Improvement of Filtration Performance Using Self-Tuning of Flow Resistance

Yoon, Dong Hyun; Bahk, Yeon Kyoung; Kwon, Bong Hyun; Kim, Seong-Sik; Kim, Yong Deok; Arakawa, Takahiro; Go, Jeung Sang; Shoji, Shuichi

doi:10.1143/jjap.50.017201

Cited by 4 publications

(3 citation statements)

References 18 publications

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“…대표적인 분리 기술로는 회전 축을 중심으로 물질을 회전하여 발생하는 원심력을 이용 한 원심분리기 [1] , 전기장이나 자기장의 영향을 받아 하전 된 물질들이 유동성 매체 내에서 이동하는 전자기영동 [2] , 그리고 이동상과 고정상에 대한 혼합 성분의 인력 차이를 이용한 크로마토그래피 [3] [4] , 마 이크로 필러 구조물을 이용한 입자들의 거동의 차이를 이 용한 방법 [5] 과 마이크로 크기의 필터를 이용하여 입자를 분리하는 방법 [6] [7] . …”

Section: 서 론 7)unclassified

Performance Evaluation of Rotational Flow of a 2×2 Microfluidic Centrifuge with varying Inlet Conditions and Chamber Sizes

Jeon¹,

Kwon²,

Kim³

et al. 2014

Journal of the Korean Society of Visualization

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Abstract. This paper describes the measurement of performance evaluation of rotational flow varying chamber size and Reynolds number. Through the experimental visualization of the flow rotation, the number and position of flow rotation in the 2x2 microfluidic centrifuge were examined. At a chamber width of 250 ㎛, single flow rotation was obtained over at a Reynolds number of 300, while at a chamber width of 500 ㎛, single flow rotation did not appear. For performance evaluation, the intensity in microchamber was measured during 20 sec. At a chamber width of 250 ㎛, performance of rotational flow increased as Reynolds number increased. However, the variation of intensity in microchamber remained unchanged at a chamber width of 500 ㎛. The numerical analysis showed that the threshold centrifugal acceleration to obtain rotational flow for ejected particles was 200g. , 전기장이나 자기장의 영향을 받아 하전 된 물질들이 유동성 매체 내에서 이동하는 전자기영동 [2] , 그리고 이동상과 고정상에 대한 혼합 성분의 인력 차이를 이용한 크로마토그래피 [3] 등이 사용 가능하다. 그러나 이

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Section: 서 론 7)unclassified

Performance Evaluation of Rotational Flow of a 2×2 Microfluidic Centrifuge with varying Inlet Conditions and Chamber Sizes

Jeon¹,

Kwon²,

Kim³

et al. 2014

Journal of the Korean Society of Visualization

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“…Also, microfluidic approaches have been introduced to separate cells and particles suspended in a liquid by using the strong Dean flow obtained in a curved microchannel, 24,25) the pinched flow fractionation obtained in a nonuniform flow, 26) the deterministic lateral displacement generated in a pillar array, 27) and microfiltration. 28,29) Regardless of the potential of the microfluidic approaches to separate cellular vesicles, the successful separation of target vesicles in the range of smaller than 100 nm in size has rarely been reported. Thus, ultracentrifugation has become commonly known as a possible tool in isolating cellular microvesicles in a liquid suspension without any particular labeling or additional biological treatment.…”

Section: Introductionmentioning

confidence: 99%

Separation of Different Sized Nanoparticles with Time Using a Rotational Flow

Kwon

Kim

Park

et al. 2013

Jpn. J. Appl. Phys.

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In this paper, we describe the development of a microfluidic centrifuge with two inlets and two outlets potentially capable of rapidly separating nanoparticles and nanovesicles. Compared with the microfluidic centrifuge with a single inlet and outlet, the 2 ×2 microfluidic centrifuge gives improved centrifugation performance by increasing momentum flux transfer, angular velocity, and centrifugal acceleration. The center of flow rotation and the symmetry of the horizontal velocity in the microchamber were examined numerically. On the basis of the determined maximum velocity, the angular velocity and centrifugal acceleration were also evaluated. The centrifugation time of three different nanoparticles was examined by calculating the time when the nanoparticles left the microchamber for the first time. For visual observation and quantitative measurement of nanoparticle centrifugation, a 2 ×2 microfluidic centrifuge was fabricated and the experimental results demonstrate similar physical behavior to those of a mechanical centrifuge. On the basis of a comparison of the centrifugation time of two different nanoparticle populations of 300 and 700 nm in diameter, we propose that nanoparticles of different sizes can be physically separated by time under a range of inlet volume flow rates.

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“…Also, microfluidic approaches have been introduced to separate cells and particles suspended in a liquid by using the strong Dean flow [5,6] obtained in a curved microchannel, the pinched flow fractionation obtained in a nonuniform flow [7], the deterministic lateral displacement generated in a pillar array [8], and microfiltration [9,10].…”

Section: Introductionmentioning

confidence: 99%

Separation of different sized nanoparticles with time using a rotational flow in a 2×2 microfluidic centrifuge

Kwon

Jeon

Kim

et al. 2013

2013 Transducers &Amp; Eurosensors XXVII: The 17th International Conference on Solid-State Sensors, Actuators and Microsystems

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In this paper, we describe the development of a microfluidic centrifuge with two inlets and two outlets potentially capable of rapidly separating nanoparticles. The center of flow rotation and the symmetry of the horizontal velocity in the microchamber were examined numerically. On the basis of the determined maximum velocity, the angular velocity and centrifugal acceleration were evaluated. On the basis of a comparison of the centrifugation time of two different nanoparticle populations of 300 and 700 nm in diameter, we propose that nanoparticles of different sizes can be physically separated by time under a range of inlet volume flow rates.

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Improvement of Filtration Performance Using Self-Tuning of Flow Resistance

Cited by 4 publications

References 18 publications

Performance Evaluation of Rotational Flow of a 2×2 Microfluidic Centrifuge with varying Inlet Conditions and Chamber Sizes

Performance Evaluation of Rotational Flow of a 2×2 Microfluidic Centrifuge with varying Inlet Conditions and Chamber Sizes

Separation of Different Sized Nanoparticles with Time Using a Rotational Flow

Separation of different sized nanoparticles with time using a rotational flow in a 2×2 microfluidic centrifuge

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Improvement of Filtration Performance Using Self-Tuning of Flow Resistance

Cited by 4 publications

References 18 publications

Performance Evaluation of Rotational Flow of a 2×2 Microfluidic Centrifuge with varying Inlet Conditions and Chamber Sizes

Performance Evaluation of Rotational Flow of a 2×2 Microfluidic Centrifuge with varying Inlet Conditions and Chamber Sizes

Separation of Different Sized Nanoparticles with Time Using a Rotational Flow

Separation of different sized nanoparticles with time using a rotational flow in a 2&#x00D7;2 microfluidic centrifuge

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Separation of different sized nanoparticles with time using a rotational flow in a 2×2 microfluidic centrifuge