Dr. Evans' research interests are in the design, analysis, and implementation of numerical methods for fluid and structural mechanics and wave propagation. Dr. Evans is particularly interested in high-order methods which preserve important structure (geometry, balance laws, entropy inequalities, maximum principles, topological constraints) and account for multiscale behavior (such as turbulence) in a mathematically and physically consistent manner. In addition, Dr. Evans is actively involved in the development of integrated engineering design, analysis, and optimization technologies.
computational fluid dynamics, fluid-structure interaction, turbulence modeling and simulation, computational structural dynamics, computational acoustics and electromagnetics, high performance computing, finite element methods, isogeometric analysis, computer-aided design, structure-preserving discretizations, stabilized and multiscale methods, reduced-order modeling, design optimization
ASEN 3111 - Aerodynamics
Develops the fundamental concepts of aerodynamics and provides a working knowledge for their application to the design of aircraft and launch vehicles operating at various speeds and altitudes, as well as the atmospheric forces on satellites. Offered fall only.
ASEN 5037 - Turbulent Flows
Studies turbulent closure methods and computational procedures used to solve practical turbulent flows. Emphasizes multi-equation models used with time-averaged equations to calculate free-turbulent shear-flows and turbulent boundary layers. Employs spectral methods in direct and large-eddy simulation of turbulence. Recommended prerequisite: ASEN 5051 or equivalent or instructor consent required. Formerly ASEN 6037.
ASEN 5051 - Fluid Mechanics
Highlights physical properties of gases and liquids; kinematics of flow fields; and equations describing viscous, heat-conducting Newtonian fluids. Emphasizes exact solutions and rational approximations for low and high speed dissipative flows, surface and internal waves, acoustics, stability, and potential flows.
ASEN 6519 - Special Topics
Fall 2018 / Spring 2020
Reflects upon specialized aspects of aerospace engineering sciences. Course content is indicated in the online Schedule Planner. May be repeated up to 9 total credit hours. Recommended prerequisite: varies.
MCEN 7221 - Turbulence
Spring 2018 / Spring 2020
Hydrodynamic stability theory, equations for turbulent flows, free shear flows and boundary layers, homogeneous and isotropic turbulence, overview of turbulent combustion, reaction kinetics, energy equation, Favre averaging, Pdfs, premixed and nonpremixed flame modeling, and recent developments.