ME 50900 - Intermediate Fluid Mechanics
Robust solver for the compressible Blasius equations for laminar, high-speed flow, boundary layers over a flat plate.
Numerical heat transfer code for external flows
Analyse data & 2D flux footprints from Scintec's BLS scintillometers.
A suite of tools for computing sensible heat fluxes from the BLS450 scintillometer and working with 2D flux footprints.
A compressible, flat-plate, laminar boundary layer solver in Julia! This routine computes the velocity and temperature profiles with variable viscosity and thermal conductivity. The numerical results are validated against wind-tunnel measurements.
Kara Aerodynamics Research Laboratory
Solve the Falkner–Skan boundary-layer equation with a modular shooting + RK4 approach. Includes first-order reformulation, a fixed-step integrator, secant root-finding, and ready-to-use plots for velocity profiles f′(η) and w(β).
MATLAB code that solves and compiles the steady flow around a rotating sphere with variable viscosity
A visualization project focused on plotting cosine waves, sine waves, and hodographs related to the Ekman Spiral—a concept in oceanography and meteorology explaining the effect of wind on water movement with depth.
Assigned Project for "Simulating Ocean, Atmosphere and Climate" course of Climate Physics at University Utrecht: An investigation of the dynamics governing the water mass properties in the Nordic Seas
Software and Data Associated with "Understanding Fast Adsorption in Single-Solute Breakthrough Curves"
MATLAB code that solves the Stewartson (1958) system for the equatorial flow around a rotating sphere.
MATLAB code that solves and compiles the steady flow around a rotating sphere
Repository of methods to assess boundary layer transition
Single column model for atmospheric boundary layer coupled to a multi-layer soil scheme with a vegetation layer
MATLAB code that solves the Boundary Layer equations for a rotating sphere
This project aims to replicate and extend the experiments on the dynamical adjustment problem presented by Shubert et al. (1995). We are working to recreate the experiments and conduct further experiments to explore the problem based on the dynamical model.
A simple Numerical solution to the Blasius Similarity Boundary Layer equation.
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