• Title/Summary/Keyword: 수력학적 지름

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Potential Change in the Cross Section of the Rectangular Microchannel with Different Hydraulic Diameters (수력학적 지름 변화에 따른 직사각형 마이크로채널 단면에서의 파텐셜 변화)

  • Lee, Hyo Song;Kim, Ki Ho;Yu, Jae Keun;Noh, Soon Young;Choi, Jae Ho;Yoon, Soo Kyung;Rhee, Young Woo
    • Clean Technology
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    • v.12 no.4
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    • pp.211-216
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    • 2006
  • In this study, we investigated the potential changes in the cross sectional area of the rectangular microchannel with various zeta potentials and hydraulic diameters. We changed height/width ratio as 1, 1/2, and 1/3 and investigated its effect on the potential change. For this research, FEMLAB(Comsol, verson 3.0) was used to investigate the theoretical potential distribution. The potential changes in the cross section shows that right and left surfaces affect to some ranges. For the same area and shape, the potential value is directly proportional to the zeta potential change. With the decrease in the H/W ratio, the electrical double layer is condensed to the side surfaces.

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Effects of Backhole on Hyraulics of Liquid Rocket Swirl Coaxial Injector (액체로켓 동축형 스월인젝터에서 Backhole에 의한 수력학적 영향)

  • Hwang Seong-Ha;Seol Jaehoon;Jeong Wonho;Han Poongkyu;Yoon Youngbin
    • Proceedings of the KSME Conference
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    • 2002.08a
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    • pp.287-290
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    • 2002
  • 'Backhole' is an extra empty volume where is located behind the tangential entries at the rear par of the vortex chamber in the swirl coaxial injector. With the backhole, there are three major hydraulic characteristics. First, mass flow rate is increased about $15{\%}$ compared with the case without the backhole. Second, with the backhole, the center region of the injected flow has more large volume than that of without the backhole. The last, some range of the cone angle can be controlled by the backhole Experiments are conducted by using a PDPA apparatus, a mechanical patternator, stroboscopic photography and etc. With the backhole, based on cold-flow tests, the model swirl injector has some Improvement in its performance.

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Sieving the Polymer Chains through Anodic Aluminum Oxide Membranes (Anodic Aluminum Oxide Membrane을 통한 고분자 사슬의 선택적 투과)

  • Choi, Yong-Joon;Lee, Han Sup
    • Membrane Journal
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    • v.26 no.4
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    • pp.291-300
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    • 2016
  • Techniques for selectively separating molecules of gas and liquid states using various separation membranes have been widely used in variety of applications such as chemical, biological, pharmaceutical, and petrochemical industries. As the nanochannel diameter, inter-channel distance and length of the nanochannel of the anodic aluminum oxide (AAO) membranes can be precisely controlled, various studies to effectively separate mixture of various molecules using AAO membrane have been widely carried out. In this study, we fabricated AAO membranes of cylindrical nanochannels of various diameter sizes and of through-hole structure, that is, nanochannels of which both ends of each nanochannel are open. Using those AAO membranes of through-hole nanochannel structure, we studied the selective permeation polymer chains dissolved in a solvent based on hydraulic volume of the polymer chains. We found a precise, quantitative relationship between the radius of gyration of polymer chains that permeated through nanochannels inside AAO membrane and the diameter of nanochannels. In addition, we demonstrate that the behavior of the polymer solution flowing through nanochannel of the AAO membrane can be successfully described with the Hagen-Poiseuille relationship. It is, therefore, possible to theoretically interpret the nanoflow of the solution flowing inside the cylindrical nanochannel.

Preferential Flow as Tested by Breakthrough Curves of Cl- and Cu2+ from Saturated Undisturbed Soil Core Samples under Steady Flow Conditions (포화 불교란 토양시료의 Cl- 및 Cu2+ 출현곡선에 의한 preferential flow의 검증)

  • Yoo, Sun-Ho;Han, Kyung-Hwa;Ro, Hee-Myong;Han, Gwang-Hyun
    • Korean Journal of Soil Science and Fertilizer
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    • v.33 no.2
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    • pp.71-78
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    • 2000
  • Preferential flow has recently been the subject of increasing interest because these phenomena contribute to solute transport in soils. Commonly, preferential flow paths are associated with macropores or highly structured soils. We presented an analysis of the measured breakthrough curves (BTCs) of $Cl^-$ and $Cu^{2+}$ ions to test the occurrence of preferential flow in soils using miscible displacement technique under steady flow conditions. We also analyzed soil water retention curves and from this curves induced cumulative pore size distribution of undisturbed soils, which sampled from Ap1, B1, and C horizons of Songjeong series soils (the fine loamy, mesic family of Typic Hapludults). In this study, miscible displacement experiment on C horizon was excluded, because it is structureless sandy loam with saturated hydraulic conductivity of $5.2cmhr^{-1}$. The saturated hydraulic conductivity of Ap1 horizon was $2.0cmhr^{-1}$, which was about 7 times higher than that of B1 horizon ($0.27cm hr^{-1}$). Cumulative pore size distribution predicted that Ap1 horizon had more macropores (pore diameter larger than $49{\mu}m$, equivalent to -6 kpa of soil matric potential) than B1 horizon. The hydrodynamic dispersion coefficient from chloride BTCs was estimated as $1.3cm^2hr^{-1}$ for B1 and $34cm^2hr^{-1}$ for Ap1 horizon. However the retardation factors of B1 and Ap1 horizon were significantly different, i.e. 1 and 0.6, respectively, which means that there was distinct partition between mobile water and immobile phase in Ap1 horizon. The copper retardation effect of Ap1 horizon was less than that of B1 horizon, even though cation exchange capacity of Ap1 horizon was higher than that of B1 horizon. Thus, breakthrough curves of $Cl^-$ and $Cu^{2+}$ obviously showed the probability that preferential flow would occur in Ap1 horizon.

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