DOI: 10.22215/etd/2008-08486
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Rocket nozzle design with ejector effect potential

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Cited by 5 publications
(15 citation statements)
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“…1) is based on the work of Cerantola [31] and Waung [32] and consists of two separate flowpaths: the supersonic expansion of hot rocket gases and the entrainment of atmospheric air. These two streams are then mixed within a duct for further combustion and expansion within the remainder of the engine (downstream of plane 3 in Fig.…”
Section: Methodsmentioning
confidence: 99%
“…1) is based on the work of Cerantola [31] and Waung [32] and consists of two separate flowpaths: the supersonic expansion of hot rocket gases and the entrainment of atmospheric air. These two streams are then mixed within a duct for further combustion and expansion within the remainder of the engine (downstream of plane 3 in Fig.…”
Section: Methodsmentioning
confidence: 99%
“…In addition, there is also an optimization program that uses a genetic algorithm to search for one of the better solution when requirements are given [25]. After designing the rocket flow path geometry for the exchange inlet, Cerantola ran several simulations using Ansys CFX for a particular set of rocket parameters [26]. Waung, after designing the intake that houses the rocket flow path, used the panel method and computational fluid dynamics (CFD) to look at the entrainment ratio of the exchange inlet [27].…”
Section: Objectivementioning
confidence: 99%
“…The parameter <p e is also important since it can control at what angle the flow enters the mixing duct and as well control how much the flow is turned. For a more information regarding the rocket flow path design parameters please refer to Cerantola [26].…”
Section: Figure 9: Rocket Flow Path Design Layoutmentioning
confidence: 99%
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