# 322.075 Gas dynamics and Aerodynamics This course is in all assigned curricula part of the STEOP.\$(function(){PrimeFaces.cw("Tooltip","widget_j_id_21",{id:"j_id_21",showEffect:"fade",hideEffect:"fade",target:"isAllSteop"});});This course is in at least 1 assigned curriculum part of the STEOP.\$(function(){PrimeFaces.cw("Tooltip","widget_j_id_23",{id:"j_id_23",showEffect:"fade",hideEffect:"fade",target:"isAnySteop"});}); 2023S 2022S 2021S 2020S 2019S

2023S, VU, 3.0h, 5.0EC

## Properties

• Semester hours: 3.0
• Credits: 5.0
• Type: VU Lecture and Exercise
• Format: Online

## Learning outcomes

After successful completion of the course, students are able to:

• Understand the fundamental notions of gas dynamics and aerodynamics, integrating specific knowledge with that of other related fields in engineering (for example thermodynamics and fluid mechanics);
• follow specific physico-mathematical reasoning that are required to understand and model gas/aerodynamics problems;
• understand and solve simple problems encountered in aerospace/industrial/chemical applications;
• develop learning skills necessary to undertake further study with a high degree of autonomy;

## Subject of course

Gas dynamics: Introductory concepts, fundamental definitions and equations, speed of sound, Mach number, thermodynamics; Steady isoentropic flow, choked flow, subsonic and supersonic nozzles; De-Laval nozzle, Hugoniot equations; Flow with friction, Fanno line; Flow with heat addition, Rayleigh line; Shock waves, conservation relations, normal and oblique shocks. Aerodynamics: external flows, aerodynamic forces and moments; skin friction, pressure drag and lift;  incompressible flow around an airfoil;  NACA airfoils; modern low-speed NASA airfoils; Finite wings; Linear theory for subsonic and supersonic compressible flow over an airfoil;  elements of hypersonic flow. All themes will be illustrated via examples and exercises.

## Teaching methods

The following methods will be used to support students in achieving the expected learning outcomes:

• Calculation of examples and case studies at the blackboard;
• Assignment of homeworks to be solved (within a certain deadline, typically 1 week) independently by the students; discussion of the corresponding solution strategies/results with the students

## Mode of examination

Written

Registration to the course is required (please register by Feb. 27, 2023).

Lectures will be offered in presence to the registered students.

Lectures will start March 8, 2023, and will take place on Wednesday (12:00-14:00).

John D. Anderson, Fundamentals of Aerodynamics. Sixth edition. New York: McGraw-Hill Science/Engineering/Math 2017.

Hans Wolfgang Liepmann, Anatol Roshko, Elements of Gasdynamics. Dover Books on Aeronautical Engineering Series, Courier corporation 2001.

## Course dates

DayTimeDateLocationDescription
Wed12:00 - 14:0008.03.2023 - 28.06.2023GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Gas dynamics and Aerodynamics - Single appointments
DayDateTimeLocationDescription
Wed08.03.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed15.03.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed22.03.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed29.03.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed19.04.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed26.04.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed03.05.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed10.05.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed17.05.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed24.05.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed31.05.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed07.06.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed14.06.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed21.06.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics
Wed28.06.202312:00 - 14:00GM 2 Radinger Hörsaal - TCH Lecture Gas-Aerodynamics

## Examination modalities

Students have to write a final exam to assess whether they have achived the expected knowledge and preparation.

## Exams

DayTimeDateRoomMode of examinationApplication timeApplication modeExam
Fri14:00 - 16:0023.06.2023 written30.05.2023 00:00 - 16.06.2023 00:00TISSGas-Aerodynamics-Exam
Fri10:30 - 12:3018.08.2023 Zoom meetingwritten06.08.2023 12:00 - 16.08.2023 12:00TISSGas-Aerodynamics-Exam

## Course registration

Begin End Deregistration end
15.01.2023 12:00 21.03.2023 18:00 03.03.2023 18:00

## Curricula

Study CodeObligationSemesterPrecon.Info
066 445 Mechanical Engineering Not specified
066 445 Mechanical Engineering Elective
Course requires the completion of the introductory and orientation phase
066 473 Chemical and Process Engineering for Sustainable Production Not specified
066 482 Mechanical Engineering - Management Not specified
066 482 Mechanical Engineering - Management Elective
Course requires the completion of the introductory and orientation phase

## Literature

No lecture notes are available.

English