Artículos
Publicado 2008-12-03
Palabras clave
- Iron oxides,
- FTIR reflectance mode,
- filter papers,
- oxy hidroxides,
- materials characterization
Cómo citar
Díaz-Rodríguez, J. G., & Namduri, H. (2008). Goethite recognition by ATR on filter papers. Revista UIS Ingenierías, 7(2). Recuperado a partir de https://revistas.uis.edu.co/index.php/revistauisingenierias/article/view/51
Resumen
Essta investigación se desarrolló para evaluar la posibilidad de explorar más a fondo la identificación de óxidos ferrosos en filtros de papel usados en trampas de vapor en plantas de potencia. Se pretende con este estudio evaluar la posibilidad de pasar a un monitoreo más frecuente del estado interno de tuberías mediante dichos filtros y no haciendo evaluación de componentes obtenidos solamente durante paradas programadas de mantenimiento cada 18 meses. De esta forma se podría tener una mejor lectura de la integridad de la línea secundaria en plantas de vapor.
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Referencias
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from Hematite to Maghemite during High Energy Ball Milling”. Materials Letters Vol. 47-3, 2001
Ruan H. D., Frost R. L., Kloprogge J. T., Duong L., “Infrared spectroscopy of Goethite dehydroxylation:
III. FT-IR microscopy of in situ study of the thermal transformation of Goethite to Hematite”. Spectrochimica
Acta, Vol. 58, No. 5, 15 March 2002, pp. 967-981
Lackovic K., Angove M. J., Wells J. D., and Johnson B. B. “Modeling the adsorption of Cd(II)
onto goethite in the presence of citric acid”, Journal of Colloid and Interface Science Vol. 269-1, 1 January
2004, pp 37-45.
Prasad, P. S. R. y otros, “In situ FTIR study on the dehydration of natural Goethite”, Journal of Asian Earth
Sciences, Vol. 27-4, September 2006, pp. 503-511
Wijnjaa H., and Schulthessb C.P., “Carbonate Adsorption Mechanism on Goethite Studied with ATR–
FTIR, DRIFT, and Proton Coadsorption Measurements”, Soil Science Society of America Journal, Vol. 65, 2001, pp.324-330
Rustad J. R., and Zarzycki P, “Calculation of sitespecifc carbon-isotope fractionation in pedogenic oxide
minerals”, PNSA, Vol. 105 No. 30, July 29 2008, pp 10297-10801.
Fellers B., Stevens J., and Nichols G.. TXU Electric, “Strategic Elements of Steam Cycle Chemistry Control Practices at TXU’s Comanche Peak Steam Nuclear Electric Station”, CPSENS June 2001.
Nasrazadani. S. “The application of infrared spectroscopy to a study of phosphoric and tannic acids interactions with Magnetite (Fe3O4), Goethite (α-FEOOH) and Lepidocrocite (γ-FeOOH)”. Corrosion
Science, Vol. 39, 1997
Nasrazadani. S., and Raman. A. “Application of IR Spectra to Study the Rust Systems”, Corrosion Science Vol. 34. 1993
Nasrazadani. S., and Raman. A. “Morphology of Oxide Phases in the Scales Formed on Steels”. Prac Met Vol. 28. 1991
Namduri H. “Characterization of iron oxide deposits formed at Comanche Peak Steam Nuclear Electric Station (CPSENS)”. Master of Science thesis. University of North Texas 2002
Diaz J. G.“Effect of Amines as Corrosion Inhibitors for a Low Carbon Steel in Power Industry”. Master of Science thesis. University of North Texas 2004
Miksic B, and Miller R. H. “Fundamental Principles of Corrosion Protection with Vapor Phase Inhibitors”.
5th European Symposium of Corrosion Inhibitors. Italy 1980
Brundle C., Evans C., and Wilson S. “Encyclopedia of Materials Characterization”. Butterworth-Heinemman,
Stoneham. MA. 1992
Mirabella F.M., “Principles, Theory, and Practice of Internal Reflection Spectroscopy”. F.M. Mirabella,
Jr., Marcel Dekker, Inc. NY. 1993
Ismail M.G., Yoshimura M., Somita S. “Synthesis of Magnetite Using Ilmenite under Hydrothermal
Conditions”. Materials Science Letters, Vol 4, 1985.
Randrianantoandro N., Mercierb A. M, Hervieuc M., y Grenèchea J. M., “Direct Phase Transformation
from Hematite to Maghemite during High Energy Ball Milling”. Materials Letters Vol. 47-3, 2001
Ruan H. D., Frost R. L., Kloprogge J. T., Duong L., “Infrared spectroscopy of Goethite dehydroxylation:
III. FT-IR microscopy of in situ study of the thermal transformation of Goethite to Hematite”. Spectrochimica
Acta, Vol. 58, No. 5, 15 March 2002, pp. 967-981
Lackovic K., Angove M. J., Wells J. D., and Johnson B. B. “Modeling the adsorption of Cd(II)
onto goethite in the presence of citric acid”, Journal of Colloid and Interface Science Vol. 269-1, 1 January
2004, pp 37-45.
Prasad, P. S. R. y otros, “In situ FTIR study on the dehydration of natural Goethite”, Journal of Asian Earth
Sciences, Vol. 27-4, September 2006, pp. 503-511
Wijnjaa H., and Schulthessb C.P., “Carbonate Adsorption Mechanism on Goethite Studied with ATR–
FTIR, DRIFT, and Proton Coadsorption Measurements”, Soil Science Society of America Journal, Vol. 65, 2001, pp.324-330
Rustad J. R., and Zarzycki P, “Calculation of sitespecifc carbon-isotope fractionation in pedogenic oxide
minerals”, PNSA, Vol. 105 No. 30, July 29 2008, pp 10297-10801.