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Effects of Non-Uniform Center-Flow Distribution and Cavitation on Continuous-Type Pintle Injectors
Effects of Non-Uniform Center-Flow Distribution and Cavitation on Continuous-Type Pintle Injectors
by Choi, Dongwoo , Lee, Seunghyeon , Ahn, Kyubok
in Cavitation / Cold flow / continuous-type pintle tip / Design and construction / Design specifications / Flow characteristics / Flow distribution / Injection / Injectors / Lasers / liquid–liquid pintle injector / non-uniform flow distribution / Nonuniform flow / Pressure drop / Propellant injection / Propulsion systems / Uniform flow / Velocity
2024
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Effects of Non-Uniform Center-Flow Distribution and Cavitation on Continuous-Type Pintle Injectors
by Choi, Dongwoo , Lee, Seunghyeon , Ahn, Kyubok
in Cavitation / Cold flow / continuous-type pintle tip / Design and construction / Design specifications / Flow characteristics / Flow distribution / Injection / Injectors / Lasers / liquid–liquid pintle injector / non-uniform flow distribution / Nonuniform flow / Pressure drop / Propellant injection / Propulsion systems / Uniform flow / Velocity
2024
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Effects of Non-Uniform Center-Flow Distribution and Cavitation on Continuous-Type Pintle Injectors
Effects of Non-Uniform Center-Flow Distribution and Cavitation on Continuous-Type Pintle Injectors
by Choi, Dongwoo , Lee, Seunghyeon , Ahn, Kyubok
in Cavitation / Cold flow / continuous-type pintle tip / Design and construction / Design specifications / Flow characteristics / Flow distribution / Injection / Injectors / Lasers / liquid–liquid pintle injector / non-uniform flow distribution / Nonuniform flow / Pressure drop / Propellant injection / Propulsion systems / Uniform flow / Velocity
2024

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Effects of Non-Uniform Center-Flow Distribution and Cavitation on Continuous-Type Pintle Injectors
Effects of Non-Uniform Center-Flow Distribution and Cavitation on Continuous-Type Pintle Injectors
Journal Article

Effects of Non-Uniform Center-Flow Distribution and Cavitation on Continuous-Type Pintle Injectors

Choi, Dongwoo,
Lee, Seunghyeon,
Ahn, Kyubok
2024
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Overview
In this paper, the flow characteristics of a continuous-type liquid–liquid pintle injector are described, focusing on the differential impact of a non-uniform center-flow distribution on single- and bi-injection methodologies as well as the cavitation effect on the spray angle. Using cold-flow experiments, jet-type flows of the center propellant caused by a non-uniform flow distribution were observed during a single injection. This resulted in an augmented pressure drop, as opposed to the flow characteristics of uniform single-film injection. By contrast, bi-injection modalities exhibited a substantial reduction in the pressure drop of the center propellant, underscoring a more equitable flow distribution. Moreover, the occurrence of cavitation in the center propellant was found to markedly affect the spray angle. By considering the injection exit area reduction caused by cavitation, the spray-angle prediction accuracy increased. The findings of this study are expected to reveal the interplay between flow distribution and pressure drop as well as that between cavitation and the spray angle in pintle injectors. Through this understanding, this study provides crucial considerations for the development of more efficient propulsion systems.
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Publisher
MDPI AG
Subject

Cavitation

/ Cold flow

/ continuous-type pintle tip

/ Design and construction

/ Design specifications

/ Flow characteristics

/ Flow distribution

/ Injection

/ Injectors

/ Lasers

/ liquid–liquid pintle injector

/ non-uniform flow distribution

/ Nonuniform flow

/ Pressure drop

/ Propellant injection

/ Propulsion systems

/ Uniform flow

/ Velocity

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