A critical review on convective heat transfer correlations of nanofluidsSARKAR, Jahar.Renewable & sustainable energy review. 2011, Vol 15, Num 6, pp 3271-3277, issn 1364-0321, 7 p.Article

Analysis of heat transfer and flow characteristics over serrated fins with different flow directionsHAO PENG; XIANG LING.Energy conversion and management. 2011, Vol 52, Num 2, pp 826-835, issn 0196-8904, 10 p.Article

A review of forced convection heat transfer enhancement and hydrodynamic characteristics of a nanofluidHUSSEIN, Adnan M; SHARMA, K. V; BAKAR, R. A et al.Renewable & sustainable energy review. 2014, Vol 29, pp 734-743, issn 1364-0321, 10 p.Article

An experimental study of pressure drop and friction factor for laminar and transition opposing mixed convection in entrance region of rectangular ductDAOTONG CHONG; JIPING LIU; JUNJIE YAN et al.Energy conversion and management. 2011, Vol 52, Num 5, pp 2272-2281, issn 0196-8904, 10 p.Article

Performance of artificially roughened solar air heaters―A reviewVISHAVJEET SINGH HANS; SAINI, R. P; SAINI, J. S et al.Renewable & sustainable energy review. 2009, Vol 13, Num 8, pp 1854-1869, issn 1364-0321, 16 p.Article

Convective heat transfer and friction factor correlations of nanofluid in a tube and with inserts: A reviewSUNDAR, L. Syam; SINGH, Manoj K.Renewable & sustainable energy review. 2013, Vol 20, pp 23-35, issn 1364-0321, 13 p.Article

Explicit Friction Factor Accuracy and Computational Efficiency for Turbulent Flow in PipesKEITH WINNING, Herbert; COOLE, Tim.Flow, turbulence and combustion. 2013, Vol 90, Num 1, pp 1-27, issn 1386-6184, 27 p.Article

Experimental investigations of liquid flow in rib-patterned microchannels with different surface wettabilityYAMADA, Toru; HONG, Chungpyo; GREGORY, Otto J et al.Microfluidics and nanofluidics (Print). 2011, Vol 11, Num 1, pp 45-55, issn 1613-4982, 11 p.Article

Friction characteristics of compressible gas flows in microtubesMORINI, Gian Luca; LORENZINI, Marco; SALVIGNI, Sandro et al.Experimental thermal and fluid science. 2006, Vol 30, Num 8, pp 733-744, issn 0894-1777, 12 p.Conference Paper

Prediction of pressure drop for turbulent fluid flow in 90° bendsCRAWFORD, N. M; CUNNINGHAM, G; SPEDDING, P. L et al.Proceedings of the Institution of Mechanical Engineers. Part E, Journal of process mechanical engineering. 2003, Vol 217, Num 3, pp 153-155, issn 0954-4089, 3 p.Article

Analysis of two-disc collisionsDOMENECH, A; DOMENECH, M. T.European journal of physics. 1993, Vol 14, Num 4, pp 177-183, issn 0143-0807Article

Very low friction for diamond sliding on diamond in waterTZENG, Y.Applied physics letters. 1993, Vol 63, Num 26, pp 3586-3588, issn 0003-6951Article

Determination of the effect of humidity and relative speed on the coefficient of friction using response surface methodologyABDO, Jamil; AL-RAWAHI, Nabeel.Surface and interface analysis. 2008, Vol 40, Num 3-4, pp 889-892, issn 0142-2421, 4 p.Conference Paper

Investigations on thermo-hydraulic performance due to flow-attaclc-angle in V-down rib with gap in a rectangular duct of solar air heaterSINGH, Sukhmeet; CHANDER, Subhash; SAINI, J. S et al.Applied energy. 2012, Vol 97, pp 907-912, issn 0306-2619, 6 p.Conference Paper

Numerical Investigation of Combined Effects of Rarefaction and Compressibility for Gas Flow in Microchannels and MicrotubesXIAOHONG YAN; QIUWANG WANG.Journal of fluids engineering. 2009, Vol 131, Num 10, issn 0098-2202, 101201.1-101201.7Article

Thermo-fluidic characteristics of open cell metal foam as an anodes for DCFC, part I: Head loss coefficient of metal foam : International Workshop of Molten Carbonates & Related TopicsTAE HYEON KIM; WONJUN LEE; JI HWAN JEONG et al.International journal of hydrogen energy. 2014, Vol 39, Num 23, pp 12369-12376, issn 0360-3199, 8 p.Article

Study on effect of dimples on friction of parallel surfaces under different sliding conditionsFANMING MENG; RUI ZHOU; DAVIS, Tiffany et al.Applied surface science. 2010, Vol 256, Num 9, pp 2863-2875, issn 0169-4332, 13 p.Article

Linear frictional forces cause orbits to neither circularize nor precessHAMILTON, B; CRESCIMANNO, M.Journal of physics. A, Mathematical and theoretical (Print). 2008, Vol 41, Num 23, issn 1751-8113, 235205.1-235205.13Article

Friction at the atomic scaleKRIM, J.Lubrication engineering. 1997, Vol 53, Num 1, pp 8-13, issn 0024-7154Article

Atomic scale friction and wear of micaHU, J; XIAO, X.-D; OGLETREE, D. F et al.Surface science. 1995, Vol 327, Num 3, pp 358-370, issn 0039-6028Article

Influence of atomic oxygen on space tribology in a low earth orbitOHMAE, N.Wear. 1993, Vol 168, Num 1-2, pp 99-103, issn 0043-1648Article

Measurement of friction coefficient under reciprocating sliding conditionsOTHMAN, M. O; ELKHOLY, A. H.European journal of mechanics. A. Solids. 1994, Vol 13, Num 2, pp 215-225, issn 0997-7538Article

Investigation on pressure drop and heat transfer performances of plate-fin iron air preheater unit with experimental and Genetic Algorithm methodsZENG, M; DU, L. X; LIAO, D et al.Applied energy. 2012, Vol 92, pp 725-732, issn 0306-2619, 8 p.Article

k-ε Macro-scale modeling of turbulence based on a two scale analysis in porous mediaPINSON, Francois; GREGOIRE, Olivier; SIMONIN, Olivier et al.International journal of heat and fluid flow. 2006, Vol 27, Num 5, pp 955-966, issn 0142-727X, 12 p.Conference Paper

Friction factor, permeability and inertial coefficient of oscillating flow through porous media of packed ballsTURGAY PAMUK, Mehmet; ÖZDEMIR, Mustafa.Experimental thermal and fluid science. 2012, Vol 38, pp 134-139, issn 0894-1777, 6 p.Article