Titel
Title
| Flugbetriebstechnik |
Modulcode
Module Code
| FBTE |
Modulverantwortliche
Responsible Members of Staff
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Kompetenzziele des Moduls
Module Competence Goals
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| To provide a solid basic knowledge about aircraft engineering, which builds up the theoretical proficiency needed to understand the various aircraft systems (Engines, hydraulic system, electrical system, instruments and avionics). A further objective of this module is to provide the basic knowledge on flight performance and flight planning. |
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Lehrinhalte
Content
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| - This module consists of content of the JAR-subjects “Aircraft General Knowledge”, “Principle of Flight” and “Flight Performance and Planning”. To achieve a closer combination of theoretical and practical training, lessons may also be given during the two practical semesters
- Aircraft General Knowledge (JAR 020)
- Piston engines: Principles, Cooling-, Fuel-, Ignition-System, Propeller
- Turbine engines: Principles, Air inlet, compressor, combustion chamber and exhaust nozzle, Engine thrust and efficiency, Noise, Lubrication system, Fuel system, Starting and ignition system
- Light aeroplanes: Classification, Flight controls, landing gear, heating system, etc., Aircraft structure
- Transport category aeroplanes: Hydraulic system: Landing gear, Pneumatic system, Pressurization and air conditioning, Fuel system, Windows and doors, Fire protection
- Instruments: Air data instruments, Gyro instruments, Compass systems, Engine and system monitoring
- Electrical systems: DC-Systems, AC-Systems
- Automatic flight control systems: Basics, Auto flight modes, Yaw damper, Auto throttle, Auto trim, Auto brake
- Principles of Flight (JAR 080)
- Basics of subsonic flow: Airfoil basic aerodynamics, Airplane stability, Stall and slow flight, High lift devices
- Basics of supersonic flow: Supersonic flight, Transsonic aerodynamics, Flight at high speed and high altitude, Operating limitations
- Flight Performance and Planning (JAR 030)
- Mass and Balance for small aeroplanes: Mass definitions, General centre of gravity computations
- Performance for light aeroplanes: Aviation regulations and aeroplane categories, Single engine, Multi engines
- Mass and Balance for transport category aeroplanes: Definitions and limits, Calculations
- Performance for transport category aeroplanes: Performance in different flight phases, Airworthiness requirements
- VFR, IFR, LR flight planning: Route planning, Time and fuel planning, In-flight monitoring, Special cases of flight planning
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Lehrende
Lecturers
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Lehr- und Lernmethoden
Teaching Format
| Seminaristischer Unterricht (SU), Modulbezogene Übung (MÜ) |
Lernform
Study Format
| Präsenzstudium, angeleitetes Selbststudium |
Prüfungsform
Examination
| Klausur nach Prüfungsordnung |
Prüfungsdauer
Test Duration
| 120 Minuten |
Voraussetzungen für die Teilnahme
Required Experience
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Siehe aktuelle
Prüfungsordnung
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Verwendbarkeit
Applicability
| Grundlage für etliche Folgemodule |
Studentische Arbeitsbelastung
Hours
| 60 + 120 |
Präsenzstudium
Contact Hours per week
| 60 |
Selbststudium
Self Study Hours
| 120 |
ECTS-Leistungspunkte
ECTS-Credits
| 6 |
Häufigkeit des Angebotes
Frequency
| im 4., 5. und 8. Semester |
Sprache
Language
| English |
Bemerkungen
Comments
| A minimum of 2 written examinations in the 4th and 5th semester and a minimum of 1 written examination in the 8th semester. |
Literatur
Literature
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Die aktuellen Literaturlisten werden zu Beginn des Semesters verteilt.
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Angebot
Courses
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| Semester | Studiengang | SWS | Form | Gültigkeitsbeginn | Gültigkeitsende | Wahlpflicht |
| 4 | ILST_VF | 6 | Flugschule | 2004 | 2020 | Pflichtmodul |
| 5 | ILST_VF | 6 | Flugschule | 2004 | 2020 | Pflichtmodul |
| 8 | ILST_VF | 6 | Flugschule | 2004 | 2020 | Pflichtmodul |
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