- VGA
- Unit pemroses grafis
- X68000
- Akselerator kecerdasan buatan
- Project Ara
- Apple Inc.
- Daftar distribusi Linux
- Google TV (layanan)
- Knowledge Graph
- Google Domains
- Ram accelerator
- Non-rocket spacelaunch
- Railgun
- Mass driver
- Accelerator
- Coilgun
- Pentaerythritol tetranitrate
- Skyhook (structure)
- Space gun
- Plasma railgun
- Ram Accelerator - Aeronautics and Astronautics
- General Features | Aeronautics and Astronautics
- Overview - Aeronautics and Astronautics
- Direct Space Launch | Aeronautics and Astronautics
- Publications | Aeronautics and Astronautics
- Carl Knowlen - Aeronautics and Astronautics
- Projectiles | Aeronautics and Astronautics
- From Ram Accelerator to SpaceX Engineer | Aeronautics and …
- Centers and laboratories - Aeronautics and Astronautics
- The Subdetonative Ram Accelerator Starting Process
ram accelerator
Video: ram accelerator
Ram accelerator GudangMovies21 Rebahinxxi LK21
A ram accelerator is a device for accelerating projectiles or just a single projectile to extremely high speeds using jet-engine-like propulsion cycles based on ramjet or scramjet combustion processes. It is thought to be possible to achieve non-rocket spacelaunch with this technology.
It consists of a long tube (barrel) filled with a mixture of combustible gases with a frangible diaphragm at either end to contain the gases. The projectile is fired by another means (e.g., a light-gas gun or railgun) supersonically through the first diaphragm into the tube. Then the projectile burns the gases as fuel, because it is shaped like a ramjet or scramjet core, and accelerates under jet propulsion. Other physics come into play at higher velocities.
Description
In a normal ramjet, air is compressed between a spike-shaped centerbody and an outer cowling, fuel is added and burned, and high speed exhaust gases are expanded supersonically out of the nozzle to generate thrust. In a ram accelerator, a projectile having a shape similar to the ramjet centerbody is fired, (often from a conventional gun), into the accelerator barrel, causing compression between the projectile and the barrel's walls. The barrel contains a pre-mixed gaseous fuel-air mixture. As the ram accelerator projectile compresses the fuel-air mixture, it is ignited and the combustion is stabilized at the base of the projectile. The resulting pressure differential generates a prodigious amount of thrust that can accelerate projectiles to in-tube Mach numbers greater than 8. Thus, if propellant mixtures with a speed of sound of 1000 m/s (e.g. fuel-rich H2-O2 mixtures) are used, muzzle velocities in excess of 8000 m/s are possible.
To span a wide range in a typical ram accelerator system, multiple stages with propellants with different sound speeds are used to maintain high performance. Membranes or diaphragms that are easily punctured by the projectile are used to isolate the propellant stages. Each section is filled with a different fuel-air mixture chosen so that later sections have higher speeds of sound. As such, the ram can be maintained at optimal speeds of Mach 3–5 (relative to the mixture that it travels through) during its entire acceleration period. Ram accelerators optimized to use supersonic combustion modes can generate even higher velocities (Mach 6–8) due to the ability to combust fuel that is still moving at supersonic speed.
Testing
Scramjet projectiles were tested in Project HARP in the 1960s.
Advantages
The chief advantage of a ram accelerator over a conventional gun is its scalability. In a normal gun, maximum pressure is exerted at the time of the charge ignition. As the projectile moves further down the barrel, the amount of acceleration upon the projectile decreases as the gas behind it expands, eventually reaching amounts trivial enough that a longer barrel is no longer justified (see article Internal ballistics). With a ram accelerator, the projectile is propelled primarily by the pressure generated by the reaction of the propellant gases burning just behind the projectile. This leads to constant pressure being put both on the gun and the projectile itself. Consequently, far longer barrels are possible than conventional guns, while still delivering a strong constant acceleration to the projectile.
Uses
Ram accelerators have been proposed as a cheap method to get payloads into space. Impulsive launched projectiles need some means to circularize their trajectory for orbit insertion, so rockets, such as those designed in the 1960s in Project HARP, are typically incorporated into the projectiles. With multi-stage rocket projectiles the launch cost was estimated at US$500 per kilogram in 2004.
Ram accelerator technology has also been envisioned for military applications such as ultra-long range striking and intercepting capabilities against stationary and on-the-move threats. The fact that the projectile accelerates and travels at very high velocities makes it a perfect alternative to anti-ship warfare, giving it abilities to evade defense systems. Only systems such as railguns could have such striking abilities against high alert threats. Such projectiles could even be integrated into railguns themselves to allow even higher acceleration at a cheaper cost and effectiveness against a wide variety of targets.
Technologies related to a ram accelerator for direct space launch applications are: two-stage gas guns (SHARP), multiple sidewall injection gas guns (JVL), railguns, and coilguns.
Ram accelerators are currently used primarily for research into supersonic combustion. The scram cannon science fiction weapon was inspired by ram accelerators.
See also
Light-gas gun
Railgun
Plasma railgun
Helical railgun
Coilgun
Mass driver
External links
US patent 10132578, Carl Knowlen; Adam Bruckner & Andrew J. Higgins et al., "Baffled-tube ram accelerator", issued 2018-11-20, assigned to University of Washington
Ram Accelerator | University of Washington, archived from the original on 2018-09-03, retrieved 2018-12-07
Pope, Gregory T. (March 1, 1994), "Ramming Speed", Discover Magazine, retrieved 2009-02-13
Kata Kunci Pencarian: ram accelerator
ram accelerator
Daftar Isi
Ram Accelerator - Aeronautics and Astronautics
The ram accelerator is a scalable hypervelocity launcher capable, in principle, of accelerating projectiles to velocities greater than 8 km/s (18,000 mph) and was developed in 1983 by researchers of the Department of Aeronautics and Astronautics at the University of Washington.
General Features | Aeronautics and Astronautics
The ram accelerator is a hypervelocity launcher that uses chemical energy to accelerate projectiles to hypersonic speeds (Hertzberg, Bruckner, and Bogdanoff, 1988*). Although the ram accelerator launch tube resembles a conventional long-barreled gun, its principle of operation is very different, being closely related to that of supersonic ...
Overview - Aeronautics and Astronautics
The ram accelerator can operate at in-tube Mach numbers up to ~8, which corresponds to ~8 km/s in H2-O2 propellants, thus it has the potential to launch projectiles at orbital velocities. Proof-of-principle was first demonstrated at 38-mm-bore in the UW ram accelerator facility in 1986.
Direct Space Launch | Aeronautics and Astronautics
The ram accelerator has the requisite muzzle velocity (8+km/s) and scalability (up to several tons) and, being a jet-engine based propulsive system, its acceleration profile can be tailored for any muzzle velocity.
Publications | Aeronautics and Astronautics
There have been four international workshops on the ram accelerator (1993, 1995, 1997, 1999). The proceedings from the latter two workshops have been published separately. Representative proceedings papers from the UW are included below.
Carl Knowlen - Aeronautics and Astronautics
Carter Vu wins an NSF GRFP to address dynamic muzzle issues in Ram Accelerators for large-payload space launches.
Projectiles | Aeronautics and Astronautics
Representative ram accelerator projectiles from other facilities are shown together in the photos below. Obturators play a key role in the “starting process” of the ram accelerator. Mass, open area ratio, hole pattern details, and back-disk mass are the main design parameters.
From Ram Accelerator to SpaceX Engineer | Aeronautics and …
From Ram Accelerator to SpaceX Engineer Isaac Statnekov’s passion for aerospace began early. His grandfather, who worked on the Saturn Rocket at McDonnell Douglas Corp., encouraged Isaac to pursue engineering.
Centers and laboratories - Aeronautics and Astronautics
Ram Accelerator: Fluids: Carl Knowlen: Robotics, Aerospace, and Information Networks: Controls: Mehran Mesbahi: Space Propulsion and Advanced Concepts Engineering Lab (SPACE Lab) Plasma Science: Justin Little: Williams Turbulence Lab: Fluids: Owen Williams: Vortex Transport Lab: Fluids: Bob Breidenthal
The Subdetonative Ram Accelerator Starting Process
The ram accelerator is a hypervelocity launcher in which a subcaliber projectile, similar in shape to the centerbody of a ramjet, travels supersonically through a tube filled with premixed gaseous fuel and oxidizer.