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
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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
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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
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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
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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
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Effects of surface parameters on boiling heat transfer phenomena

Truong, Bao H. (Bao Hoai) (2011)

  • Advisors: Lin-Wen Hu; Thomas McKrell
  • Department of Nuclear Science and Engineering
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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
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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
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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
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Characterization of the robustness of superhydrophobic surfaces during condensation

Simpri, Emmanuel E (2016)

  • Advisor: Evelyn N. Wang
  • Department of Mechanical Engineering
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