Experimental investigation on the performances of a valve-based and on-demand droplet generator producing droplets in a wide size range

Wang, Liping; Kong, Weiliang; Bian, Peixiang; Wang, Fuxin; Li, Hong

doi:10.1063/5.0107610

AIP Advances

2022

DOI: 10.1063/5.0107610

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Experimental investigation on the performances of a valve-based and on-demand droplet generator producing droplets in a wide size range

Liping Wang

Weiliang Kong

Peixiang Bian

et al.

Abstract: Many aspects of our daily lives are affected by the generation of water droplets, and it is important to controllably produce droplets with a wide size range in various applications. In this paper, we describe an on-demand droplet generating system based on a high-speed two-way solenoid valve. A nozzle made of stainless steel tubing is fit into one port of the valve, and the other port is connected to the fluid reservoir by which the pressure can be controlled via a pressure regulator. When the liquid is press… Show more

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Cited by 4 publications

References 47 publications

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Droplet 3D cryobioprinting for fabrication of free‐standing and volumetric structures

Weygant,

Entezari,

Koch

et al. 2024

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Droplet‐based bioprinting has shown remarkable potential in tissue engineering and regenerative medicine. However, it requires bioinks with low viscosities, which makes it challenging to create complex 3D structures and spatially pattern them with different materials. This study introduces a novel approach to bioprinting sophisticated volumetric objects by merging droplet‐based bioprinting and cryobioprinting techniques. By leveraging the benefits of cryopreservation, we fabricated, for the first time, intricate, self‐supporting cell‐free or cell‐laden structures with single or multiple materials in a simple droplet‐based bioprinting process that is facilitated by depositing the droplets onto a cryoplate followed by crosslinking during revival. The feasibility of this approach is demonstrated by bioprinting several cell types, with cell viability increasing to 80%–90% after up to 2 or 3 weeks of culture. Furthermore, the applicational capabilities of this approach are showcased by bioprinting an endothelialized breast cancer model. The results indicate that merging droplet and cryogenic bioprinting complements current droplet‐based bioprinting techniques and opens new avenues for the fabrication of volumetric objects with enhanced complexity and functionality, presenting exciting potential for biomedical applications.

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Droplet 3D cryobioprinting for fabrication of free‐standing and volumetric structures

Weygant,

Entezari,

Koch

et al. 2024

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show abstract

A solenoid injector based drop-on-demand system for generating large droplets

Coşar,

Şen,

Ertunç

et al. 2023

Review of Scientific Instruments

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This paper proposes a drop-on-demand (DOD) system that can produce single droplets of highly repeatable size in the order of 2 mm. This system utilizes an on-the-shelf solenoid injector used in automotive applications. The design methodology is explained along with the necessary measurements and numerical simulations of droplet generation. The invention consists of a solenoid injector that produces monodisperse single or in-series droplets with the help of a developed pulse width modulated signal generator. Mass per injection is measured over a range of supply pressures and injection durations to find the operation window to generate 2 mm droplets. Later, various nozzle geometries are designed and tested by flow simulations. The contracting nozzle is found suitable for generating single droplets, so the design is implemented at the tip of the solenoid injector. The effects of different opening times, pressures, and nozzle’s orifice diameters were tested to observe the operating window of the newly designed DOD system and the repeatability of generated droplets by utilizing a coherent circular Hough transform image processing algorithm to measure droplet sizes. The standard deviation of measured diameters is less than 5% of the mean droplet diameter, which is in the range of 1.68–2.07 mm. Next, the voltage and current signals are measured per injection, and exact instants for the initiation and ending for both opening and closing are determined to construct transient mass flow rate functions for flow simulations in which the dependence of droplet formation on the speed of closing is revealed. The numerical and experimental results indicate the repeatability and consistency of the invention.

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Prediction of the performance of the pressure-regulating valve in a large high-speed jet wind tunnel

Luo,

Huang,

Lin

et al. 2023

AIP Advances

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Prediction of the performance of the pressure-regulating valves in a large high-speed jet wind tunnel is important for obtaining and adjusting a high-quality flow field in the test section. In this work, we proposed a prediction method that corrects the theoretical characteristics of the pressure-regulation of the valve based on the experimental testing data of the ratio between the high- and low-pressure of the valve. The current method was validated for a given Mach number of 0.8, and the results showed that compared with the theoretical characteristics, the displacement deviation of the spool was reduced by 9.84%, and the total pressure deviation of the settling chamber was reduced by 43.61%. The results also show that compared with the single low-pressure ratio correction characteristic, the displacement deviation of the spool was reduced by 0.94%, and the total pressure deviation of the settling chamber was reduced by 3.4%. This method can consider the variation of the pressure loss for different pressure ratios and improve the pressure prediction of the valve.

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Experimental investigation on the performances of a valve-based and on-demand droplet generator producing droplets in a wide size range

Cited by 4 publications

References 47 publications

Droplet 3D cryobioprinting for fabrication of free‐standing and volumetric structures

Droplet 3D cryobioprinting for fabrication of free‐standing and volumetric structures

A solenoid injector based drop-on-demand system for generating large droplets

Prediction of the performance of the pressure-regulating valve in a large high-speed jet wind tunnel

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