Course Contents In this course we address fluid dynamic phenomena of interest in internal flow situations for aerospace propulsion applications.
The goal of the course is to develop physical insight into the phenomena that characterize internal flow in fluid machinery. As
such we will discuss not just what happens, but why it happens and what are the consequences for propulsion systems. The
course covers topic, which are not dealt with in courses or texts about external fluid dynamics. The flows described in Internal
Flows are generally rotational, often three-dimensional, unsteady, and sometimes occurring in non-inertial (e.g., rotating)
coordinate systems.
The course can be viewed as the development of flow models and ideas to enable allow physical insight into the behavior of
three-dimensional and unsteady flows. One of the objectives of the course is to provide an increased ability to interpret
computational and experimental results and hence to effectively extract conclusions about the key features of complex internal
flows.
This course is inspired by 16.540 Internal Flow from the Department of Aeronautics and Astronautics at MIT. Much of the
material is based on the lectures of Profesor E. M. Greitzer, with permission.
Study Goals 1) Development of physical insight into the phenomena, which characterize internal flow in fluid machinery (not just what
happened, but why it happened)
2) Development of the critical thinking needed to define, in a rigorous manner, the levels of modeling needed for useful
descriptions of internal flow situations
3) Development of the ability to interpret numerical simulations and experimental results in terms of concepts and first principles
