The HYDRODYNAMICS AND MASS TRANSFER IN A VIBRATING PLATE EXTRACTION COLUMNS

HYDRODYNAMICS AND MASS TRANSFER IN A VIBRATING PLATE EXTRACTION COLUMNS

  • Milan Sovilj Tehnoloski fakultet, Novi Sad
DOI: https://doi.org/10.5937/jpea30-65593
Ključne reči: Ključne reči: brzina agitacije, sadržaj dispergovane faze, Sauterov srednji prečnik kapi, koeficijent prenosa mase.

Sažetak


REZIME

U ovom radu analizirani su eksperimentalni  rezultati,  preuzeti iz literature,  a odnose na ispitivanje uticaja radnih parametara na hidrodinamiku i prenos mase u ekstrakcionoj koloni sa perforiranim  vibracionim  pločama (VPE). Razmatrani  su podaci  zа  različite  dvofazne sisteme  tečno-tečno  (T-T). Analizirane  su  sledeće hidrodinamičke    karakteristike: srednji prečnik kapi, sadržaj dispergovane faze, relativna brzina faza i brzina plavljenja.Utvrđeno je da  postoji  uticaj   radnih parametara,   kao  što   su   brzina   agitacije,   površinske brzinekontinualne  i dispergovane faze, kao i smer prenosa mase na hidrodinamičke karakteristikeVPE kolone. Empirijske korelacije za predviđanje hidrdinamičkih karakteristika na osnovupodataka o radnim parametrima: geometriji  kolone i fizičkim  svojstvimatečnih fluida su prikazane   i  analizirane  sa   stanovišta   primenljivosti.   Pored   toga,  predstavljeni su i komentarisani keficijenti prenosa mase u VPE kolonama.

 

Reference

Baird, M.H.I., & Rama Rao, N.V. (1991). Axial mixing in the reciprocating plate column
with very small density gradients,. American Institute of Chemical Engineers Journal,
37 (7), 1019-1026 . https://doi.org/10.1002/aic.690370707.
Baird, M.H.I., Rama Rao, N.V., & Viyajan, S. (1992). Axial mixing and mass transfer in a
vibrating perforated plate extraction column. The Canadian Journal of Chemical Engineering, 70 (!), 69-76. https://doi.org/10.1002/cjce.5450700111Digital
Object Identifier (DOI)
Bensalem, A.K. (1985). Hydrodynamics and mass transfer in a reciprocating extraction
column. Ph. D. Thesis, ETH, Zürich
Boyadzhiev, L., & Spassov, M.. (1982). On the size of drops in pulsed and vibrating plate
extraction columns. Chemical Engineering Sciences, 37 (2), 337-340.
https://doi.org/10.1016/0009-2509(82)80169-3.
Harikrishnau, T.L., Prabhavathy N.K.G., & Vaxma, Y.B.G (1994). Liquid-liquid
mass transfer in a reciprocating-plate column. The Chemical Engineering Journal
and the Biochemical Engineering Journal, 54 7-16, https://doi.org/10.1016/923-0923-0467(93)02810-J
Heyberger, A., Sovová, H., & Procházka, J. (1983). Hold-up and flooding in a vibrating
plate extractor. Collection of Czechoslovak Chemistry Communications, 48, 989-1000. https://doi.org/10.1135/cccc19830989.
Ioannou, J., Hafez, M., & Hartland, S. (1976). Mass transfer and power consumption in
reciprocating plate extractors. Industrial and Engineering Chemistry Process Design and Development, 15 (3), 469-471. https://doi.org/10.1021/i260059a022.
Jong-Dae Ju, Yong-Ho Yu, & Sang Done Kim. (1990). Axial dispersion and phase hold-up
characteristics in reciprocating plate extraction columns. Separation Science and Technology, 25 (7-8), 921-940. DOI:10.1080/01496399008050374.
Lo, T.C., Prochazka, J. (1983). Reciprocating Plate Extraction Columns. In: Lo, T.C. Baird, M.H.I., & Hanson, C. Ed s., Handbook of Solvent Extraction, New York,
John Wiley & Sons.,373-389. ISBN 0-471-04164-5
Mohanty, S., & Vogelpohl, A. (1997). A simplified hydrodynamic model for a pulsed sieve-plate extraction column. Chemical Engineering Process. 36, 385-395.
https://doi.org/10.1016/S0255-2701(97)00010-X.
Naidoo, P. (2012). Investigation of the effects of the process and equipment parameters on the separation efficiency of a vibrating plate extractor. University of
Kwazulu-Natal, MSc in Chemical Engineering, Durban, South Africa. http://hdl.handle.net/10413/9885.
Nemecek, M., & Prochazka, J. (2009). Longitudinal mixing in a vibrating-sieve-plate column
two-phase flow. Canadian Journal of Chemical Engineering, 52 (6), 739-749. doi:10.1002/cjce.5450520607.
Pratt, H.R.C.,& Stevens, G.W. (1992) Extractor Hydrodynamic, Selection, and Design, In:
Science and Practice of Liquid-Liquid Extraction, Ed. Thornton, Oxford University Press, London, 492-589.
Prochazka, J., Landau, J., Souhrada, F., & Heyberger, A. (1971). Reciprocating-plate
extraction column. British Chemical Engineering, 16 (1), 42-44.
Rama Rao, N.V., Vijayan, S., & Baird, M.H.I. (1991). Hydrodynamics of a vibrating
perforated plate extraction column. Canadian Journal of Chemical Engineering, 69 (1), 212-221). https://doi.org/10.1002/cjce.5450690125.
Rathilal, S., Carsky, M., Heyberger, A., & Rouskova, M.. (2011). Correlations for the
prediction of NTU and mass transfer coefficient for a VPE. South African Journal of Chemical Engineering .16 (1), 30-49. http://hdl.handle.net/10321/2481.
Rathilal, S., Carsky, M., Heyberger, A., & Rouskova, M. (2013). Difference of hydrodynamics for a VPE with and without mass transfer and effect of agitation
speed on extent of mass transfer. South African Journal of Chemical Engineering, 18 (2), 29-39.
Robbins, L.A., Cusak, R.W. (1999). Liquid-Liquid Extraction Operations and Equipment. In: Perry, R.H., Green, D.W, Maloney,J.O. Eds. Perry`s Chemical Engineers
Handbook, 7th McGraw-Hill, Inc., New York, NY, 15-37.
Simons, A.J.F. (1983) In: Handbook of Solvent Extraction, Eds. Lo, T.C., Baird, M.H.I., Hanson, C.., John Wiley & Sons, New York, NY 343-353.
Sincuba, N.D., Rathilal, S. Carsky, M. (2015). Investigation of the effects of tray downcomer design on the efficiency of a vibrating plate extractor. South African
Journal of Chemical Engineering., 20 (3), 1-10. https://hdl.handle.net/10321/2371.
Sincuba, N.D., Rathilal, S., & Carsky, M. (2017). Effect of sieve tray hole diameter on the
` efficiency of a vibrating plate extractor. South African Journal of Chemical Engineering, 23, 38 (2017). https://doi.org/10.1016/j.sajce.2017.01.002
ISBN: 86-80995-47-9.
Sovilj, M.N. (2004).Difuzione operacije, Tehnološki fakultet, Novi Sad, Srbija (in Serbian), 172-193. ISBN: 86-80995-47-9.
Sovilj, M.N., Nikolovski, B.G., & Spasojević, M.Đ. (2019): Hydrodynamics in spray and
packed liquid-liquid extraction columns: A review. Macedonian Journal of Chemistry and Chemical Engineering, 37 (2), 267-282.
doi: 10.20450/mjcce.2019.1519.
Sovilj, M.N., & Spasojević, M.Đ. (2020): Hidrodinamika i prenos masse u pulsirajućim ekstrakcionim kolonama sa perforiranim podovima. Hemijska Industrija., 74
(1) 1-14 (in Serbian). (https://doi.org/10.2298/HEMIND191011003S.
Sovilj, M.N., & Spasojević, M.Đ. (2021): Hidrodinamika i prenos mase u ekstrakcionim kolonama tipa Kini. H.emijska industrija, 75 (2), 93-101 (in Serbian).
https://doi.org/10.2298/HEMIND201204014S
Sovova, H., (1986). Polydisperse model of the VPE extractor hydrodynamic. Collection of Czechoslovak Chemistry Communications. 51, 801-808 (1986).
https://doi.org/10.1135/cccc19860801.
Tojo, K., Miyanami, K..T., & Yano, T. (1975). Liquid-liquid extraction in a multistage vibrating disk column. Journal of Chemical Engineering of Japan, 8 (2) 122-
126.
Veljković, V.B., Banković Ilić, I., & Skala, D.U. (2024). Reciprocating plate column – fundamental research and application in Serbia from 1970 to 2020.Chemical
Industry 78 (3), 187-203. https://doi.org/10.2298/HEMIND230320028V











Baird, M.H.I., & Rama Rao, N.V. (1991). Axial mixing in the reciprocating plate column
with very small density gradients,. American Institute of Chemical Engineers Journal,
37 (7), 1019-1026 . https://doi.org/10.1002/aic.690370707.
Baird, M.H.I., Rama Rao, N.V., & Viyajan, S. (1992). Axial mixing and mass transfer in a
vibrating perforated plate extraction column. The Canadian Journal of Chemical Engineering, 70 (!), 69-76. https://doi.org/10.1002/cjce.5450700111Digital Object Identifier (DOI)
Bensalem, A.K. (1985). Hydrodynamics and mass transfer in a reciprocating extraction
column. Ph. D. Thesis, ETH, Zürich
Boyadzhiev, L., & Spassov, M.. (1982). On the size of drops in pulsed and vibrating plate
extraction columns. Chemical Engineering Sciences, 37 (2), 337-340.
https://doi.org/10.1016/0009-2509(82)80169-3.
Harikrishnau, T.L., Prabhavathy N.K.G., & Vaxma, Y.B.G (1994). Liquid-liquid
mass transfer in a reciprocating-plate column. The Chemical Engineering Journal
and the Biochemical Engineering Journal, 54 7-16,
https://doi.org/10.1016/923-0923-0467(93)02810-J
Heyberger, A., Sovová, H., & Procházka, J. (1983). Hold-up and flooding in a vibrating
plate extractor. Collection of Czechoslovak Chemistry Communications, 48, 989-
1000. https://doi.org/10.1135/cccc19830989.
Ioannou, J., Hafez, M., & Hartland, S. (1976). Mass transfer and power consumption in
reciprocating plate extractors. Industrial and Engineering Chemistry Process Design and Development, 15 (3), 469-471. https://doi.org/10.1021/i260059a022.
Jong-Dae Ju, Yong-Ho Yu, & Sang Done Kim. (1990). Axial dispersion and phase hold-up
characteristics in reciprocating plate extraction columns. Separation Science
and Technology, 25 (7-8), 921-940. DOI:10.1080/01496399008050374.
Lo, T.C., Prochazka, J. (1983). Reciprocating Plate Extraction Columns. In: Lo, T.C. Baird,
M.H.I., & Hanson, C. Ed s., Handbook of Solvent Extraction, New York,
John Wiley & Sons.,373-389. ISBN 0-471-04164-5
Mohanty, S., & Vogelpohl, A. (1997). A simplified hydrodynamic model for a pulsed sieve-
plate extraction column. Chemical Engineering Process. 36, 385-395.
https://doi.org/10.1016/S0255-2701(97)00010-X.
Naidoo, P. (2012). Investigation of the effects of the process and equipment parameters on

the separation efficiency of a vibrating plate extractor. University of Kwazulu-Natal,
MSc in Chemical Engineering, Durban, South Africa. http://hdl.handle.net/10413/9885.
Nemecek, M., & Prochazka, J. (2009). Longitudinal mixing in a vibrating-sieve-plate column
two-phase flow. Canadian Journal of Chemical Engineering, 52 (6), 739-749.
doi:10.1002/cjce.5450520607.
Pratt, H.R.C.,& Stevens, G.W. (1992) Extractor Hydrodynamic, Selection, and Design, In:
Science and Practice of Liquid-Liquid Extraction, Ed. Thornton, Oxford University
Press, London, 492-589.
Prochazka, J., Landau, J., Souhrada, F., & Heyberger, A. (1971). Reciprocating-plate
extraction column. British Chemical Engineering, 16 (1), 42-44.
Rama Rao, N.V., Vijayan, S., & Baird, M.H.I. (1991). Hydrodynamics of a vibrating
perforated plate extraction column. Canadian Journal of Chemical Engineering, 69 (1), 212-221). https://doi.org/10.1002/cjce.5450690125.
Rathilal, S., Carsky, M., Heyberger, A., & Rouskova, M.. (2011). Correlations for the
prediction of NTU and mass transfer coefficient for a VPE. South African Journal of Chemical Engineering .16 (1), 30-49. http://hdl.handle.net/10321/2481.
Rathilal, S., Carsky, M., Heyberger, A., & Rouskova, M. (2013). Difference of hydrodynamics
for a VPE with and without mass transfer and effect of agitation speed on extent of mass transfer. South African Journal of Chemical Engineering, 18 (2), 29-39.
Robbins, L.A., Cusak, R.W. (1999). Liquid-Liquid Extraction Operations and Equipment. In:
Perry, R.H., Green, D.W, Maloney,J.O. Eds. Perry`s Chemical Engineers Handbook,
7th McGraw-Hill, Inc., New York, NY, 15-37.
Simons, A.J.F. (1983) In: Handbook of Solvent Extraction, Eds. Lo, T.C., Baird, M.H.I.,
Hanson, C.., John Wiley & Sons, New York, NY 343-353.
Sincuba, N.D., Rathilal, S. Carsky, M. (2015). Investigation of the effects of tray
downcomer design on the efficiency of a vibrating plate extractor. South African Journal of Chemical Engineering., 20 (3), 1-10. https://hdl.handle.net/10321/2371.
Sincuba, N.D., Rathilal, S., & Carsky, M. (2017). Effect of sieve tray hole diameter on the
` efficiency of a vibrating plate extractor. South African Journal of Chemical Engineering, 23, 38 (2017). https://doi.org/10.1016/j.sajce.2017.01.002
ISBN: 86-80995-47-9.
Sovilj, M.N. (2004).Difuzione operacije, Tehnološki fakultet, Novi Sad, Srbija
(in Serbian), 172-193. ISBN: 86-80995-47-9.
Sovilj, M.N., Nikolovski, B.G., & Spasojević, M.Đ. (2019): Hydrodynamics in spray and
packed liquid-liquid extraction columns: A review. Macedonian Journal of
Chemistry and Chemical Engineering, 37 (2), 267-282.
doi: 10.20450/mjcce.2019.1519.
.Sovilj, M.N., & Spasojević, M.Đ. (2020): Hidrodinamika i prenos masse u pulsirajućim
ekstrakcionim kolonama sa perforiranim podovima. Hemijska Industrija., 74
(1) 1-14 (in Serbian). (https://doi.org/10.2298/HEMIND191011003S.
Sovilj, M.N., & Spasojević, M.Đ. (2021): Hidrodinamika i prenos mase u ekstrakcionim
kolonama tipa Kini. H.emijska industrija, 75 (2), 93-101 (in Serbian).
https://doi.org/10.2298/HEMIND201204014S
Sovova, H., (1986). Polydisperse model of the VPE extractor hydrodynamic. Collection
of Czechoslovak Chemistry Communications. 51, 801-808 (1986).
https://doi.org/10.1135/cccc19860801.
Tojo, K., Miyanami, K..T., & Yano, T. (1975). Liquid-liquid extraction in a multistage
vibrating disk column. Journal of Chemical Engineering of Japan, 8 (2) 122-126.
Veljković, V.B., Banković Ilić, I., & Skala, D.U. (2024). Reciprocating plate column –
fundamental research and application in Serbia from 1970 to 2020.Chemical Industry 78 (3), 187-203. https://doi.org/10.2298/HEMIND230320028V






Baird, M.H.I., & Rama Rao, N.V. (1991). Axial mixing in the reciprocating plate column
with very small density gradients,. American Institute of Chemical Engineers Journal,
37 (7), 1019-1026 . https://doi.org/10.1002/aic.690370707.
Baird, M.H.I., Rama Rao, N.V., & Viyajan, S. (1992). Axial mixing and mass transfer in a
vibrating perforated plate extraction column. The Canadian Journal of Chemical Engineering, 70 (!), 69-76. https://doi.org/10.1002/cjce.5450700111Digital Object Identifier (DOI)
Bensalem, A.K. (1985). Hydrodynamics and mass transfer in a reciprocating extraction
column. Ph. D. Thesis, ETH, Zürich
Boyadzhiev, L., & Spassov, M.. (1982). On the size of drops in pulsed and vibrating plate
extraction columns. Chemical Engineering Sciences, 37 (2), 337-340.
https://doi.org/10.1016/0009-2509(82)80169-3.
Harikrishnau, T.L., Prabhavathy N.K.G., & Vaxma, Y.B.G (1994). Liquid-liquid
mass transfer in a reciprocating-plate column. The Chemical Engineering Journal
and the Biochemical Engineering Journal, 54 7-16,
https://doi.org/10.1016/923-0923-0467(93)02810-J
Heyberger, A., Sovová, H., & Procházka, J. (1983). Hold-up and flooding in a vibrating
plate extractor. Collection of Czechoslovak Chemistry Communications, 48, 989-
1000. https://doi.org/10.1135/cccc19830989.
Ioannou, J., Hafez, M., & Hartland, S. (1976). Mass transfer and power consumption in
reciprocating plate extractors. Industrial and Engineering Chemistry Process Design and Development, 15 (3), 469-471. https://doi.org/10.1021/i260059a022.
Jong-Dae Ju, Yong-Ho Yu, & Sang Done Kim. (1990). Axial dispersion and phase hold-up
characteristics in reciprocating plate extraction columns. Separation Science
and Technology, 25 (7-8), 921-940. DOI:10.1080/01496399008050374.
Lo, T.C., Prochazka, J. (1983). Reciprocating Plate Extraction Columns. In: Lo, T.C. Baird,
M.H.I., & Hanson, C. Ed s., Handbook of Solvent Extraction, New York,
John Wiley & Sons.,373-389. ISBN 0-471-04164-5
Mohanty, S., & Vogelpohl, A. (1997). A simplified hydrodynamic model for a pulsed sieve-
plate extraction column. Chemical Engineering Process. 36, 385-395.
https://doi.org/10.1016/S0255-2701(97)00010-X.
Naidoo, P. (2012). Investigation of the effects of the process and equipment parameters on

the separation efficiency of a vibrating plate extractor. University of Kwazulu-Natal,
MSc in Chemical Engineering, Durban, South Africa. http://hdl.handle.net/10413/9885.
Nemecek, M., & Prochazka, J. (2009). Longitudinal mixing in a vibrating-sieve-plate column
two-phase flow. Canadian Journal of Chemical Engineering, 52 (6), 739-749.
doi:10.1002/cjce.5450520607.
Pratt, H.R.C.,& Stevens, G.W. (1992) Extractor Hydrodynamic, Selection, and Design, In:
Science and Practice of Liquid-Liquid Extraction, Ed. Thornton, Oxford University
Press, London, 492-589.
Prochazka, J., Landau, J., Souhrada, F., & Heyberger, A. (1971). Reciprocating-plate
extraction column. British Chemical Engineering, 16 (1), 42-44.
Rama Rao, N.V., Vijayan, S., & Baird, M.H.I. (1991). Hydrodynamics of a vibrating
perforated plate extraction column. Canadian Journal of Chemical Engineering, 69 (1), 212-221). https://doi.org/10.1002/cjce.5450690125.
Rathilal, S., Carsky, M., Heyberger, A., & Rouskova, M.. (2011). Correlations for the
prediction of NTU and mass transfer coefficient for a VPE. South African Journal of Chemical Engineering .16 (1), 30-49. http://hdl.handle.net/10321/2481.
Rathilal, S., Carsky, M., Heyberger, A., & Rouskova, M. (2013). Difference of hydrodynamics
for a VPE with and without mass transfer and effect of agitation speed on extent of mass transfer. South African Journal of Chemical Engineering, 18 (2), 29-39.
Robbins, L.A., Cusak, R.W. (1999). Liquid-Liquid Extraction Operations and Equipment. In:
Perry, R.H., Green, D.W, Maloney,J.O. Eds. Perry`s Chemical Engineers Handbook,
7th McGraw-Hill, Inc., New York, NY, 15-37.
Simons, A.J.F. (1983) In: Handbook of Solvent Extraction, Eds. Lo, T.C., Baird, M.H.I.,
Hanson, C.., John Wiley & Sons, New York, NY 343-353.
Sincuba, N.D., Rathilal, S. Carsky, M. (2015). Investigation of the effects of tray
downcomer design on the efficiency of a vibrating plate extractor. South African Journal of Chemical Engineering., 20 (3), 1-10. https://hdl.handle.net/10321/2371.
Sincuba, N.D., Rathilal, S., & Carsky, M. (2017). Effect of sieve tray hole diameter on the
` efficiency of a vibrating plate extractor. South African Journal of Chemical Engineering, 23, 38 (2017). https://doi.org/10.1016/j.sajce.2017.01.002
ISBN: 86-80995-47-9.
Sovilj, M.N. (2004).Difuzione operacije, Tehnološki fakultet, Novi Sad, Srbija
(in Serbian), 172-193. ISBN: 86-80995-47-9.
Sovilj, M.N., Nikolovski, B.G., & Spasojević, M.Đ. (2019): Hydrodynamics in spray and
packed liquid-liquid extraction columns: A review. Macedonian Journal of
Chemistry and Chemical Engineering, 37 (2), 267-282.
doi: 10.20450/mjcce.2019.1519.
.Sovilj, M.N., & Spasojević, M.Đ. (2020): Hidrodinamika i prenos masse u pulsirajućim
ekstrakcionim kolonama sa perforiranim podovima. Hemijska Industrija., 74
(1) 1-14 (in Serbian). (https://doi.org/10.2298/HEMIND191011003S.
Sovilj, M.N., & Spasojević, M.Đ. (2021): Hidrodinamika i prenos mase u ekstrakcionim
kolonama tipa Kini. H.emijska industrija, 75 (2), 93-101 (in Serbian).
https://doi.org/10.2298/HEMIND201204014S
Sovova, H., (1986). Polydisperse model of the VPE extractor hydrodynamic. Collection
of Czechoslovak Chemistry Communications. 51, 801-808 (1986).
https://doi.org/10.1135/cccc19860801.
Tojo, K., Miyanami, K..T., & Yano, T. (1975). Liquid-liquid extraction in a multistage
vibrating disk column. Journal of Chemical Engineering of Japan, 8 (2) 122-126.
Veljković, V.B., Banković Ilić, I., & Skala, D.U. (2024). Reciprocating plate column –
fundamental research and application in Serbia from 1970 to 2020.Chemical Industry 78 (3), 187-203. https://doi.org/10.2298/HEMIND230320028V
Objavljeno
2026/04/02
Broj časopisa
Vol. 30 Br. 1 (2026): Journal on Processing and Energy in Agriculture
Rubrika
Članci