| S. Sonawane, K. Patankar, A. Fogla, B. Puranik, U. Bhandarkar, S. Kumar, An experimental investigation of thermo-physical properties and heat transfer performance of Al2O3-Aviation Turbine Fuel nanofluids, Applied Thermal Engineering, 2011, 31, 2841-2849. CrossRef | |
| S. M. S. Murshed, K. Leong, C. Yang, Enhanced thermal conductivity of TiO2-water based nanofluids, International Journal of Thermal Sciences, 2005, 44 (4), 367-373. CrossRef | |
| W. Duangthongsuk, S. Wongwises, Measurement of temperature-dependent thermal conductivity and viscosity of TiO2-water nanofluids, Experimental Thermal and Fluid Science, 2009, 33 (4), 706-714. CrossRef | |
| D. Yoo, K. Hong, H. Yang, Study of thermal conductivity of nanofluids for the application of heat transfer fluids, Thermochimica Acta, 2007, 455 (1-2), 66-69. CrossRef | |
| Y. He, Y. Jin, Y. Chen, Y. Ding, D. Cang, H. Lu, Heat transfer and flow behavior of aqueous suspensions of TiO2 nanoparticles (nanofluids) flowing upward through a vertical pipe, International Journal of Heat and Mass Transfer, 2007, 50 (11-12), 2272-2281. CrossRef | |
| W. Duangthongsuk, S. Wongwises, An experimental study on the heat transfer performance and pressure drop of TiO2-water nanofluids flowing under a turbulent flow regime, International Journal of Heat and Mass Transfer, 2010, 53 (7-8), 334-344. CrossRef | |
| B. Farajollahi, S. Gh. Etemad, M. Hojjat, Heat transfer of nanofluids in a shell and tube heat exchanger, International Journal of Heat and Mass Transfer, 2010, 53 (1-3), 12-17. CrossRef | |
| B. Pak, Y. Cho, Hydrodynamic and heat transfer study of dispersed fluids with submicron metallic oxide particles, Experimental Heat Transfer, 1998, 11, 151-170. CrossRef | |
| W. Huge, W. Coleman, Glenn Steele Jr., Experimentation and uncertainty analysis for engineers, First Edition, A Wiley-Inter-science publication, New York, 1989. | |
| R. Prasher, P. Bhattacharya, P. Phelan, Brownian-motion-based convective-conductive model for the effective thermal conductivity of nanofluids, Trans. ASME, 2006, 128, 588-595. CrossRef | |
| S. Das, N. Putra, P. Theisen, W. Roetzel, Temperature dependence of thermal conductivity enhancement in nanofluids, Journal of Heat Transfer, 2003, 125 (4), 567-574. CrossRef | |
| P. Atkins, J. de. Paula, Physical Chemistry, eighth edition, New Delhi: Oxford University Press, 2006. |
Assessment of Aviation Turbine Fuel-TiO2 Nanofluid for Heat Transfer Augmentation in Rocket Engines
Sandipkumar SonawaneRelated information
1 Indian Institute of Technology, Bombay, Mumbai Maharashtra, India
, Upendra BhandarkarRelated information2 Indian Space Research Organization, Valiamala, Kerala, India
, Bhalchandra PuranikRelated information2 Indian Space Research Organization, Valiamala, Kerala, India
, S. KumarRelated information2 Indian Space Research Organization, Valiamala, Kerala, India