Educational guide
IDENTIFYING DATA							2017_18
Subject	AEROSPACE TECHNOLOGY					Code	00710012
Study programme	GRADO EN INGENIERÍA AEROESPACIAL
Descriptors	Credit.	Type	Year	Period
	6	Compulsory	Second	First
Language	Castellano Ingles
Prerequisites
Department	ING.MECANICA,INFORMAT.AEROESP.
Coordinador	GONZALO DE GRADO , JESÚS				E-mail	jgong@unileon.es msilr@unileon.es
Lecturers	GONZALO DE GRADO , JESÚS SILVA RODRIGUEZ , MANUEL ALEJANDRO
Web	http://
General description
Tribunales de Revisión	Tribunal titular Cargo Departamento Profesor Presidente ING.MECANICA,INFORMAT.AEROESP. BARREIRO GARCIA , JOAQUIN Secretario ING.MECANICA,INFORMAT.AEROESP. MARTINEZ PELLITERO , SUSANA Vocal ESCAPA GARCIA , LUIS ALBERTO Tribunal suplente Cargo Departamento Profesor Presidente ING.MECANICA,INFORMAT.AEROESP. LABARGA ORDOÑEZ , JULIO Secretario ING.MECANICA,INFORMAT.AEROESP. FERNANDEZ ABIA , ANA ISABEL Vocal ING.MECANICA,INFORMAT.AEROESP. CASTEJON LIMAS , MANUEL

Competencias

Code
A8699
A8719
A8752
A8827
A8851
A8896
A8942
A8956
A8960
A8977
B958
B959
B960
B961
B962
B964
C2
C3
C4
C5

Learning aims

	Competences
Consistent knowledge, applied to engineering, on major aerospace concepts	A8699 A8719 A8752 A8827 A8896 A8942 A8956 A8960 A8977	B958 B962 B964	C2 C3 C4
Consistent knowledgo, applied to engineering, on the major elements of the different kinds of airplanes	A8719 A8827 A8851 A8942 A8956 A8960 A8977	B959 B960 B961 B962 B964	C2 C3 C4 C5

Contents

Topic	Sub-topic
History	I. Aeronautics and Space history
Atmosphere	II. Standard atmosphere, real atmosphere, meteorology basics
Flight principles	III. Fubdamentals of Fluid Mechanics
Flight principles	IV: Airplane aerodynamics: airfoils, wings and high-lift devices
Flight principles	V: Flight mechanics principles
Aircrafts and subsystems	VI: Structural elements and aerospace materials
Aircrafts and subsystems	VII: Hydraulic, neumatic, anti-fire and fuel systems
Aircrafts and subsystems	VIII: Electric system and on-board instrumentation
Aircrafts and subsystems	IX: Ground equipment
Propulsion systems	X: Piston engines
Propulsion systems	XI: Jet engines and rockets
Airports and Navigation	XII: Airports
Airports and Navigation	XIII: Air navigation aid systems
Space	XIV: Solar systems, Kepler laws and space environment

Planning

Methodologies  ::  Tests
	Class hours	Hours outside the classroom	Total hours
PBL (Problem Based Learning)	6	9	15
Laboratory practicals	20	30	50
Personal tuition	1	1.5	2.5
Lecture	29	43.5	72.5
Mixed tests	3	3	6
	4	0	4
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

Methodologies

Methodologies   ::  

	Description
PBL (Problem Based Learning)
Laboratory practicals
Personal tuition
Lecture

Personalized attention

Personal tuition

Description

Assessment

	Description	Qualification
Mixed tests		85%
		15%
Other comments and second call

Sources of information

Access to Recommended Bibliography in the Catalog ULE

Basic	S. Franchini y O. López, Introducción a la ingeniería aeroespacial, Garceta, 2010
Complementary	J.Fay, Helicópteros, Paraninfo, 1983 T. Elices, Introducción a la dinámica espacial, INTA Madrid, 1991 M.Ledesma & G. Baleriola, Meteorología aplicada a la aviación, Paraninfo, 1983 M. Muñoz, Motores de combustión interna alternativos, ETSI Industriales Madrid, 1989 M. Cuesta, Motores de reacción, Paraninfo, 1980 EUIT Aeronáutica, Problemas de Tecnología Aeroespacial I, II y III, EUIT Aeronáutica, 1994 Cuttler, Sistemas de Navegación, Paraninfo, 1980 R.Aran & J.R.Aragonés, Sistemas de navegación aérea, Paraninfo, 1992 G.Alarcón, Técnicas aeroportuarias, EUIT Aeronáutica Madrid, C.E. Dober, Teoría de Vuelo y Aerodinámica, Paraninfo, 1985 Rolls Royce, The Jet Engine, Rolls Royce Derby, 1986

Recommendations

Subjects that it is recommended to have taken before

ENGLISH / 00705010