• Title/Summary/Keyword: Y-junction microchannel

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Micro-PIV Measurement on the droplet formation in a microfluidic channel (미세유체소자 내부에서의 Droplet 형성에 대한 Micro-PIV 측정)

  • Yoon, Sang-Youl;Ko, Choon-Sik;Kim, Jae-Min;Kim, Kyung-Chun
    • Proceedings of the KSME Conference
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    • 2004.11a
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    • pp.1534-1539
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    • 2004
  • This experiment has been carried out to measure the process of droplet formation between water phase fluid(PVA 3%) and organic phase fluid(oil) and vector fields measured by a Dynamic Micro-PIV method in the inside of a droplet while generated. Droplet length controlled by changing flow rate conditions in microchannel. Water-in-oil(W/O) droplets successfully generated at a Y junction and cross microchannel. But oil-in-water(O/W) droplets could not be formed at a Y junction microchannel. That is, PVA 3% flow could not be detached from the PDMS surface and ran parallel with oil flow. When PVA 3% flow rate was constant, droplet length and time period decreased as oil flow rate increased, but droplet frequency increased. When PVA 3% and oil flow rate ratio was constant, droplet length and time period decreased as flow rate increased, but droplet frequency increased. All that case, Standard deviation of droplet formation have less than 5% at averaged droplet length and regular-sized droplets were reproducibly formed.

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Simultaneous Measurement of Internal and External Flow Fields around the Droplet Formation in a Microchannel (마이크로 채널 내 Droplet 형성에 따른 내${\cdot}$외부 유동장 동시측정)

  • Kim Kyung Chun;Kim Jae Min;Yoon Sang Youl
    • 한국가시화정보학회:학술대회논문집
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    • 2004.11a
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    • pp.80-83
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    • 2004
  • This experiment has been carried out to measure the process of droplet formation between water phase fluid$(PVA\;3\%)$ and organic phase fluid(oil), Internal and External flow fields measured by a Dynamic Micro-PIV method Water-in-oil(W/O) droplets successfully generated at a cross junction and Y junction. Internal and external flow fields were measured when the droplet grew up, stretched and separated.

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PIV Measurements of the Pressure Driven Flow Inside a T-Shaped Microchannel Junction (T헝 마이크로채널 연결부 압력구동 유동의 PIV계측)

  • Choi Jayho;Lee In-Seop
    • Journal of the Korean Society of Visualization
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    • v.1 no.1
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    • pp.75-81
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    • 2003
  • A custom micro-PIV optics assembly has been used to measure the flow fold inside a T-junction of a microchannel. The micro-PIV system consists of microscope objectives of various magnifications, a dichroic cube, and an 8-bit CCD camera. Fluorescent particles of diameters 620 nm have been used with a Nd:YAG laser and color filters. A programmable syringe pump with Teflon tubings were used to inject particle-seeded distilled water into the channel at flow rates of 2.0, 4.0, 6.0 mL/hr. The micro-channels are fabricated with PDMS with a silicon mold, then O$_{2}$ -ion bonded onto a slide glass. Results show differences in flow characteristics and resolution according to fluid injection rates, and magnifications, respectively. The results include PIV data with vector-to-vector distances of 2 $\mu$m with 32 pixel-square interrogation windows at 50$\%$ overlap.

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Experimental Study on the Droplet Formation in a Microchannel with a Cross Junction (십자형 마이크로 채널 내에서의 액적 형성에 관한 실험적 연구)

  • Park, Jae-Hyoun;Bae, Ki-Hwa;Heo, Young-Gun;Suh, Yong-Kweon
    • Journal of the Korean Society of Visualization
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    • v.5 no.2
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    • pp.39-47
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    • 2007
  • This paper describes an experimental study on the droplet formation and the subsequent motion in a microchannel having a cross junction. While one kind of liquid (pure water or water-surfactant mixture) is drawn into a horizontal inlet channel, the other kind (oil) is introduced through two vertical inlet channels. Due to the effect of surface tension on the interface between the two fluids, the droplets of the first fluid are formed near the cross junction. In this study, we have found that the droplet formation is affected even by slight difference in the surface tension. When the surface tension between two fluids is decreased, the droplet size is decreased in order to keep the equilibration between the pressure and the surface tension. In addition, the time interval between each of the droplet formations is decreased and the distance between droplets is also decreased when the surface tension is decreased.

Micro-PIV Measurement of Water/Oil Two Phase Flow in a Y-Junction Microchannel (Y형 마이크로채널에서의 물/기름 2상 유동에 대한 Micro-PIV 측정)

  • Yoon,Sang-Youl;Ko, Choon-Sik;Kim, Kyung-Chun
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.28 no.6
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    • pp.682-687
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    • 2004
  • Y-junction microchannels are widely used as a flew mixer. Fluids are entered from two branch channels and merged together at a combined channel. In this study, we suggest a simple method to create the fluid digitization using flow instability phenomena. Two immiscible liquids (water/oil) are infused continuously to each Y-junction inlets. Because of the differences in fluid and flow properties at the interface, oil droplet is formed automatically followed by flow instability. In order to clarify the hydrodynamic aspects involved in oil droplet formation, a quantitative flow visualization study has performed. Highly resolved velocity vector fields are obtained by a micro-PIV technique, so that detail flow structures around the droplet are illustrated. In this study, fluorescent particles were mixed with water only for visualization of oil droplet and velocity field measurement in water flow.

Measurements of Plasma Flows in Micro-Tube/Channel Using Micro-PIV (Micro-PIV를 이용한 마이크로 튜브/채널 내에서의 혈장유동측정)

  • Ko, Choon-Sik;Yoon, Sang-Youl;Ki, Ho-Seong;Kim, Kyung-Chun
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.28 no.5
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    • pp.587-593
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    • 2004
  • In this paper, flow characteristics of plasma flow in a micro-tube were investigated experimentally using micro particle image velocimetry(micro-PIV). For comparison, the experiments were repeated for deionized(DI) wale. instead of plasma. Both velocity profiles of plasma and do-ionized water are well agreed with the theoretical velocity distribution of newtonian fluid. We also carried out generating plasma-in-oil droplet formation at a Y-junction microchannel. In order to clarify the hydrodynamic aspects involved in plasma droplet formation, Rhodamine-B were mixed with plasma only for visualization of plasma droplet. With oil as the continuous phase and plasma as the dispersed phase, plasma droplet can be generated in a continuous phase flow at a Y-junction. For given experimental parameters, regular-sized droplets are reproducibly formed at a uniform flow conditions.

Simple Fabrication of Micromixer Based on Non-Equilibrium Electrokinetics in Micro/Nano Hybrid Fluidic System (단순공정으로 제작된 마이크로/나노 하이브리드 채널의 불균형 동전기성을 이용한 미세혼합기 연구)

  • Yu, Samuel;Kim, Sun-Min
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.35 no.4
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    • pp.385-390
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    • 2011
  • In this study, we developed a micromixer based on the non-equilibrium electrokinetics at the junction of a microchannel and nanochannel. Two fluid streams were mixed by an electro-osmotic flow and a vortex flow created as a result of the non-equilibrium electrokinetics at the junction of the microchannel and nanochannel. Initially, the microchannel was fabricated using Polydimethylsiloxane (PDMS) by the general soft lithography process and the nanochannel was created at a specific position on the microchannel by applying a high voltage. To evaluate the mixing performance of the micromixer, fluorescent distribution was analyzed by using the fluorescent dye, Rhodamine B. About 90% mixing was achieved with this novel micromixer, and this micromixer can be used in microsystems for biochemical sample analysis.

Droplet Bistability in Microchannel and its Application to Flow Control (마이크로 채널 내부에서의 액적의 쌍안정성과 이를 활용한 유동 제어)

  • Lee, Beom-Joon;Yoo, Jung-Yul
    • Journal of the Korean Society of Visualization
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    • v.8 no.4
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    • pp.43-47
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    • 2010
  • We demonstrate the droplet bistability in a microchannel which has two symmetric necks that operate as capillary valves. It is shown that there are certain flow conditions, determined by droplet velocity and droplet size, to achieve bistability. Droplet bistabililty allows simple but precise control of droplet at a bifurcation channel. Therefore, by an appropriate channel design to induce droplet bistability, we can distribute droplets at a junction passively in the manner of perfect alternation and perfect switching in the choice of the outlets.

Generation of Fine Droplets in a Simple Microchannel (유체 소자를 이용한 미세 액적 생성)

  • Kim, Su-Dong;Kim, Young-Won;Yoo, Jung-Yul
    • Proceedings of the KSME Conference
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    • 2008.11b
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    • pp.2658-2663
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    • 2008
  • In the present study, we designed a microfluidic flatform that generates monodisperse droplets with diameters ranging from hundreds of nanometers to several micrometers. To generate fine droplets, T-junction and flow-focusing geometry are integrated into the microfluidic channel. Relatively large aqueous droplets are generated at the upstream T-junction and transported toward the flow-focusing geometry, where each droplet is broken up into the targeted size by the action of viscous stresses. Because the droplet prior to rupture blocks the straight channel that leads to the flow-focusing geometry, it moves very slowly by the pressure difference applied between the advancing and receding regions of the moving droplet. This configuration enables very low flow rate of inner fluid and higher flow rate ratio between inner and outer fluids at the flow-focusing region. It is shown that the present microfluidic device can generate droplets with diameters about 1 micrometer size and standard deviation less than 3%.

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Measurements of Plasma Flows in Micro-Tube/Channel Using Micro-PIV (Micro-PIV를 이용한 마이크로 튜브/채널 내에서의 혈장유동 측정)

  • Ko Choon Sik;Yoon Sang Youl;Ji Ho Seong;Kim Jae Min;Kim Kyung Chun
    • 한국가시화정보학회:학술대회논문집
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    • 2003.11a
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    • pp.87-90
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    • 2003
  • In this paper, flow characteristics of plasma flow in a micro-tube were investigated experimentally using Micro-PIV. For comparision, the experiments were repeated for DI-water instead of plasma. Both velocity profiles of Plasma and DI-water are well agreed with the theoretical velocity distribution of newtonian fluid. We also carried out generating plasma-in-oil droplet formation at a Y-junction microchannel. In order to clarify the hydrodynamic aspects involved in plasma droplet formation. Rhodamin B were mixed with plasma only for visualization of plasma droplet.

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