Viscosity and density of aluminum oxide nanolubricant

International Journal of Refrigeration

Volumn 36, Issue 4, 2013, Pages 1333-1340

  Kedzierski, Mark A ^a  

^a NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY   (United States)

Author keywords

Colloidal suspension Density Lubricant Viscosity Water chiller

Indexed keywords

CORRELATED MODEL; HEAT TRANSFER AND FLOWS; LUBRICANT VISCOSITY; NANO-LUBRICANTS; NANO-PARTICLE DISPERSIONS; NANOPARTICLE DIAMETER; SPHERICAL NANOPARTICLES; TEMPERATURE RANGE;

ATMOSPHERIC PRESSURE; DENSITY MEASUREMENT (SPECIFIC GRAVITY); LIQUIDS; OXIDES; SURFACE ACTIVE AGENTS; SUSPENSIONS (FLUIDS); VISCOSITY OF LIQUIDS; WATER COOLING SYSTEMS;

NANOPARTICLES;

EID: 84877608518     PISSN: 01407007     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijrefrig.2013.02.017     Document Type: Article

References (18)

1. D.A. Belsley, E. Kuh, and R.E. Welsch Regression Diagnostics: Identifying Influential Data and Sources of Collinearity 1980 Wiley NY
2. S. Bi, L. Shi, and L. Zhang Application of nanoparticles in domestic refrigerators Appl. Therm. Eng. 28 2007 1834 1843
3. J.A. Eastman, S.U.S. Choi, S. Li, W. Yu, and L.J. Thompson Anomalously increased effective thermal conductivities of ethylene glycol-based nanofluids containing copper nanoparticles Appl. Phys. Lett. 78 2001 718 720
4. V.H. Grassian When size really matters: size-dependent properties and surface chemistry of metal and metal oxide nanoparticles in gas and liquid phase environments J. Phys. Chem. C 112 47 2008 18303 18313
5. K. Henderson, Y. Park, L. Liu, and A.M. Jacobi Flow-boiling heat transfer of R-134a-based nanofluids in a horizontal tube IJHMT 53 2010 944 951
6. J.A. Jamison, K.M. Krueger, C.T. Yavuz, J.T. Mayo, D. LeCrone, J.J. Redden, and V.L. Colvin Size-dependent sedimentation properties of nanocrystals ACS Nano 2 2 2008 311 319
7. M.A. Kedzierski The effect of lubricant concentration, miscibility and viscosity on R134a pool boiling Int. J. Refrigeration 24 4 2001 348 366
8. M.A. Kedzierski Effect of CuO nanoparticle concentration on R134a/lubricant pool boiling heat transfer ASME J. Heat Transfer Spec. Issue MNHT08 131 2008 043205
9. M.A. Kedzierski Effect of Al2O3 nanolubricant on R134a pool boiling heat transfer Int. J. Refrigeration 34 2 2011 498 508
10. M.A. Kedzierski Effect of diamond nanolubricant on R134a pool boiling heat transfer ASME J. Heat Transfer 134 2011 051001
11. M.A. Kedzierski R134a/AlO nanolubricant mixture pool boiling on a rectangular finned surface ASME J. Heat Transfer 134 2012 121501
12. M.A. Kedzierski, and M. Gong Effect of CuO nanolubricant on R134a pool boiling heat transfer Int. J. Refrigeration 25 2009 1110 1122
13. T.G. Mezger The Rheology Handbook: For Users of Rotational and Oscillatory Rheometers second ed. 2006 Vincentz Hannover
14. R.C. Reid, J.M. Prausnitz, and T.K. Sherwood The Properties of Gases and Liquids third ed. 1977 McGraw-Hill New York 460
15. R.L. Rowley, W.V. Wilding, and J.L. Oscarson DIPPR Project 801 Data Compilation of Pure Compound Properties March 2007 ed. 2007 AIChE Design Institute for Physical Properties New York http://DIPPR.BYU.edu
16. H. Sarkas Private Communications 2009 Nanophase Technologies Corporation Romeoville, IL
17. M.S. Showell Handbook of Detergents Part D: Formulation, Surfactant Science Series V. 128 2006 Taylor and Francis Boca Raton
18. E.J. Wasp, J.P. Kenny, and R.L. Gandhi Solid-liquid flow slurry pipeline transportation Ser. Bulk Mater. Handling 1 4 1977 56 58