Characterization of silica-water nanofluids dispersed with an ultrasound probe: A study of their physical properties and stability

Powder Technology

Volumn 224, Issue , 2012, Pages 138-146

  Mondragon, Rosa ^a   Julia, J Enrique ^b   Barba, Antonio ^a   Jarque, Juan Carlos ^a  

^a INSTITUTO DE TECNOLOGÍA CERÁMICA   (Spain)

^b UNIVERSITAT JAUME I   (Spain)

Author keywords

Dispersion; Nanoparticles; Properties; Stability; Suspensions

Indexed keywords

BASIC CONDITIONS; COLLOIDAL STATE; DISTILLED WATER; ELECTRICAL DOUBLE LAYERS; ELECTROSTATIC REPULSION; HIGH CONCENTRATION; HIGH SOLID CONTENT; ISO-ELECTRIC POINTS; KEY PARAMETERS; LIGHT BACKSCATTERING; LOW VISCOSITY; MASS LOAD; NANOFLUIDS; PH VALUE; PROPERTIES; SALT CONCENTRATION; SOLID CONTENTS; ULTRASONIC PROBE; ULTRASONIC TREATMENTS; ULTRASOUND PROBES;

AGGLOMERATION; CONVERGENCE OF NUMERICAL METHODS; DISPERSION (WAVES); DISPERSIONS; ELASTIC MODULI; ELECTRIC PROPERTIES; NANOCOMPOSITES; NANOPARTICLES; SILICA; STABILITY; SUSPENSIONS (FLUIDS); ZETA POTENTIAL;

NANOFLUIDICS;

NANOMATERIAL; NANOPARTICLE; SILICA NANOFLUID; SILICON DIOXIDE; SODIUM CHLORIDE; UNCLASSIFIED DRUG; WATER;

ARTICLE; BACKSCATTERING VARIATION RATE; COLLOID; CONCENTRATION (PARAMETERS); DEBYE LENGTH; ELECTROPHORETIC MOBILITY; ELECTROSTATIC REPULSION; ISOELECTRIC POINT; LIGHT BACKSCATTERING; MECHANICAL PROBE; NANOFLUIDICS; PARTICLE AGGLOMERATION; PARTICLE SIZE; PH; PHYSICAL PARAMETERS; PHYSICAL PHENOMENA; SHEAR RATE; SOLID CONTENT; STABILITY; STATIC ELECTRICITY; SURFACE CHARGE; TURBIDITY; ULTRASOUND; ULTRASOUND PROBE; VISCOELASTICITY; YOUNG MODULUS; ZETA POTENTIAL;

EID: 84860505367     PISSN: 00325910     EISSN: 1873328X     Source Type: Journal    
DOI: 10.1016/j.powtec.2012.02.043     Document Type: Article

References (31)

1. Choi U.S. Enhancing thermal conductivity of fluids with nanoparticles. ASME FED 1995, 231:99-103.
2. Bergna H.E., Roberts W.O. Colloidal Silica: Fundamentals and Applications 2006, CRC Taylor & Francis.
3. Wen D., Ding Y. Formulation of nanofluids for natural convective heat transfer applications. International Journal of Heat and Fluid Flow 2005, 26:855-864.
4. Li Y., Zhou J., Tung S., Schneider E., Xi S. A review on development of nanofluid preparation and characterization. Powder Technology 2009, 196:89-101.
5. Fisher M.L., Colic M., Rao M.P., Lange F.F. Effect of silica nanoparticles size on the stability of alumina/silica suspensions. Journal of the American Ceramic Society 2001, 84:713-718.
6. Chen S., Oye G., Sjöblom J. Rheological properties of aqueous silica particle suspensions. Journal of Dispersion Science and Technology 2005, 26:495-501.
7. Chen S., Oye G., Sjöblom J. Effect of pH and salt on rheological properties of aerosol suspensions. Journal of Dispersion Science and Technology 2007, 28:845-853.
8. 3 nanoparticles. International Journal of Heat and Mass Transfer 2008, 51:2651-2656.
9. Amiri A., Oye G., Sjöblom J. Influence of pH, high salinity and particle concentration on stability and rheological properties of aqueous suspensions of fumed silica. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2009, 349:43-54.
10. Paik U., Yul Kim J., Hackley V.A. Rheological and electrokinetic behaviour associated with concentrated nanosized silica hydrosols. Materials Chemistry and Physics 2005, 91:205-211.
11. Santacruz I., Anapoorani K., Binner J. Preparation of high solid content nanozirconia suspensions. Journal of the American Ceramic Society 2008, 91:398-405.
12. Fazio S., Guzman J., Colomer M.T., Salomoni A., Moreno R. Colloidal stability of nanosized titania aqueous suspensions. Journal of the European Ceramic Society 2008, 28:2171-2176.
13. Ding P., Pacek A.W. De-agglomeration of silica nanoparticles in the presence of surfactants. Journal of Dispersion Science and Technology 2008, 29:593-599.
14. Petzold G., Rojas-Reyna R., Mende M., Schwarz S. Application relevant characterization of aqueous silica nanodispersions. Journal of Dispersion Science and Technology 2009, 30:1216-1222.
15. 3 in water nanofluid. Journal of Applied Physics 2009, 106:064301.
16. Iler R.K. The Chemistry of Silica: Solubility, Polymerization, Colloid and Surface Properties, and Biochemistry 1979, John Wiley & Sons.
17. Shaw D.J. Introduction to Colloid and Surface Chemistry 1991, Butterworth-Heinemann, Oxford, UK.
18. Quemada D., Berli C. Energy of interaction in colloids and its implication in rheological modelling. Advances in Colloid and Interface Science 2002, 98:51-85.
19. Hunter R.J. Zeta Potential in Colloid Science. Principles and Applications 1988, Academic Press Limited.
20. Song S., Peng C. Thickness of salvation layers on nano-scale silica dispersed in water and ethanol. Journal of Dispersion Science and Technology 2005, 26:197-201.
21. Pacek A.W., Ding P., Utomo A.T. Effect of energy density, pH and temperature on de-aggregation in nano-particles/water suspensions in high shear mixer. Powder Technology 2007, 173:203-210.
22. Griffin G.P., Jurinak J.J. Estimation of activity coefficients from the electrical conductivity of natural aquatic systems and soil extracts. Soil Science 1973, 116:26-30.
23. Taguchi G. System of Experimental Design 1987, UNIPUB/Kraus International, New York.
24. Wadsworth H.M. Handbook of Statistical Methods for Engineers and Scientists 1990, McGraw-Hill.
25. Barnes H.A., Hutton J.F., Walters D.K. An Introduction to Rheology 1989, Elsevier.
26. Quemada D. Rheological modelling of complex fluids. I. The concept of effective volume fraction revised. European Physical Journal Applied Physics 1998, 1:119-127.
27. 2 nanoparticle suspensions under very high shear rates. Physical Review 2009, 80:051403.
28. Krieger I.M. Rheology of monodisperse lattices. Advances in Colloid and Interface Science 1972, 3:111-136.
29. Quemada D. Rheology of concentrated disperse systems and minimum energy dissipation principle. I. Viscosity-concentration relationship. Rheological Acta 1977, 16:82-94.
30. C.J. Rueb, Flow properties of a colloidal gel, University of Illinois, PhD Thesis, 1994.
31. 2 aqueous suspensions. Journal of Colloid and Interface Science 2006, 298:967-972.