Theses most similar to Critical heat flux enhancement via surface modification using colloidal dispersions of nanoparticles (Nanofluids) (Truong, Bao H. (Bao Hoai); 2008) read it
Determination of pool boiling Critical Heat Flux enhancement in nanofluids
Truong, Bao H. (Bao Hoai) (2007)
- Advisors: Jacopo Buongiorno; Lin-Wen Hu
- Department of Nuclear Science and Engineering
Study of chemistry and irradiation effects on nanofluids to be used in light water reactor accident cooling
Lucas, Timothy R (2008)
- Advisors: Jacopo Buongiorno; Lin-Wen Hu
- Department of Nuclear Science and Engineering
Nanoscale modification of key surface parameters to augment pool boiling heat transfer and critical heat flux in water and dielectric fluids
Forrest, Eric Christopher (2009)
- Advisors: Jacopo Buongiorno; Lin-Wen Hu
- Department of Nuclear Science and Engineering
Effect of combined nanoparticle and polymeric dispersions on critical heat flux, nucleate boiling heat transfer coefficient, and coating adhesion
Edwards, Bronwyn K (2009)
- Advisors: Jacopo Buongiorno; Lin-wen Hu
- Department of Nuclear Science and Engineering
Experimental investigation of effects of surface roughness, wettability and boiling-time on steady state and transient CHF for nanofluids
Sharma, Vivek Inder (2012)
- Advisors: Jacopo Buongiomo; Lin-wen Hu
- Department of Nuclear Science and Engineering
- Advisors: Lin-Wen Hu; Thomas McKrell
- Department of Nuclear Science and Engineering
Separate effects of surface roughness, wettability and porosity on boiling heat transfer and critical heat flux and optimization of boiling surfaces
O'Hanley, Harrison Fagan (2012)
- Advisors: Jacopo Buongiorno; Thomas McKrell
- Department of Mechanical Engineering; Department of Nuclear Science and Engineering
Systematic investigation of the effects of hydrophilic porosity on boiling heat transfer and critical heat flux
Tetreault-Friend, Melanie (2014)
- Advisors: Jacopo Buongiorno; Thomas McKrell
- Department of Nuclear Science and Engineering
Passive and active approaches to sustained turbulent hydrodynamic drag reduction using superhydrophobic surfaces
Saranadhi, Dhananjai (Dhananjai V.) (2015)
- Advisor: Gareth H. McKinley
- Department of Mechanical Engineering
Characterization of the robustness of superhydrophobic surfaces during condensation
Simpri, Emmanuel E (2016)
- Advisor: Evelyn N. Wang
- Department of Mechanical Engineering