Products related to Propulsion:
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Jet Propulsion Engines
Volume XII of the High Speed Aerodynamics and Jet Propulsion series.Partial Contents: Historical development of jet propulsion; basic principles of jet propulsion; analyses of the various types of jet propulsion engines including the turbojet, the turboprop, the ramjet, and intermittent jets, as well as solid and liquid propellant rocket engines and the ramrocket.Another section deals with jet driven rotors. The final sections discuss the use of atomic energy in jet propulsion and the future prospects of jet propulsion. Originally published in 1959. The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press.These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions.The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
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Rocket Propulsion Elements
ROCKET PROPULSION ELEMENTS THE DEFINITIVE INTRODUCTION TO ROCKET PROPULSION THEORY AND APPLICATIONSThe recent upsurge in global government and private spending and in space flight events has resulted in many novel applications of rocket propulsion technology.Rocket Propulsion Elements remains the definitive guide to the field, providing a comprehensive introduction to essential concepts and applications.Led by industry veteran George P. Sutton and by Professor Oscar Biblarz, this book provides interdisciplinary coverage including thermodynamics, aerodynamics, flight performance, propellant chemistry and more. This thoroughly revised ninth edition includes discussion and analysis of recent advances in the field, representing an authoritative reference for students and working engineers alike.In any engineering field, theory is only as useful as it is practical; this book emphasizes relevant real-world applications of fundamental concepts to link “thinking” and “doing”.This book will help readers: Understand the physics of flight and the chemistry of propulsion Analyze liquid, solid, gas, and hybrid propellants, and the engines they fuelConsider high-temperature combustion, stability, and the principles of electric and chemical propulsionDissect the workings of systems in common use around the world todayDelve into the latest advances in materials, systems, propellants, and moreBroad in scope, rich in detail, and clear in explanation, this seminal work provides an unparalleled foundation in aerospace engineering topics.Learning through the lens of modern applications untangles complex topics and helps students fully grasp the intricacies on a more intuitive level.Rocket Propulsion Elements, Ninth Edition merges information and utility building a solid foundation for innovation.
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Fundamentals of Rocket Propulsion
The book follows a unified approach to present the basic principles of rocket propulsion in concise and lucid form.This textbook comprises of ten chapters ranging from brief introduction and elements of rocket propulsion, aerothermodynamics to solid, liquid and hybrid propellant rocket engines with chapter on electrical propulsion.Worked out examples are also provided at the end of chapter for understanding uncertainty analysis.This book is designed and developed as an introductory text on the fundamental aspects of rocket propulsion for both undergraduate and graduate students.It is also aimed towards practicing engineers in the field of space engineering.This comprehensive guide also provides adequate problems for audience to understand intricate aspects of rocket propulsion enabling them to design and develop rocket engines for peaceful purposes.
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Principles of Nuclear Rocket Propulsion
Principles of Nuclear Rocket Propulsion, Second Edition continues to put the technical and theoretical aspects of nuclear rocket propulsion into a clear and unified presentation, providing an understanding of the physical principles underlying the design and operation of nuclear fission-based rocket engines.This new edition expands on existing material and adds new topics, such as antimatter propulsion, nuclear rocket startup, new fuel forms, reactor stability, and new advanced reactor concepts.This new edition is for aerospace and nuclear engineers and advanced students interested in nuclear rocket propulsion.
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What is a jet propulsion?
Jet propulsion is a method of creating thrust by expelling a high-velocity jet of fluid or gas in the opposite direction of the desired movement. This principle is commonly used in jet engines, where air is compressed and mixed with fuel before being ignited to produce a high-speed exhaust jet. The reaction force from the jet propels the engine and the aircraft forward. Jet propulsion is widely used in aviation, as well as in marine and rocket propulsion systems.
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What is a rocket propulsion system?
A rocket propulsion system is a method of generating thrust to propel a rocket into space. It typically involves the combustion of propellant, such as liquid or solid fuel, to produce high-speed exhaust gases that create a reaction force in the opposite direction, according to Newton's third law of motion. There are different types of rocket propulsion systems, including chemical rockets, electric propulsion, and nuclear propulsion, each with its own advantages and limitations. Rocket propulsion systems are essential for space exploration, satellite deployment, and interplanetary travel.
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Are there airplanes with nuclear propulsion?
No, there are currently no airplanes with nuclear propulsion. While nuclear propulsion has been explored for use in spacecraft and submarines, the technology is not currently used in commercial or military aircraft due to safety concerns and regulatory restrictions. The complexity and potential risks associated with nuclear propulsion make it unlikely to be implemented in airplanes in the near future.
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What propulsion system could UFOs have?
UFOs could potentially have advanced propulsion systems such as anti-gravity technology, electromagnetic propulsion, or even warp drives. These systems would allow them to achieve incredible speeds and maneuverability, as reported by many eyewitness accounts. While the exact nature of UFO propulsion systems remains a mystery, it is widely believed that they would have to be highly advanced and beyond our current understanding of physics.
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Nuclear Propulsion Techniques for Spacecraft : Utilization of Nuclear Reactors in Spacecraft for Space Propulsion
The two of the largest developments in the 20th century have been the invention of spacecraft, and the invention of nuclear power as a source of long lasting energy.Now, both technological fields have grown immensely to structure the technology of our world.These two fields are intertwined, as the future of space exploration depends on the availability of nuclear power.One of the most important requirements of a space flight mission is to be able to fly to furthest reaches of the universe.In fact, flying anywhere in our Solar System besides the moon will pose a considerable challenge as the distances that need to be travelled are great.The various means of chemical propulsion in spacecraft do not have the necessary high specific impulse and velocity to reach these long distances.But, with the availability of nuclear power, spacecrafts will have the thrust and the necessary power for exploration of interstellar distances.Nuclear propulsion poses the way for exploring our solar system and it provides the means for interstellar exploration.You can find contemporary techniques of nuclear space propulsion in this book and advanced futuristic nuclear space propulsion methods.
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Aircraft Propulsion : Cleaner, Leaner, and Greener
Explore the latest edition of a leading resource on sustainable aviation, alternative jet fuels, and new propulsion systems The newly revised Third Edition of Aircraft Propulsion delivers a comprehensive update to the successful Second Edition with a renewed focus on the integration of sustainable aviation concepts.The book tackles the impact of aviation on the environment at the engine component level, as well as the role of propulsion system integration on fuel burn.It also discusses combustion emissions, including greenhouse gases, carbon monoxide, unburned hydrocarbons (UHC), and oxides of nitrogen (NOx). Alternative jet fuels, like second generation biofuels and hydrogen, are presented.The distinguished author covers aviation noise from airframe to engine and its impact on community noise in landing and takeoff cycles.The book includes promising new technologies for propulsion and power, like the ultra-high bypass (UHB) turbofan and hybrid-electric and electric propulsion systems. Readers will also benefit from the inclusion of discussions of unsteady propulsion systems in wave-rotor combustion and pulse-detonation engines, as well as: A thorough introduction to the history of the airbreathing jet engine, including innovations in aircraft gas turbine engines, new engine concepts, and new vehiclesAn exploration of compressible flow with friction and heat, including a brief review of thermodynamics, isentropic process and flow, conservation principles, and Mach numbersA review of engine thrust and performance parameters, including installed thrust, rocket thrust, and modern engine architectureA discussion of gas turbine engine cycle analysis Perfect for aerospace and mechanical engineering students in the United States and overseas, Aircraft Propulsion will also earn a place in the libraries of practicing engineers in the aerospace and green engineering sectors seeking the latest up to date resource on sustainable aviation technologies.
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Aircraft Propulsion : Toward Net-Zero Aviation
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Anti-Gravity Propulsion Dynamics : Ufos and Gravitational Manipulation
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Is it possible to use a propulsion system like the photon drive and magnetic field as propulsion?
While the concept of using a propulsion system like the photon drive and magnetic field for propulsion is theoretically possible, it is currently not a practical or feasible method for spacecraft propulsion. The photon drive relies on the momentum of photons for thrust, which is very small and would require a massive amount of energy to generate significant acceleration. Additionally, the use of magnetic fields for propulsion, such as in magnetic sails, is still in the experimental stages and faces challenges in terms of scalability and efficiency. Research and development in these areas are ongoing, but more advancements are needed before these propulsion systems can be effectively used in space missions.
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Why do ships use diesel as propulsion?
Ships use diesel as propulsion because diesel engines are known for their efficiency, reliability, and power. Diesel engines are able to generate a high amount of torque, making them well-suited for powering large vessels through water. Additionally, diesel fuel is widely available around the world, making it a convenient choice for long-distance travel. Overall, diesel propulsion offers a cost-effective and practical solution for powering ships across various types of water bodies.
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What is the smallest atomic propulsion system?
The smallest atomic propulsion system is the radioisotope thermoelectric generator (RTG). RTGs use the heat produced by the decay of radioactive isotopes, such as plutonium-238, to generate electricity. This electricity can then be used to power small spacecraft and satellites, providing a long-lasting and reliable source of energy for deep space missions. RTGs have been used in numerous space missions, including the Voyager and Cassini spacecraft.
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Which type of propulsion would you choose?
I would choose electric propulsion for its environmental benefits and efficiency. Electric propulsion produces zero emissions, reducing the environmental impact of the vehicle. It also requires less maintenance and has lower operating costs compared to traditional combustion engines. Additionally, electric propulsion provides smooth and quiet operation, enhancing the overall experience for passengers.
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