice. 2. ed. Rio de Janeiro, 2010.

MOREIRA, Maurício M., CORREA, Paulo G. (1996). Trade openness and industry: what can be expected and what has been obtained. BNDES: Rio de Janeiro.

MOTTA, Ronaldo S. (coord.). Environmental accounting: Theory, methodology and case studies in Brazil. Rio de Janeiro: IPEA.

NOWOSIELSKI, R., BABILAS, R., PILARCZYK, W. Sustainable Technology as a basic of cleaner production - Journal of Achievements in Materials and Manufacturing Engineering, 2007.

PACHECO, T. de A. Manhole filter technology combats atmospheric pollution. Rev. Filter Medium. July 2, 2013. Available in: Accessed on: 05/21/2016.

PEREIRA, G. R; SANT'ANNA, F. S. P. A cleaner production analysis in Brazil. Revista Brasileira de Ciência Ambientais, N. 24, June, 2012.

PIRES, Daniel Canello, Implementation of the cleaner production program in a small foundry industry. São Leopoldo, 2011.43

SAVITZ, Andrew, The Sustainable Company. Rio de Janeiro: Elsevier, 2007

SCHMALENSEE, Richard. Industry studies of structure and performance. In: SHMALENSE, R., WILLIG (eds.) Handbook of industrial organization. v.2, Elsevier Science Publishers: Amsterdam, 1990.

SHIGUNOV NETO, Alexandre; CAMPOS, Lucila Maria de Souza; SHIGUNOV, Tatiana. Fundamentals of Environmental Management. Rio de Janeiro: Modern, 2009.

SMEJA, Michel. Biodigesters. Blog Science Technology and Innovation, May 02, 2011. Available: http://andresbmariano.blogspot.com.br/2011/05/biogestores.html, access on 05/19/2016.

TINOCO, João Eduardo Prudêncio. KRAEMER, Maria Elisabeth Pererira. Accounting and environmental management. 2. Ed. São Paulo: Atlas, 2008.

WACKERNAGEL, Mathis & REES, William. Our Ecological Footprint: Reducing Human Impact on the Earth. Publisher: New Society Publish, 1998.

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Published

2020-12-31

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How to Cite

Santos, C. G., & Carvalho, E. S. A. (2020). Environmental technologies used for the mitigation of industrial environmental impacts. Ciência E Natura, 42, e4. https://doi.org/10.5902/2179460X41268