A high resolution and wide range valve for micronewton cold gas thrusters

Numerous scientific satellites require micronewton thrusters for compensating environmental disturbances. The mass flow control proportional valve plays a crucial role in precisely regulating the thrust. To meet the high resolution and wide range requirements of the thrusters, this paper introduces...

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Bibliographic Details
Published in:Review of scientific instruments 2024-02, Vol.95 (2)
Main Authors: Zhang, Hao-Yuan, Liu, Jian-Ping, Hu, Shao-Gang, Yin, Jin-Huan, Zhong, Yuan, Li, Zhu, Yang, Shan-Qing
Format: Article
Language:English
Subjects:
Cold gas
Connectors
Controllability
Flow control
High resolution
Mass flow
Piezoelectric actuators
Piezoelectricity
Pneumatics
Redundancy
Scientific satellites
Thrusters
Valve seats
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Summary:Numerous scientific satellites require micronewton thrusters for compensating environmental disturbances. The mass flow control proportional valve plays a crucial role in precisely regulating the thrust. To meet the high resolution and wide range requirements of the thrusters, this paper introduces a novel proportional valve with two sets of independently controllable piezoelectric stack. One set of the piezo-stack is used to compensate the stroke loss of the valve core, mainly caused by the deformation of the valve seat. The valve sealing mechanism is carefully analyzed to reduce the stroke loss. Another set of the stack works as the primary actuator, enabling the high mass flow control resolution. Two sets of independently controlled piezoelectric stacks not only expand the range and improve the range ratio but also provide redundancy and enhance reliability. This means that the actuator can still operate at lower ranges even if one piezo-stack is damaged. The piezo-actuators are assembled using U-shaped connectors, creating a compact and space-efficient overall design. Experimental tests have been conducted to verify the performance of the valve, which demonstrated a mass flow range of 0–675 μg/s with a resolution better than 0.1 μg/s and a flow noise below 0.1 μg/s/Hz1/2 at 0.1 mHz–1 Hz.
ISSN:0034-6748
1089-7623
DOI:10.1063/5.0175676