Preliminary investigation on the self-propulsion performance of wedge-shaped functional surfaces

Purpose>The purpose of this paper is to artificially construct a functional surface with self-propulsion flow characteristics for the directional transportation of propellant in surface tension tanks.Design/methodology/approach>In this study, a method to enhance the propulsion efficiency by us...

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Bibliographic Details
Published in:Journal of intelligent manufacturing and special equipment (Online) 2022-12, Vol.3 (2), p.217-227
Main Authors: Li, Qianqian, Zhang, Bo, Yang, Tao, Dai, Qingwen, Huang, Wei, Wang, Xiaolei
Format: Article
Language:English
Subjects:
Aluminum
Contact angle
Functional surface
Hydrophobic surfaces
Investigations
Laser etching
Microstructure
Self-propulsion
Surface tension
Thermal gradient
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Summary:Purpose>The purpose of this paper is to artificially construct a functional surface with self-propulsion flow characteristics for the directional transportation of propellant in surface tension tanks.Design/methodology/approach>In this study, a method to enhance the propulsion efficiency by using functional surfaces of self-propulsion performance was proposed. Superhydrophilic wedged-groove with the superhydrophobic background was fabricated and the self-propulsion capacity was verified.Findings>It is found that the self-propulsion capacity is related to the divergence angle of the wedged-groove in the hydrophilic area, and the velocity of the droplets on the deflector plate is the largest with the divergence angle of 4°; the temperature gradient field formed by the condensing device at the nozzle can accelerate the droplet outflow from the tank.Originality/value>Realization of this idea provides an accurate control strategy for the complex flow process of propellant in plate surface tension tanks, which could enhance the efficiency of the tension tank significantly.
ISSN:2633-6596
2633-660X
DOI:10.1108/JIMSE-09-2022-0015