Home Technology Fluid Dynamics and Convective Heat Transfer in Impinging Jets Through Implementation of a High Resolution Liquid Crystal Technique. Part II: Navier-Stokes Computation of Impulsively Starting Heat Transfer Experiments
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Fluid Dynamics and Convective Heat Transfer in Impinging Jets Through Implementation of a High Resolution Liquid Crystal Technique. Part II: Navier-Stokes Computation of Impulsively Starting Heat Transfer Experiments

  • K. Kim, and C. Camci,
Published/Copyright: March 1, 1995
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International Journal of Turbo and Jet Engines
From the journal International Journal of Turbo and Jet Engines Volume 12 Issue 1

Published Online: 1995-03

©2011 by Walter de Gruyter GmbH & Co.

Articles in the same Issue

  1. CONTENTS
  2. Fluid Dynamics and Convective Heat Transfer in Impinging Jets Through Implementation of a High Resolution Liquid Crystal Technique. Part I: Flow and Heat Transfer Experiments
  3. Fluid Dynamics and Convective Heat Transfer in Impinging Jets Through Implementation of a High Resolution Liquid Crystal Technique. Part II: Navier-Stokes Computation of Impulsively Starting Heat Transfer Experiments
  4. A New Method for Predicting Performance of Axial-Flow Compressor
  5. On the Feasibility of Gas-Turbine Pressure-Gain Combustors
  6. Engine Life Maturation Process
  7. Direct Numerical Simulation of a Combusting Droplet with Convection
  8. Gas Turbine Disk Lifting Philosophies: A Review
https://doi.org/10.1515/TJJ.1995.12.1.13

Articles in the same Issue

  1. CONTENTS
  2. Fluid Dynamics and Convective Heat Transfer in Impinging Jets Through Implementation of a High Resolution Liquid Crystal Technique. Part I: Flow and Heat Transfer Experiments
  3. Fluid Dynamics and Convective Heat Transfer in Impinging Jets Through Implementation of a High Resolution Liquid Crystal Technique. Part II: Navier-Stokes Computation of Impulsively Starting Heat Transfer Experiments
  4. A New Method for Predicting Performance of Axial-Flow Compressor
  5. On the Feasibility of Gas-Turbine Pressure-Gain Combustors
  6. Engine Life Maturation Process
  7. Direct Numerical Simulation of a Combusting Droplet with Convection
  8. Gas Turbine Disk Lifting Philosophies: A Review
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