Multi-component diffusion mass transfer in bi-functional nanocomposite matrices with the author’s model
Keywords:
Nano-Composites (NC), mass transfer, selectivity, concentration waves, multicomponent diffusion.
Abstract
There is presented the generalized theoretical study of the kinetics of the Multicomponent Mass
Transfer (MMT) on the basis of the numerical computerized modeling with the elaborated author’s new bifunctional
Model for the contemporary selective NanoComposite’s (NC): r-bead, ro-fiber, or L-membrane
matrices.
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References
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Exchange Technology for Today and Tomorrow,
ed:M. Cox, Society of Chemical Industry,
London, 2004, pp 53-58.
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Advances in IEx Theory&Practice, ed:M.Cox,
Society of Chemical Industry, London, 2008,
pp. 85-93.
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and Shock Waves, Springer, 1999,.464 p.
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Surf., 2011, 47 (6), 698-706. (Site Springer :
http://www.springerlink.com/openurl.asp?genre
=article&id=doi:10.1134/S2070205111060062).
2. Kalinitchev A, Mass Transfer Kinetics
Modeling in Bi-functional Ion Exchangers with
Chemical Reactions on Active Centers. in
IEX2012,ed: M. Cox, Society of Chemical Industry,
London, S. Fundam. p 1-18, (2012). ebook
(The Intern. IEx 2012 Confer.” Thesis: p.
123-124).
3. Kalinitchev A, Smart NanoComposites.
Nova Sci. Publ., Ed. (in Chief.:K.Levine), 2013,
3(2),pp.1-18.
(Site:http://www.novapublishers.com/catalog/pr
oductinfo.php?products_id=40111).
4. Kalinitchev A, Advances in Nanoparticles.
AnP.Sci.Res.Publ. : SCIRP. E-Journal., 2013,
2(2), pp. 1-18. (Site ANP: http://www.scirp.org/
journal/anp/).
5. Kalinitchev A, Prot. Met.&Phys. Chem.
Surf. (Springer Ed.), 2013, 49(6), 627-638. (Site
Springer:
http://www.springerlink.com/openurl.asp?genre
=article&id=doi:10.1134/S2070205113060051).
6. Kalinitchev A, Sorbtsionnye i
khromatograficheskie protsessy, 2013, Vol. 13,
No 6, pp. 413-428.
7. Kalinitchev A, NanoTechnol Rev (NTREV).
Special issue (N5) “NanoTechnology: from
Convergence to Divergence”, DeGruyter Ed.
3(5):467-498 (2014).
http://degruyter.com/new/ntrev2014.3issuefiles.
doi:10.1515/ntrev-2014-0007. Publ. on line
8.10.2014 (Ed. Ja S. Lee). NTREV(2014).
8. Kalinitchev A, Prot. Met.&Phys. Chem.
Surf. (Springer Edition), 2013, 49 (6), pp. 627-
638 Site Springer :http://www. springerlink.
com/ openurl. asp?genre =article& id =doi:
10.1134/S2070205113060051 );
9. Kalinitchev A, Universal Journal of Physics
and Application, 2013, 1(2), pp. 130-143. Doi:
10.13189/ujpa.2013.010213.
10. Kalinitchev A, Protection of Metals &
Physical Chemistry of Surfaces, 2015, 51(3), pp.
317-329. © Pleiades Publishing, Ltd. doi:
10.1134/S2070205115030119.
11. Kravchenko T, Polyansky L, Khorolskaya
S, Kalinitchev A, , in IEx2012, ed: M. Cox, Society
of Chemical Industry, London, 2012, pp.
1-15, (2012), e-book;(The Intern. IEx Confer.,
thesis: p. 113-114).
12. Kiprianova E, Kravchenko T, Konev D,
Kalinitchev A et al., J. Rus.Physical Chem.,
2010, 84(6), pp. 1104-1110.
DOI:10.1134/S003602441006 018X
13. Kravchenko T, Polyansky L, Kalinitchev
A., Konev D, Nano Composites Metal - Ion Exchangers.
M. “Nauka”(“Sci.”) Ed. (2009). 390 p
14. Haase R, Thermodynamics of Irreversible
Processes. Ch.2;4. M.:”Mir” Ed. (1967). 544 p.
15. Helfferich F, Ion Exchange. Mc.Graw-
Hill. NY. Ch.6. (1962). (Ionen Austauscher,
Verlag Chemie, GMBH, (1959), Deutsch).
16. Helfferich F, Ion Exchange Kinetics. Ch.5.
in Ion Exchange (A series of Adv.) ed. Ja.I. Marinsky).
St. Univ. NY. , 1 (1966).
17. Helfferich F, Ion exchange kinetics - evolution
of a theory. in: “Mass Transfer & Kinetics
of IEx” (ed: L.Liberti&F.Helfferich)
M.Sijthoff & Nordhoff . The Hague. 157-179
(1983), doi:10. 1007/978-94-009-6899-8_6 .
18. Petruzelli D, Helfferich F, Liberti L, Millar
J. et al., Reactive Polymers, 1987, 7, pp. 1-13.
19. Kalinitchev A., Kolotinskaya E., Semenovskaya
T., J.Chromatogr., 1982, 243, pp. 17-
24.doi:10.1016/S0021-9673(00)88159-5.
20. Helfferich F, Hwang Y-I, Am. I. Ch.E.
Symp. Ser., 1985, 81, pp. 17-27.
21. Hwang Y-I, Helfferich F, Reactive Polymers,
1987, 5, pp. 237-252.
22. Yoshida H, Kataoka T, J. Ind. Eng. Chem.
Res., 1987, 26(6), pp. 1179-1184.
23. Yoshida H, Kataoka T., J. Chem. Eng,
1988, 39, pp. 55-62.
24. Dolgonosov A., Khamisov R., Krachak A.,
Prudkovskiy A, React. Func. Polymers, 1995,
28, pp. 13-20.
25. Kalinitchev A, Investigation of intraparticle
IEx kinetics in selective systems, in (eds.:
Ja. Marinsky & Y.Marcus) IEx & Solv. Extr. 12,
M.Dekker, Ch.4:149-196 (1995).
26. Helfferich F., Klein G, Multicomponent
Chromatography. Theory of Interference, New
York: M. Dekker Inc., 1970,. 360 p.
27. Helfferich F, Coherence : Power and Challenge
of a new Concept. New direction in Adsorption
Technology. G.Keller ed., Butterworth.
Boston.1989, pp. 1-11.
28. Industrial & Engineering Chemistry Research.
J. (F. Helfferich Festschrift),
J.Am.Chem.Soc.34:2551-2922(1995).
doi:10.1021/ie00047a029.
29. Tondeur D., Bailly M, Chem. Eng.
Process, 1987, 22, pp. 91-105. doi:10.1016/
0255-2701(87)80035-1.
30. Tondeur D, Ind. & Eng. Chem. Res., 1995,
34, pp. 2782-2788. doi:10.1021/ie00047a029.
31. Hwang YL, Ind.&Eng.Chem.Res., 1995,
34, pp. 2849-2864.doi:10.1007/978-94-009-
85797:10.1021/ie00047 a039,
32. Percolation Process: Theory and Applications.
ed.: Rodrigues, AE, Tondeur, D, The Hague:
Sijthoff & Nordhoff, (1981).
doi:10.1007/978-94-009-8579-7.
33. Kalinitchev A, J. Rus. Chem. Reviews,
1996, 65, pp. 95-115.
doi:10.1070/RC1996v065n02A BEH000201.
34. Hoell W., Kalinichev A, J. Rus. Chem. Reviews,
2004, 73, pp. 351-370.
doi:10.1070/RC2004v073n04ABEH000768.
35. Kalinitchev A., Hoell W, IEX2004, Ion
Exchange Technology for Today and Tomorrow,
ed:M. Cox, Society of Chemical Industry,
London, 2004, pp 53-58.
36. Kalinitchev A., Hoell W, IEX2008, Recent
Advances in IEx Theory&Practice, ed:M.Cox,
Society of Chemical Industry, London, 2008,
pp. 85-93.
37. Courant R., Friedrichs K, Supersonic flow
and Shock Waves, Springer, 1999,.464 p.
38. Prigogine I., Herman R, Kinetic Theory of
Vehicular Traffic, NY.:Elsevier, 1971, 55 p.
39. Whitham G, Linear and Nonlinear waves,
Wiley. NY, 1974, 636 p.
40. Korn G., Korn T, Mathematical Handbook,
Ch.18,19.McGraw-Hill,NY-Sidney, 1968.
Published
2019-11-18
How to Cite
Kalinitchev, A. I. (2019). Multi-component diffusion mass transfer in bi-functional nanocomposite matrices with the author’s model. Sorbtsionnye I Khromatograficheskie Protsessy, 16(6). Retrieved from https://journals.vsu.ru/sorpchrom/article/view/1406
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