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Helfrick traces the paired history of modern aviation and electronics from its earliest years to the industrial force it is today.
The Aircraft Engineering Principles and Practice Series provides students, apprentices and practicing aerospace professionals with the definitive resources to take forward their aircraft engineering maintenance studies and career. This book provides a detailed introduction to the principles of aircraft electrical and electronic systems. It delivers the essential principles and knowledge required by certifying mechanics, technicians and engineers engaged in engineering maintenance on commercial aircraft and in general aviation. It is well suited for anyone pursuing a career in aircraft maintenance engineering or a related aerospace engineering discipline, and in particular those studying for licensed aircraft maintenance engineer status. The book systematically covers the avionic content of EASA Part-66 modules 11 and 13 syllabus, and is ideal for anyone studying as part of an EASA and FAR-147 approved course in aerospace engineering. All the necessary mathematical, electrical and electronic principles are explained clearly and in-depth, meeting the requirements of EASA Part-66 modules, City and Guilds Aerospace Engineering modules, BTEC National Units, elements of BTEC Higher National Units, and a Foundation Degree in aircraft maintenance engineering or a related discipline.
Larger airframes drove the development of electrical systems, capable of quickly and reliably starting the new higher power engines. These soon gave rise to the need for engine-mounted electrical generators as the primary source of in-flight power for the electrical loads and onboard recharging of the aircraft battery system. Of all the backup power sources, batteries represent the most common means of storing energy for auxiliary or emergency power requirements. It is not unusual for a typical commercial airliner, such as a B-737 or A-320, to have dozens of batteries on board. Over time, multiple battery chemistries were put to the test and the industry is still working on the optimal option. The lithium-ion technology has been gaining acceptance, with some important aspects to be considered: the application type, basic safety requirements and the presence or absence of humans on the vehicle. The Electrification of Civil Aircraft and the Evolution of Energy Storage, edited by Michael Waller, presents 10 seminal SAE technical papers which address multiple aspects of specific design, cell configuration and mitigation strategies in the case of battery failure. Additionally, with all the changes resulting from monitoring, control, and performance/safety test criteria, battery manufacturers have found themselves becoming systems integrators, having to quickly acquire knowledge of electronics and system modeling. As new technologies become available, industry will attempt to take advantage of all potential benefits, in a process that can have a profound impact on the product offerings that emerge and in the way business is conducted. The Electrification of Civil Aircraft and the Evolution of Energy Storage presents a solid perspective on how civil aviation has matured in its quest to develop lighter, more efficient and less polluting aircraft, and also more electric.
This work describes the historical evolution of a critical aspect of aerospace technology—avionics and navigation systems. This history is important to understanding current and future issues associated with aeronautics, space-flight development, and flight management, because avionics is crucial to commerical air traffic control and space flight. Samuel Fishbein provides a historical overview of aviation electronics and instrumentation, the evolution of automated systems and their integration, and the role of the pilot in this environment. In addition, he reviews the major elements comprising the flight management system and the evolution and operation of these instruments, discussing why the instrument panel is configured the way it is, and how ground and space-based components of the systems have influenced the design of airplane components.
""Aviation Technology"" explores the fascinating world of human flight, delving into the scientific principles and technological innovations that have made aviation possible. The book focuses on three key areas: aerodynamics, propulsion systems, and aircraft structures, providing readers with a comprehensive understanding of how aircraft generate lift, propel themselves through the air, and maintain structural integrity under extreme conditions. From the Wright brothers' first powered flight to modern jet engines and emerging electric propulsion technologies, the book traces the rapid advancements in aviation technology over the past century. It presents complex concepts in an accessible manner, using clear language, analogies, and illustrations to explain the delicate balance of forces that enable sustained, controlled flight. The book's unique approach combines technical explanations with real-world applications and future projections, making it valuable for engineering students, aviation professionals, and technology enthusiasts alike. As readers progress through the chapters, they'll gain insights into aircraft design, flight planning, and aviation safety, while also exploring emerging technologies like hypersonic flight and electric vertical takeoff and landing vehicles. By addressing ongoing debates in the field, such as the future of supersonic commercial flight and the potential for electric aircraft to reduce aviation's carbon footprint, ""Aviation Technology"" encourages critical thinking about the future of air travel and inspires curiosity about one of humanity's greatest achievements.
Perhaps no technological development in the century has more fundamentally transformed human life than the airplane and its support apparatus. The nature of flight, and the activities that it has engendered throughout the world, makes the development of aviation technology an important area of investigation. Why did aeronautical technology take the shape it did? Which individuals and organizations were involved in driving it? What factors influenced particular choices of technologies to be used? More importantly, how has innovation affected this technology? Innovation and the Development of Flight, a first strike at the "new aviation history," represents a significant transformation of the field by relating the subject to larger issues of society, politics, and culture, taking a more sophisticated view of the technology that few historians have previously attempted. This volume moves beyond a focus on the artifact to emphasize the broader role of the airplane and, more importantly, the entire technological system. This suggests that many unanswered questions are present in the development of modern aviation and that inquisitive historians seek to know the relationships of technological systems to the human mind. Some of the subjects discussed are early aeronautical innovation and government patronage; the evolution of relationships among airports, cities, and industry; the relationship of engine development to the entire aviation industry; the Department of Commerce's influence on light plane development; pressure in the Air Force for the development of jet engines; and lessons of the National Aerospace Plane Program. Aviation historians and historians of technology will find Innovation and the Development of Flight a valuable examination of aeronautical innovation providing foundations for continued explorations of this field.