1. GENERAL INFORMATION
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FACULTY |
APPLIED TECHNOLOGIES |
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DEPARTMENT |
AIRCRAFT TECHNOLOGY ENGINEERING |
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LEVEL OF STUDIES |
UNDERGRADUATE |
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COURSE CODE |
AE1140T |
Semester of studies |
1st |
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COURSE TITLE |
INTRODUCTION TO AIRCRAFT TECHNOLOGY |
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INDIPENDENT TEACHING ACTIVITIES |
TEACHING HOURS PER WEEK |
CREDIT UNITS |
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Lectures and Practice |
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5 |
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COURSE TYPE
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Specialty course
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PRE-REQUIRED COURCES |
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TEACHING AND EXAMINATION LANGUAGE: |
GREEK |
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THE COURSE IS OFFERED TO ERASMUS STUDENTS |
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COURSE WEBPAGE (URL) |
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2. LEARNING OBJECTIVES
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Learning objectives |
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The teaching material aims at introducing students to the module, consequently this course comprises a knowledge base upon which more specialized knowledge will be built in the following levels.
After the successful completion of the course, students should be able to: · Identify the aircraft systems and describe their function. · Have knowledge of the basic principles of flight, aircraft operation and control. · identify the fundamental characteristics of aerodynamics and aircraft propulsion. · Distinguish the structural elements of the aircraft. · Collaborate with their colleagues in order to create and present an assignment relevant to individual topics of aircraft technology.
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General Skills |
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· Search, analysis and combination of data and information, with the use of the necessary technologies. · Autonomous work · Team work • |
3. COURSE CONTENT
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Unit 1: Introduction to Aircraft Technology Flight and aircraft history - Evolution of the aircraft structure – Flying machine classification Unit 2: Physics of the Atmosphere Atmosphere - International Standard Atmosphere – Atmospheiric magnitude changes with altitude – relationship between geometric and geodetic altitude - altitude measurement instruments Unit 3: Basic principles of fluid mechanics and air properties Fluid definition – fluid properties – gas state equations – enthalpy – entropy - fluid compressibility – hydrostatic principle – Archimedis principle – uncompressed flow – compressed flow – Laminar flow – turbulant flow – Boundary layer – basic fluid flow equations Unit 4: Basic elements of aerodynamics Reference systems – aircraft aerodynamic forces and moments – Lift and Drag – Center of pressure and aerodynamic center – basic aircraft maneuvers – Airfoil characterisitcs and classification – Mach Number – Subsonic flight – Supersonic flight – Highpersonic Unit 5: Flight Mechanics Flight stages – Take off – Ascend – Level flight – Descend – Landing – aircraft performance – range - autonomy – aircraft stabiltiy and control – Maneuvers – basic principles of propeller operation Unit 6: Aircraft propulsion Fundamental principles of thermodynamics – propulsion systems classification – propulsion system performance parameters - Gas turbine structure and operation – Gas turbine categories – Description of reciprocating engines operation Unit 7: Aircraft structure Structural parts used for the construction of aircraft: Wing, fuselage, empennage, vertical stabilizer, high lift devices, flight control devices, landing gear system – Aircraft construction materials- Loads on the aircraft structural parts – flight loads due to accelerations, aerodynamic loads, various loads- Basci analysis of structural part operation. Unit 8: Aircraft navigation instruments Flight instruments, Radionavigation instruments, Motor instruments and auxiliary instruments Unit 9: Aircraft systems Flight control systems – Electric, Hydraulic, Pneumatic Systems – Fuel systems, airconditioning, fire protection systems, passenger welfare systems – Ice and rain control systems Unit 10: Aerospace technology Aerospace flight applications, satellite orbits, ground stations, spaceships |
4. TEACHING and LEARNING METHODS – EVALUATION
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TEACHING METHODS |
In The Classroom |
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USE OF INFORMATION AND COMMUNICATION TECHNOLOGIES
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• Specialty Software program • Use of Internet • Learning Process Support through e-class. • Use of computer data projector |
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TEACHING ORGANIZATION
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STUDENT EVALUATION
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Ι.Final writen examination (70%) including: - multiple choice questions - Questions requiring extensive descriptions - Questions requiring short answers -Problem solving activities -Comparative assessment of theory elements
ΙΙ. Presentation of group assignment (30%) |
5. SUGGESTED BIBLIOGRAPHY
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-Suggested Bibliography : · Χ. Γεωργαντοπούλου, Γ. Γεωργαντόπουλος, Β. Παπαβασιλόπουλος, Εφαρμοσμένη Μηχανική πτήσης Αεροσκάφους, Εκδ. Τσιότρας, 2015 · Γ. Καραγκιόζογλου, Συστήματα Αεροσκαφών, Εκδ. Ζαμπάρας,2009 · Γ. Καραγκιόζογλου, Αρχές σχεδίασης Αεροσκαφών, Εκδ. Ζαμπάρας,2009 · Κ. Καρκάνιας, Γ. Γούλιος, Τεχνολογία Αεροσκαφών, Εκδ. ΑΛΦΑ, Τόμος Α, 2003 · Κ. Καρκάνιας, Γ. Γούλιος, Τεχνολογία Αεροσκαφών, Εκδ. ΑΛΦΑ, Τόμος Β, 2001 · Ι. Κούλλιας, Γ. Καρακιόζογλου, Στοιχεία Υπολογισμού Κατασκευής και Συντήρησης Αεροσκαφών, Εκδ. Ζαμπάρα, 2006 |