Page 104
P. 104
· Co NTR ol d E C A l I d A d Y mET odolo GÍA A NA l ÍTICA ·
Nonionic Surfactants for Supercritical Carbon 27. Allington, R.W., Walters, H.L., Jameson, D.G.,
aplicación obligatoria, la EFS es una
Dioxide, Science 274: 2049–2052. and Tehrani, Y., U.S. Patent 5,614,089 (1997).
técnica valiosa para la identificación 10. deCastro, M.D.L., Valcarcel, M., and Tena, 28. Jameson, D.G., U.S. Patent 5,584,989 (1996);
confirmatoria de los pesticidas fáciles de M.T. (1994) Analytical Supercritical Fluid Clay, D.L., Allington, R.W., Liescheski, P.B.,
manejar con GC. Extraction, p. 101, Springer-Verlag, Berlin. Winter, R.R., and Jameson, D.G., U.S. Patent
11. Hildebrand, J.H., and Scott, R.L. (1950) The 5,911,881 (1999).
Solubility of Nonelectrolytes, pp. 119–133, 29. Hawthorne, S.B., Miller, D.J., and Langen-
Reinhold Publishing Corp., New York. field, J.J. (1990) Quantitative Analysis Using
· Conclusiones 12. Giddings, J.C., Myers, M.N., and King, J.W. Directly Coupled SFE/Capillary GC (SFE-GC)
(1969) Dense Gas Chromatography at Pressu- with a Conventional Split/Splitless Injection
res to 2000 Atmospheres, J. Chromatogr. Sci. 7: Port, J. Chromatogr. Sci. 28: 2–8.
En esta revisión, analizamos la teoría
276–283. 30. Kirschner, C.H., and Taylor, L.T. (1993) Quan-
fundamental que sustenta la EFS y la 13. Castellan, G.W. (1971) Physical Chemistry, titative Analysis by Online Supercritical Fluid
tecnología actual para la instrumenta- 2nd edn., p. 43, Addison-Wesley Publishing Extraction/Fourier Transform Infrared Spec-
ción. El usuario final puede optimizar Co., Reading, MA. troscopy, Anal. Chem. 65: 78–83.
14. Giddings, J.C., Myers, M.N., and McLaren, 31. Liescheski, P.B. (1996) Supercritical Fluid
los procedimientos de la EFS utilizando Keller, (1969) Dense Gas Chromatography at Extraction Coupled to Infrared Spectroscopy
el conocimiento de la densidad del CO , Pressures to 2000 Atmospheres, J. Chromatogr. for Iodine Number Analysis of Edible Oils, J.
2
el parámetro de solubilidad de Hilde- Sci. 7: 71. Agric. Food Chem. 44: 823–828.
15. King, J.W., and Friedrich, J.P. (1990) Quanti- 32. Liescheski, P.B. (1996) Supercritical Fluid
brand, y el método Fedors durante las
tative Correlations Between Solute Molecular Extraction Coupled Directly to Infrared Spec-
investigaciones relacionadas con la EFS. Structure and Solubility in Supercritical Fluids, troscopy for the Analysis of Lipids in Food,
Para los procedimientos de extracción J. Chromatogr. 517: 449–458. Semin. Food Anal. 1: 85–100.
de rutina que requieren la determinación 16. Barton, A.F.M. (1991) CRC Handbook of 33. Yamaguchi, K., Murakami, M., Nakano, H.,
Solubility Parameters and Other Cohesion Konosu, S., Kokura, T., Yamamoto, H., Kosa-
gravimétrica directa de la grasa o el acei-
Parameters, 2nd edn., pp. 65, 141, 159–162, ka, M., and Hata, K. (1986) Supercritical Car-
te de las matrices alimentarias como las CRC Press, Boca Raton, FL. bon Dioxide Extraction of Oils from Antarctic
oleaginosas, las carnes o la leche mater- 17. Fedors, R.F. (1974) A Method for Estimating Krill, J. Agric. Food Chem. 34: 904–907.
nizada, se verificaron y validaron los Both the Solubility Parameters and Molar Volu- 34. Rossi, M., Arnoldi, C., Salvioni, G., and Schi-
mes of Liquids, Polym. Eng. Sci. 14: 147–154. raldi, A. (1989) Characterization of Cocoa
métodos aprobados que utilizan la EFS.
18. King, J.W. (1990) Quantitative Correlations Extracts Obtained with Supercritical Carbon
Between Solute Molecular Structure and Solu- Dioxide, Ital. J. Food Sci. 3: 41–50.
bility in Supercritical Fluids, J. Chromatogr. 35. Laghi, L. (2000) Applicazione Della Risonan-
· Referencias 517: 355–364. za Magnetica Nucleare e Della Chemometria
19. Castellan, G.W. (1971) Physical Chemistry, all Analisi di Lecitine Commercrali, B.S. The-
2nd edn., p. 45, Addison-Wesley Publishing sis in Food Science and Technology, Scienze
1. King, J.W. (1989) Fundamentals and Applica- Co., Reading, MA. e Tecnologie Alimentari, Facolta di Agrariat,
tions of Supercritical Fluid Extraction in Chro- 20. Van Wylen, G.J., Sonntag, R.E. (1973) Fun- University of Bologna.
matographic Science, J. Chromatogr. Sci. 27: damentals of Classical Thermodynamics, 2nd 36. Dunford, N.T., and Temelli, G. (1995) Extrac-
355–364. edn., John Wiley & Sons, Inc., New York. tion of Phospholipids from Canola with Super-
2. Hawthorne, S.B. (1990) Analytical-Scale 21. Pitzer, K.S., Lippmann, D.Z., Curl, R.F. Jr., critical Carbon Dioxide and Ethanol, J. Am. Oil
Supercritical Fluid Extraction, Anal. Chem. 62, Huggins, C.M., and Petersen, D.E. (1955) The Chem. Soc. 72: 1009–1015.
633A–642A. Volumetric and Thermodynamic Properties 37. Teberikler, L., Koseoglu, S., and Akgerman,
3. Beckman, E.J. (2002) Using CO 2 to Produce of Fluids. II. Compressibility Factor, Vapor A. (2001) Deoiling of Crude Lecithin Using
Chemical Products Sustainably, Environ. Sci. Pressure and Entropy of Vaporization, J. Am. Supercritical Carbon Dioxide in the Presence of
Technol.: 347A–353A. Chem. Soc. 77: 3433–3440. Co-Solvents, J. Food Sci. 66: 851–853.
4. Giddings, J.C., Myers, M.N., McLaren, L., and 22. Pitzer, K.S., The Volumetric and Thermody- 38. Boselli, E., and Caboni, M.F. (2000) Supercri-
Keller, R.A. (1968) High Pressure Gas Chro- namic Properties of Fluids. I. Theoretical Basis tical Carbon Dioxide Extraction of Phospho-
matography of Nonvolatile Species, Science and Virial Coefficients, J. Am. Chem. Soc. 77: lipids from Dried Egg Yolk Without Organic
162: 67–73. 3427–3433. Modifier, J. Supercrit. Fluids 19: 45–50.
5. deCastro, M.D.L., Valcarcel, M., and Tena, 23. Reid, R.C., Prausnitz, J.M., and Poling, B.E. 39. Femenia, A., Garcia-Marin, M., Simal, S.,
M.T. (1994) Analytical Supercritical Fluid (1987) The Properties of Gases and Liquids, 4th Rossello, C., and Blasco, M. (2001) Effects
Extraction, p. 32, Springer-Verlag, Berlin. edn., pp. 89–91, McGraw-Hill, Inc., New York. of Supercritical Carbon Dioxide (SC-CO 2 )
6. Sievers, R.E., and Hansen, B. (1991) Supercri- 24. Raynie, D.E., and Delaney, T.E. (1994) Effect Oil Extraction on the Cell Wall Composition
tical Fluid Nitrous Oxide Explosion (letter), of Entrained Helium on the Kinetics of Super- of Almond Fruits, J. Agric. Food Chem. 49:
Chem. Eng. News 69: 29. critical Fluid Extraction with Carbon Dioxide, 5828–5834.
7. Taylor, L.T. (1996) Supercritical Fluid Extrac- J. Chromatogr. Sci. 32: 298. 40. Marrone, C., Poletto, M., Reverchon, E., and
tion, p. 18, John Wiley & Sons, New York. 25. Allington, R.W., Clay, D.L., Jameson, D.G., Stassi, A. (1998) Almond Oil Extraction by
8. Cooper, A.I., Londono, J.D., Wignall, G., Winter, R.R., U.S. Patent 5,094,753 (1992); Supercritical CO 2 Experiments and Modeling,
McClain, J.B., Samulski, E.T., Lin, J.S., Dobry- Allington, R.W., Jameson, D.G., Winter, R.R., Chem. Eng. Sci. 21: 3711–3718.
nin, A., Rubinstein, M., Burke, A.L.C., Frechet, Clay, D.L., U.S. Patent 41. del Valle, J.M., and Uquiche, E.L. (2002) Par-
J.M.J., and DeSimone, J.M. (1997) Extraction 5,296,145 (1994); Clay, D.L., Allington, R.W., ticle Size Effects on Supercritical CO 2 Extrac-
of a Hydrophilic Compound from Water into Liescheski, P.B., Winter, R.R., and Jameson, tion of Oil-Containing Seeds, J. Am. Oil Chem.
Liquid CO 2 Using Dendritic Surfactants, Natu- D.G., U.S. Patent 5,690,828 (1997); Clay, D.L., Soc. 79: 1261–1266.
re 389: 368–371. Allington, R.W., Liescheski, P.B., Winter, R.R., 42. Official Methods and Recommended Practices
9. McClain, J.B., Betts, D.E., Canelas, D.A., and Jameson, D.G., U.S. Patent 6,241,890 B1 of the American Oil Chemists’ Society, 5th ed.
Samulski, E.T., DeSimone, J.M., Londono, (2001). (1996) Am3-96, Oil in Oilseeds: Supercritical
J.D., Cochran, H.D., Wignall, G.D., Chillura- 26. Jameson, D.G., Macomber, R.J., and Alling- Fluid Extraction Method, AOCS Press, Cham-
Martino, D., and Triolo, R. (1996) Design of ton, R.W., U.S. Patent 5,653,885 (1997). paign, IL.
94 A&G 114 • Tomo XXIX • Vol. 1 • 78-95 • (2019)
