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Meniscus Stability in Rotating Systems

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EUR 62.00

E-book
EUR 43.00

Meniscus Stability in Rotating Systems (English shop)

Yvonne Chen (Author)

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Table of Contents, PDF (57 KB)
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ISBN-13 (Hard Copy) 9783736990104
ISBN-13 (eBook) 9783736980105
Language English
Page Number 286
Lamination of Cover matt
Edition 1. Aufl.
Publication Place Göttingen
Place of Dissertation Bremen
Publication Date 2015-06-08
General Categorization Dissertation
Departments Engineering
Technical mechanics
Aerospace engineering
Keywords space, microgravity, zero gravity, capillarity, stability, rotation, free surfaces, menisci, curvature, drop tower experiments
Description

The knowledge of behavior of liquids with free surfaces to their surrounding gaseous phase in compensated gravity is essential to the development of tank systems for spacecrafts. In microgravity, the liquid behavior is dominated by capillary forces, which are used to position and redistribute liquid propellant in a desired way for the mission. The body forces occurring due to residual accelerations, which can be caused by spin during the ballistic flight phases, force the liquid to reorient towards a new equilibrium state of the free surface. Due to spin the liquid is driven away from the tank outlet and located along tank walls in partially filled tanks. To assure enough liquid fuel over the tank outlet, so-called Propellant Management Devices (PMD’s), are employed. A PMD is a static, usually metal structure, which either provides a passage way for a liquid in microgravity or stores a certain amount of liquid at a desired location. Some PMD’s are designed to be refillable in periods of microgravity due to openings in the outer housing or by a housing composed of perforated metallic sheets. These reservoirs are refilled in periods of compensated gravity in order to provide the required amount of liquid fuel for attitude control or other maneuverings. Relatively large disturbances, such as lateral accelerations and spin, can drive the liquid fuel out of the reservoir, resulting in malfunction of the device. During spilling, gas enters the device such that only a residual amount of liquid propellant can be kept in the reservoir. Moreover, the connection to the bulk liquid in the tank may be interrupted such that refilling of the reservoir is disrupted. Hence, a PMD with two parallel disks forming the inlet and a venting tube at the topmost point of the outer housing shall be designed such that its refillable structure is only filled with liquid without any gas or vapor being easily trapped during operations.