Read more
Informationen zum Autor Roy Langton has recently retired from his position as Vice-President, Engineering & Integrity at Parker Aerospace, where he was responsible for internal seminars & training into feedback control. Klappentext All aspects of fuel products and systems including fuel handling, quantity gauging and management functions for both commercial (civil) and military applications.The fuel systems on board modern aircraft are multi-functional, fully integrated complex networks. They are designed to provide a proper and reliable management of fuel resources throughout all phases of operation, notwithstanding changes in altitude or speed, as well as to monitor system functionality and advise the flight crew of any operational anomalies that may develop.* Collates together a wealth of information on fuel system design that is currently disseminated throughout the literature.* Authored by leading industry experts from Airbus and Parker Aerospace.* Includes chapters on basic system functions, features and functions unique to military aircraft, fuel handling, fuel quantity gauging and management, fuel systems safety and fuel systems design and development.* Accompanied by a companion website housing a MATLAB/SIMULINK model of a modern aircraft fuel system that allows the user to set up flight conditions, investigate the effects of equipment failures and virtually fly preset missions.Aircraft Fuel Systems provides a timely and invaluable resource for engineers, project and programme managers in the equipment supply and application communities, as well as for graduate and postgraduate students of mechanical and aerospace engineering. It constitutes an invaluable addition to the established Wiley Aerospace Series. Zusammenfassung All aspects of fuel products and systems including fuel handling, quantity gauging and management functions for both commercial (civil) and military applications. The fuel systems on board modern aircraft are multi-functional, fully integrated complex networks. Inhaltsverzeichnis Acknowledgements xiii List of Acronyms xv Series Preface xix 1 Introduction 1 1.1 Review of Fuel Systems Issues 2 1.2 The Fuel System Design and Development Process 11 1.3 Fuel System Examples and Future Technologies 15 1.4 Terminology 15 2 Fuel System Design Drivers 19 2.1 Design Drivers 21 2.2 Identification and Mitigation of Safety Risks 27 3 Fuel Storage 31 3.1 Tank Geometry and Location Issues for Commercial Aircraft 32 3.2 Operational Considerations 36 3.3 Fuel Tank Venting 41 3.4 Military Aircraft Fuel Storage Issues 45 3.5 Maintenance Considerations 49 4 Fuel System Functions of Commercial Aircraft 53 4.1 Refueling and Defueling 54 4.2 Engine and APU Feed 59 4.3 Fuel Transfer 70 4.4 Fuel Jettison 73 4.5 Fuel Quantity Gauging 76 4.6 Fuel Management and Control 84 4.7 Ancillary Systems 93 5 Fuel System Functions of Military Aircraft and Helicopters 97 5.1 Refueling and Defueling 98 5.2 Engine and APU Feed 103 5.3 Fuel Transfer 104 5.4 Aerial Refueling 106 5.5 Fuel Measurement and Management Systems in Military Applications 112 5.6 Helicopter Fuel Systems 116 6 Fluid Mechanical Equipment 119 6.1 Ground Refueling and Defueling Equipment 120 6.2 Fuel Tank Venting and Pressurization Equipment 133 6.3 Aerial Refueling Equipment 137 6.4 Equipment Sizing 142 6.5 Fuel Pumps 143 7 Fuel Measurement and Management Equipment 157 7.1 Fuel Gauging Sensor Technology 158 7.2 Harnesses 195 7.3 Avionics Equipment 197 8 Fuel Properties 203 8.1 The Refinement Process 203 8.2 Fuel Specification Properties of Inte...