TECHNO-ECONOMIC ANALYSIS OF CATECHIN MIX MANUFACTURE FROM Camellia sinensis LEAVES USING GREEN EXTRACTION TECHNOLOGY

Original scientific paper

Authors

  • OLADAYO ADEYI Department of Chemical Engineering, Michael Okpara University of Agriculture, Umudike, Abia State, Nigeria
  • EMMANUEL OLUSOLA OKE Department of Chemical Engineering, Michael Okpara University of Agriculture, Umudike, Abia State, Nigeria
  • ABIOLA JOHN ADEYI Department of Mechanical Engineering, Ladoke Akintola University of Technology, Ogbomoso, Oyo State, Nigeria and Forest Research Institute of Nigeria, Jericho Ibadan, Oyo State, Nigeria
  • BERNARD OKOLO Department of Chemical Engineering, Michael Okpara University of Agriculture, Umudike, Abia State, Nigeria
  • KENECHI NWOSU-OBIEOGU Department of Chemical Engineering, Michael Okpara University of Agriculture, Umudike, Abia State, Nigeria

DOI:

https://doi.org/10.2298/CICEQ200528044O

Keywords:

techno-economic analysis, Camellia sinensis, deep eutectic solvent, microwave assisted extraction

Abstract

This work designed, modeled and performed economic analysis of the base case extraction and recovery of catechin mix (CM) from Camellia sinensis leaves (CSL) using deep eutectic solvent (DES) and microwave assisted ext­raction (MAE) with the assistance of SuperPro Designer software. Techno-
-economic analysis of three commercial scales of manufacture was also inves­tigated and compared using profitability parameters. Sensitivity and uncertainty analyses were further carried out on the most viable commercial scale to determine input variable(s) of highest significance on the profitability of the process. The 3.30 kg CM/batch is the most economically desirable scale with return on investment of 324.65%, payback period of 0.31 years, internal rate of return of 163.83% and net present value of $1,059,595,224. Out of the input variables selected for the sensitivity and uncertainty analyses, CSL and DES costs have the least effect on the selected profitability parameters of the process.

References

W.C. Reygaert, BioMed Res. Int. (2018) 1-9

N.S. Kumar, M. Rajapaksha, J. Chromatogr., A 1083 (2005) 223-228

Q.V. Vuong, J.B. Golding, C.E. Stathopoulos, M.H. Nguyen, P.D. Roach, J. Sep. Sci. 34 (2011) 3099-3106

K.R. Määttä-Riihinen, M.P. Kähkönen, A.R. Törrönen, I.M. Heinonen, J. Agric. Food Chem. 53 (2005) 8485-8491

B.R. Albuquerque, M.A. Prieto, M.F. Barreiro, A. Rodr-igues, T.P. Curran, L. Barros, I.C. Ferreira, Ind. Crops Prod. 95 (2017) 404 - 415

M. Gołębiowski, E. Maliński, M. Szankin, M. Marszeniuk, M. Paszkiewicz, P. Stepnowski, Chem. Pap. 64 (2010) 729-733

A. Stan, O.C. Bujor, L. Badulescu, J. Hortic. Sci. Bio-technol. 21 (2017) 8-14

W. Shafi, S. Mansoor, S. Jan, D.B. Singh, M. Kazi, M. Raish, P. Ahmad, Molecules 24 (2019) 1-12

K. Ohyama, C. Furuta, Y. Nogusa, K. Nomura, T. Miwa, K. Suzuki, Ann. Nutr. Metab. 58 (2011) 250-258

W. Li, H.H. Fong, K.W. Singletary, J.F. Fitzloff, J. Liq. Chromatogr. Relat. Technol. 25 (2002) 397-407

J.A. Joseph, G. Casadesus, M.A. Smith, G. Perry, B. Shukitt-Hale, Nutr. Prev. Treat. Dis. 14 (2013) 373-390

S.H.P.D. Roach, J. Food Nutr. Res. 50 (2011) 160-166

Q. Chen, J. Zhao, S. Chaitep, Z. Guo, Food Chem. 113 (2009) 1272-1277

N. Miyoshi, M. Pervin, T. Suzuki, K. Unno, M. Isemura, Y. Nakamura, Bot. Targets Ther. 5 (2015) 85-96

J. Li, Z. Han, Y. Zou, B. Yu, RSC Adv. 5 (2015) 93937-93944

M.C. Bubalo, N. Ćurko, M. Tomašević, K.K. Ganić, I.R. Redovniković, Food Chem. 200 (2016) 159-166

V. Vieira, M.A. Prieto, L. Barros, J.A. Coutinho, I.C. Ferreira, O. Ferreira, Ind Crops Prod. 115 (2018) 261-271

S. Chanioti, C. Tzia, Innov Food Sci Emerg Technol. 48 (2018) 228-239

A. García, E. Rodríguez-Juan, G. Rodríguez-Gutiérrez, J.J. Rios, J. Fernández-Bolaños, Food Chem. 197 (2016) 554-561

M.E. Alañón, M. Ivanović, A.M. Gómez-Caravaca, D. Arráez-Román, A. Segura-Carretero, Arab. J. Chem. 13 (2018) 1685-1701

F. Chemat, M.A. Vian, G. Cravotto, Int. J. Mol. Sci. 13 (2012) 8615–8627

M. Ruesgas-Ramón, M.C. Figueroa-Espinoza, E. Durand, J. Agric. Food Chem. 65 (2017) 3591-3601

P.T. Quan, T.V. Hang, N. Hai Ha, N.X. De, T.N. Tuyen, Sci. Technol. Dev. 9 (2006) 69-75

G. Spigno, D.M. De Faveri, J. Food Eng. 93 (2009) 210-217

A.A. Rahim, S. Nofrizal, B. Saad, Food Chem. 147 (2014) 262-268

K. Krishnaswamy, V. Orsat, Y. Gariépy, K. Thangavel, Food Bioproc. Tech. 6 (2013) 441-455

W. Routray, V. Orsat, Food Bioproc. Tech. 5 (2012) 409-424

Z. Li, D. Huang, Z. Tang, C. Deng, J. Sep. Sci. 33 (2010) 1079-1084

C.S. Lee, M.F. Chong, E. Binner, R. Gomes, J. Robinson, Chem Eng Res Des. 132 (2018) 358-369

O. Alshekhli, D.C. Foo, C.L. Hii, C.L. Law, Food Bioprod. Process. 89 (2011) 528-536

A. Pérez Sánchez, S. Singh, E.J. Pérez Sánchez, R.M. Segura Silva, Rev. Colomb. Biotecnol. 20 (2018) 6-18

N.R. Baral, A. Shah, Energy Fuels 30 (2016) 5779-5790

P.I. Carvalho, J.F. Osorio-Tobón, M.A. Rostagno, A.J. Petenate, M.A.A Meireles, J. Supercrit. Fluids 105 (2015) 44-54

A.C. de Aguiar, J.F. Osorio-Tobón, L.P.S. Silva, G.F Bar¬bero, J. Martinez, J. Supercrit. Fluids 133 (2018) 86-93

Intelligen Inc., SuperPro designer users guide, Scotch Plains, NJ, 2014

A. Athimulam, S. Kumaresan, D.C.Y. Foo, M.R. Sarmidi, R.A. Aziz, Food Bioprod. Process. 84 (2006) 139-149

Sigma Life Science Online Product Catalog, https:// //www.sigmaaldrich.com (accessed 17 January 2020)

A. Hicks, AU JT, 12 (2009) 251-264

Manufacturers, Suppliers, Exporters & Importers from the worlds largest online B2B Marketplace, 2020, https://www.made-in-china.com/ (accessed 17 January 2020)

Camellia sinensis extract, Sigma-Aldrich, https://www.sigmaaldrich.com (accessed 17 January 2020)

M.P. Fernández-Ronco, A. de Lucas, J.F. Rodríguez, M.T. García, I. Gracia, J. Supercrit. Fluids 79 (2013) 345-355

S.S. Lim, D.C. Foo, Food Bioprod. Process. 106 (2017) 108-116

N. Mahmud, K.A. Rosentrater, Energies 13 (2020) 181.

Published

26.10.2021

Issue

Section

Articles

How to Cite

TECHNO-ECONOMIC ANALYSIS OF CATECHIN MIX MANUFACTURE FROM Camellia sinensis LEAVES USING GREEN EXTRACTION TECHNOLOGY: Original scientific paper. (2021). Chemical Industry & Chemical Engineering Quarterly, 27(3), 241-254. https://doi.org/10.2298/CICEQ200528044O

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