Jeremy Redding Research

Gallery

Active cavity compression in a hypersonic flow [1]

\[ E = mc^2 \]

Visualization: Conjugate Heat Transfer [2]

Conjugate Heat Transfer
\[ q = -k \nabla T \]

Visualization: Double Cone Shock Interaction [3]

Double Cone Shock Interaction
\[ M = \frac{U}{a} \]

Visualization: Instantaneous Density Gradient [4]

Density Gradient
\[ \nabla \rho = \bigl( \partial_x \rho, \partial_y \rho, \partial_z \rho \bigr) \]

References

  1. Redding, J., Khare, P. & Bravo, L. (2025). Active cavity compression in a hypersonic flow. Presented at the National Security Conference 2025, Cincinnati, OH.
  2. Redding, J. (2023). Conjugate heat transfer over a cylinder - extended to include chemistry.
  3. Gamertsfelder, J., Redding, J. (2023). Experimental and thermochemical non-equilibrium computational study of double cone shock interaction. doi:10.1115/HT2023-106391
  4. Redding, J. (2021). Instantaneous density gradients in shock-droplet interaction.