Verfügbarkeit: Advances in aerospace science and technology /

Advances in aerospace science and technology /:

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Bibliographische Detailangaben
Weitere Verfasser:	Rajendran, Parvathy (HerausgeberIn), Abdullah, M. Z. (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York : Nova Science Publishers, [2017]
Schriftenreihe:	Mechanical engineering theory and applications.
Schlagworte:	Aerospace engineering. Aérospatiale (Ingénierie) aeronautical engineering. aerospace engineering. TECHNOLOGY & ENGINEERING > Engineering (General) Aerospace engineering
Online-Zugang:	Volltext
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781536112306 1536112305

Internformat

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505	0		\|a Preface; Aeroelasticity: An Overview; Abstract; 1. Introduction; 1.1. Static Aeroelasticity; 1.2. Dynamic Aeroelasticity; 1.3. History; 2. Aerodynamic Models; 2.1. Reduced Frequency; 2.2. Steady Aerodynamic Models; 2.3. Quasi-Steady Aerodynamic Model; 2.4. Unsteady Aerodynamic Model; 2.4.1. Wagner's Effect; 2.4.2. Theodorsen's Aerodynamic Model; 3. Bending Torsion Flutter; 3.1. Binary Flutter Model; 4. Wind Tunnel Test; 5. Flight Flutter Test; 6. Flutter Suppression; 6.1. Active Flutter Suppression; 7. Common Practices and State-of-the-Art Materials; Conclusion; Acknowledgement.
505	8		\|a 4. Thermal Response of Composites5. Composites in Fire under Tensile Loading; 6. Composites in Fire under Compressive Loading; Conclusion; References; The Implementation of Biofuel in Aircraft Engines; Abstract; 1. Introduction; 2. Need for Biofuels; 3. Challenges; 4. Feedstock and the Production Process of Jet Fuel; 4.1. Processes to Produce Bio-Kerosene; 4.1.1. Alcohol-to-Jet (ATJ) Fuel; 4.1.2. Oil-to-Jet (OTJ) Fuel; 4.1.3. Gas-to-Jet (GTJ) Fuel; 4.1.4. Sugar-to-Jet Fuel; 5. Effect of Fuel Properties on Emission Generation; 6. Compatibility of Biofuel with the Aircraft Engine.
505	8		\|a ConclusionAcknowledgments; References; Aircraft Mission Profile Analysis and Trajectory Optimization; Abstract; 1. Introduction; 2. Classification of UAS Platforms; 2.1. Micro (or Miniature) Air Vehicles (MAVs) or Nano Air Vehicles (NAVs); 2.2. UAS with Vertical Takeoff and Landing (VTOL); 2.3. Low-Altitude, Short-Endurance (LASE) and Low-Altitude, Long-Endurance (LALE) UAS; 2.4. Medium-Altitude, Long-Endurance (MALE) UAS; 2.5. High-Altitude, Long-Endurance (HALE) UAS; 3. Desired Flight Maneuvers; 3.1. Efficient Cruise; 3.2. Minimum Sink Soaring; 3.3. Direction Reversal.
505	8		\|a 3.4. Minimum Radius Turn3.5. Steepest Descent; 3.6. Maximum Speed Dash; 4. Trajectory Optimization; 5. Optimization Yielding Desired Flight Maneuvers; 6. Applications of Trajectory Planning and Optimization; 6.1. Minimizing Environmental Effects; 6.2. Aerobatic Air Race; 6.3. Collision Avoidance and Hazardous Terrains; 6.4. Air Traffic Management; Conclusion; References; Controller Design for a Hybrid UAV; Abstract; 1. Introduction; 2. Coordinate Frames; 3. Hardware Configurations; 4. Mathematical Modeling; 5. Brushless Motor Model; 6. System Linearization; 7. System Input.
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contents	Preface; Aeroelasticity: An Overview; Abstract; 1. Introduction; 1.1. Static Aeroelasticity; 1.2. Dynamic Aeroelasticity; 1.3. History; 2. Aerodynamic Models; 2.1. Reduced Frequency; 2.2. Steady Aerodynamic Models; 2.3. Quasi-Steady Aerodynamic Model; 2.4. Unsteady Aerodynamic Model; 2.4.1. Wagner's Effect; 2.4.2. Theodorsen's Aerodynamic Model; 3. Bending Torsion Flutter; 3.1. Binary Flutter Model; 4. Wind Tunnel Test; 5. Flight Flutter Test; 6. Flutter Suppression; 6.1. Active Flutter Suppression; 7. Common Practices and State-of-the-Art Materials; Conclusion; Acknowledgement. 4. Thermal Response of Composites5. Composites in Fire under Tensile Loading; 6. Composites in Fire under Compressive Loading; Conclusion; References; The Implementation of Biofuel in Aircraft Engines; Abstract; 1. Introduction; 2. Need for Biofuels; 3. Challenges; 4. Feedstock and the Production Process of Jet Fuel; 4.1. Processes to Produce Bio-Kerosene; 4.1.1. Alcohol-to-Jet (ATJ) Fuel; 4.1.2. Oil-to-Jet (OTJ) Fuel; 4.1.3. Gas-to-Jet (GTJ) Fuel; 4.1.4. Sugar-to-Jet Fuel; 5. Effect of Fuel Properties on Emission Generation; 6. Compatibility of Biofuel with the Aircraft Engine. ConclusionAcknowledgments; References; Aircraft Mission Profile Analysis and Trajectory Optimization; Abstract; 1. Introduction; 2. Classification of UAS Platforms; 2.1. Micro (or Miniature) Air Vehicles (MAVs) or Nano Air Vehicles (NAVs); 2.2. UAS with Vertical Takeoff and Landing (VTOL); 2.3. Low-Altitude, Short-Endurance (LASE) and Low-Altitude, Long-Endurance (LALE) UAS; 2.4. Medium-Altitude, Long-Endurance (MALE) UAS; 2.5. High-Altitude, Long-Endurance (HALE) UAS; 3. Desired Flight Maneuvers; 3.1. Efficient Cruise; 3.2. Minimum Sink Soaring; 3.3. Direction Reversal. 3.4. Minimum Radius Turn3.5. Steepest Descent; 3.6. Maximum Speed Dash; 4. Trajectory Optimization; 5. Optimization Yielding Desired Flight Maneuvers; 6. Applications of Trajectory Planning and Optimization; 6.1. Minimizing Environmental Effects; 6.2. Aerobatic Air Race; 6.3. Collision Avoidance and Hazardous Terrains; 6.4. Air Traffic Management; Conclusion; References; Controller Design for a Hybrid UAV; Abstract; 1. Introduction; 2. Coordinate Frames; 3. Hardware Configurations; 4. Mathematical Modeling; 5. Brushless Motor Model; 6. System Linearization; 7. System Input.
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series2	Mechanical engineering theory and applications
spelling	Advances in aerospace science and technology / Parvathy Rajendran and M.Z. Abdullah, editors. New York : Nova Science Publishers, [2017] 1 online resource text txt rdacontent computer n rdamedia online resource nc rdacarrier Mechanical engineering theory and applications Includes bibliographical references and index. Print version record and CIP data provided by publisher. Preface; Aeroelasticity: An Overview; Abstract; 1. Introduction; 1.1. Static Aeroelasticity; 1.2. Dynamic Aeroelasticity; 1.3. History; 2. Aerodynamic Models; 2.1. Reduced Frequency; 2.2. Steady Aerodynamic Models; 2.3. Quasi-Steady Aerodynamic Model; 2.4. Unsteady Aerodynamic Model; 2.4.1. Wagner's Effect; 2.4.2. Theodorsen's Aerodynamic Model; 3. Bending Torsion Flutter; 3.1. Binary Flutter Model; 4. Wind Tunnel Test; 5. Flight Flutter Test; 6. Flutter Suppression; 6.1. Active Flutter Suppression; 7. Common Practices and State-of-the-Art Materials; Conclusion; Acknowledgement. 4. Thermal Response of Composites5. Composites in Fire under Tensile Loading; 6. Composites in Fire under Compressive Loading; Conclusion; References; The Implementation of Biofuel in Aircraft Engines; Abstract; 1. Introduction; 2. Need for Biofuels; 3. Challenges; 4. Feedstock and the Production Process of Jet Fuel; 4.1. Processes to Produce Bio-Kerosene; 4.1.1. Alcohol-to-Jet (ATJ) Fuel; 4.1.2. Oil-to-Jet (OTJ) Fuel; 4.1.3. Gas-to-Jet (GTJ) Fuel; 4.1.4. Sugar-to-Jet Fuel; 5. Effect of Fuel Properties on Emission Generation; 6. Compatibility of Biofuel with the Aircraft Engine. ConclusionAcknowledgments; References; Aircraft Mission Profile Analysis and Trajectory Optimization; Abstract; 1. Introduction; 2. Classification of UAS Platforms; 2.1. Micro (or Miniature) Air Vehicles (MAVs) or Nano Air Vehicles (NAVs); 2.2. UAS with Vertical Takeoff and Landing (VTOL); 2.3. Low-Altitude, Short-Endurance (LASE) and Low-Altitude, Long-Endurance (LALE) UAS; 2.4. Medium-Altitude, Long-Endurance (MALE) UAS; 2.5. High-Altitude, Long-Endurance (HALE) UAS; 3. Desired Flight Maneuvers; 3.1. Efficient Cruise; 3.2. Minimum Sink Soaring; 3.3. Direction Reversal. 3.4. Minimum Radius Turn3.5. Steepest Descent; 3.6. Maximum Speed Dash; 4. Trajectory Optimization; 5. Optimization Yielding Desired Flight Maneuvers; 6. Applications of Trajectory Planning and Optimization; 6.1. Minimizing Environmental Effects; 6.2. Aerobatic Air Race; 6.3. Collision Avoidance and Hazardous Terrains; 6.4. Air Traffic Management; Conclusion; References; Controller Design for a Hybrid UAV; Abstract; 1. Introduction; 2. Coordinate Frames; 3. Hardware Configurations; 4. Mathematical Modeling; 5. Brushless Motor Model; 6. System Linearization; 7. System Input. Aerospace engineering. http://id.loc.gov/authorities/subjects/sh95007821 Aérospatiale (Ingénierie) aeronautical engineering. aat aerospace engineering. aat TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Aerospace engineering fast Rajendran, Parvathy, editor. Abdullah, M. Z., editor. has work: Advances in aerospace science and technology (Text) https://id.oclc.org/worldcat/entity/E39PCYqDXXXGBpmmdwDWhFd6Dq https://id.oclc.org/worldcat/ontology/hasWork Print version: Advances in aerospace science and technology. New York : Nova Science Publishers, [2017] 9781536110999 (DLC) 2017011884 Mechanical engineering theory and applications. http://id.loc.gov/authorities/names/no2011076238 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1512183 Volltext
spellingShingle	Advances in aerospace science and technology / Mechanical engineering theory and applications. Preface; Aeroelasticity: An Overview; Abstract; 1. Introduction; 1.1. Static Aeroelasticity; 1.2. Dynamic Aeroelasticity; 1.3. History; 2. Aerodynamic Models; 2.1. Reduced Frequency; 2.2. Steady Aerodynamic Models; 2.3. Quasi-Steady Aerodynamic Model; 2.4. Unsteady Aerodynamic Model; 2.4.1. Wagner's Effect; 2.4.2. Theodorsen's Aerodynamic Model; 3. Bending Torsion Flutter; 3.1. Binary Flutter Model; 4. Wind Tunnel Test; 5. Flight Flutter Test; 6. Flutter Suppression; 6.1. Active Flutter Suppression; 7. Common Practices and State-of-the-Art Materials; Conclusion; Acknowledgement. 4. Thermal Response of Composites5. Composites in Fire under Tensile Loading; 6. Composites in Fire under Compressive Loading; Conclusion; References; The Implementation of Biofuel in Aircraft Engines; Abstract; 1. Introduction; 2. Need for Biofuels; 3. Challenges; 4. Feedstock and the Production Process of Jet Fuel; 4.1. Processes to Produce Bio-Kerosene; 4.1.1. Alcohol-to-Jet (ATJ) Fuel; 4.1.2. Oil-to-Jet (OTJ) Fuel; 4.1.3. Gas-to-Jet (GTJ) Fuel; 4.1.4. Sugar-to-Jet Fuel; 5. Effect of Fuel Properties on Emission Generation; 6. Compatibility of Biofuel with the Aircraft Engine. ConclusionAcknowledgments; References; Aircraft Mission Profile Analysis and Trajectory Optimization; Abstract; 1. Introduction; 2. Classification of UAS Platforms; 2.1. Micro (or Miniature) Air Vehicles (MAVs) or Nano Air Vehicles (NAVs); 2.2. UAS with Vertical Takeoff and Landing (VTOL); 2.3. Low-Altitude, Short-Endurance (LASE) and Low-Altitude, Long-Endurance (LALE) UAS; 2.4. Medium-Altitude, Long-Endurance (MALE) UAS; 2.5. High-Altitude, Long-Endurance (HALE) UAS; 3. Desired Flight Maneuvers; 3.1. Efficient Cruise; 3.2. Minimum Sink Soaring; 3.3. Direction Reversal. 3.4. Minimum Radius Turn3.5. Steepest Descent; 3.6. Maximum Speed Dash; 4. Trajectory Optimization; 5. Optimization Yielding Desired Flight Maneuvers; 6. Applications of Trajectory Planning and Optimization; 6.1. Minimizing Environmental Effects; 6.2. Aerobatic Air Race; 6.3. Collision Avoidance and Hazardous Terrains; 6.4. Air Traffic Management; Conclusion; References; Controller Design for a Hybrid UAV; Abstract; 1. Introduction; 2. Coordinate Frames; 3. Hardware Configurations; 4. Mathematical Modeling; 5. Brushless Motor Model; 6. System Linearization; 7. System Input. Aerospace engineering. http://id.loc.gov/authorities/subjects/sh95007821 Aérospatiale (Ingénierie) aeronautical engineering. aat aerospace engineering. aat TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Aerospace engineering fast
subject_GND	http://id.loc.gov/authorities/subjects/sh95007821
title	Advances in aerospace science and technology /
title_auth	Advances in aerospace science and technology /
title_exact_search	Advances in aerospace science and technology /
title_full	Advances in aerospace science and technology / Parvathy Rajendran and M.Z. Abdullah, editors.
title_fullStr	Advances in aerospace science and technology / Parvathy Rajendran and M.Z. Abdullah, editors.
title_full_unstemmed	Advances in aerospace science and technology / Parvathy Rajendran and M.Z. Abdullah, editors.
title_short	Advances in aerospace science and technology /
title_sort	advances in aerospace science and technology
topic	Aerospace engineering. http://id.loc.gov/authorities/subjects/sh95007821 Aérospatiale (Ingénierie) aeronautical engineering. aat aerospace engineering. aat TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Aerospace engineering fast
topic_facet	Aerospace engineering. Aérospatiale (Ingénierie) aeronautical engineering. aerospace engineering. TECHNOLOGY & ENGINEERING Engineering (General) Aerospace engineering
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1512183
work_keys_str_mv	AT rajendranparvathy advancesinaerospacescienceandtechnology AT abdullahmz advancesinaerospacescienceandtechnology

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