Optimization of the vinyl-monochloride recovery process for the reduction of costs and environmental impact

Original scientific paper

Authors

  • Jacqueline Arnautovic Nascimento Escola Politécnica, Universidade Federal da Bahia. Curso de Engenharia química Rua Aristides Novis, No. 2, Cep 40210-630, Salvador, BA, Brasil https://orcid.org/0009-0003-9790-489X
  • Paulo Roberto Britto Guimarães BAHIAINVESTE – Empresa Baiana de Ativos, Av. Tancredo Neves, 778, Bloco B, 1º.andar, Caminho das Árvores – CEP 41.820-904, Salvador, Bahia. Brasil
  • Regina Ferreira Vianna Escola Politécnica, Universidade Federal da Bahia. Curso de Engenharia química Rua Aristides Novis, No. 2, Cep 40210-630, Salvador, BA, Brasil https://orcid.org/0000-0002-5835-4827

DOI:

https://doi.org/10.2298/CICEQ230825024A

Keywords:

Vinyl monochloride, simulation, heat exchangers in series, optimal operating conditions

Abstract

Reducing environmental impacts in the production processes is the focus of large industries. In the PVC production process, the loss of vinyl monochloride (VCM) through an incineration stream of inert materials is a point of attention due to emission of greenhouse gases. VCM is lost as part of the stream of uncondensed gases from the VCM recovery unit. The optimization of the VCM recovery process was carried out by modelling the industrial system and running it using a process simulator. The unit model and simulation results have been verified through plant operating data. Sensitivity analyses were performed to identify which independent variables improved the VCM condensation rate. Based on plant operating experience, three independent variables were selected and their influence on the VCM recovery flow rate was verified: pressure, composition of the input stream and utility water flow rate. After the sensitivity analysis, the plant operating pressure was selected for optimization, resulting in the additional quarterly recovery of 7.5 tons of VCM and a reduction of more than 5 tons of natural gas fuel, that is, an annual reduction of 23 tons of fuel, which represents 53 tons of CO2eq. Overall, the annual savings amount to US$15,000, US$1,060 by reducing the consumption of fuel gas alone. Therefore, by ensuring greater VCM recovery, competitiveness improves by reducing production costs, and greenhouse gas emissions are reduced due to the decrease in gas incineration.

References

W.A. Michael, V. Giovanni, Vinyl Chloride Polymers. Encyclopedia of Polymer Science and Technology. John Wiley & Sons. Ed. 8, Herman F. Mark, New York (2002) 437-475. ISBN: 9780471440260.

M.R. Azari, R. Tayefeh-Rahimian, M.J. Jafari, H. Souri, Y. Shokoohi, A. Tavakol, Z. Yazdanbakhsh, Toxicol. Ind. Health 32 (12) (2016) 1921-1926. http://doi.org/10.1177/0748233715596663.

R.N. Wheeler Jr, Environ. Health Perspect. 41 (1981) 123-128. https://doi.org/10.1289/ehp.8141123

IARC Monographs on the Evaluation of Carcinogens Risks to Humans, 7th ed., World Health Organization, Lyon (1974) 291–305. ISBN 978-92-832-1207-2.

S. Alberto, M. Davide Di, C. Marisa, M. Stefania, M. Alessandro, I. Sergio, Arch. Environ. Occup. Health 77 (5) (2022) 372-381. https://doi.org/10.1080/19338244.2021.1900045

U. Fedeli; P. Girardi, G. Gardiman, D. Zara, L. Scoizzato, MN. Ballarin, M. Baccini, R. Pirastu, P. Comba,G. Mastrangelo, Am. J. Ind. Med.. 62 (1) (2019) 14-20. https://doi.org/10.1002/ajim.22922

G.C.Bertram. Environ. Sci. Technol. 11 (9) (1977) 864-868. https://doi.org/10.1021/es60132a014

World Health Organization, European commission, ICSC 0082, vinyl monochloride CAS: 75-01-4. icsc 0082 - cloruro de vinilo

L. C. GOMES, Master Thesis, University of Paraná and University of Bragança, Portugal (2021).

F.S. Rodrigo, G.M.N. Luis, Rev. Cienc. Exatas Apl. Tecnol. 5 (1) (2013) 12-26. https://doi.org/10.5335/ciatec.v5i1.3119

R. Monica, Doctoral Dissertation, California State University, Long Beach, USA (2022).

Central Pollution Control Board, Minimizing Release and Environmental Implications of Chlorine and its Compounds, Ministry of Environment & Forests, Delhi (2008) 21-24. CONTENT (cpcb.nic.in)

C. Paulo, R.M. Ana, R.E. Alírio, F. Alexandre, Aiche J. 66 (5) (2020).

K.E. John, (Geon Co), EP0027805B1 (1980).

J. L. Richard, H. W. Mark, W. G. Johannes, K. Juergen, Aiche J. 32 (10) (1993) 2236-2241. https://doi.org/10.1021/ie00022a006

P.J. Piyush, T.G. Clay, H.J. Edward, S.S. Carl, US3984218A (1976).

A. Fedak, Master Thesis, University of Aveiro, Portugal (2011).

N. A. Jacqueline. Master Thesis, University of Bahia, Brazil (2023).

H. Juma, Chemical Process Design and Simulation: Aspen Plus and Aspen Hysys Applications, Wiley-AIChE (2019). ISBN: 978-1-119-08911-7.

F.P. Renato, Master Thesis, University of Campina Grande, Brazil (2009).

C.D. Neves, J.M.D. Oliveira, Resultados da simulação estática da torre de destilação de VCM e antipolimerizante. Braskem´s report intern. (2017).

G.L. Silva, R.A.F. Lima, Master Thesis, University of Pernambuco, Brazil (2007).

M.R. Souza, Master Thesis, University of Bahia, Brazil (2016).

R. Vargas. Gestão Industrial de A a Z, , 1th ed., CreateSpace Independent Publishing Platform, Brazil (2015). ISBN: 1505837308.

P.F. Incropera, D. P. DeWitt, T.L. Bergman, A.S. Lavine, Fundamentals of heat and mass transfer, 6th ed., John Wiley & Sons, New York (2006). ISBN: 978-0471457282.

Air Emissions Factors and Quantification.. Protocol Boiler/Furnace: EPA AP-42, Ed. 5. Chapter 1, Sections 1.1, 1.3, 1.4 and 1.5., EPA- United States Environmental Protection Agency (https://www.epa.gov/air-emissions-factors-and-quantification/ap-42-fifth-edition-volume-i-chapter-1-external-0). [Accessed in 02 January 2022].

Unacademy. Understanding Maximum and Minimum Value of Quadratic Equation (unacademy.com) [Accessed in 02 July 2023].

J.M. Smith, H.C. Van Ness, M.M. Abbott, Introdução à Termodinâmica da Engenharia Química, LTC Ed. 8, São Paulo (2020). ISBN: 9788521636847.

Downloads

Published

04.07.2024

Issue

Section

Articles

How to Cite

Optimization of the vinyl-monochloride recovery process for the reduction of costs and environmental impact: Original scientific paper. (2024). Chemical Industry & Chemical Engineering Quarterly. https://doi.org/10.2298/CICEQ230825024A

Similar Articles

71-76 of 76

You may also start an advanced similarity search for this article.