Sun-Seok Byeon scite author profile

Sun-Seok Byeon

5Publications

23Citation Statements Received

20Citation Statements Given

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Sungkyunkwan University

Publications

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Influence of Blade Number on the Flow Characteristics in the Vertical Axis Propeller Hydro Turbine

Byeon¹,

Kim²

2013

International Journal of Fluid Machinery and Systems

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In this paper, the design method of a low-head propeller-type hydro turbine is studied for various numbers of blades on an axial propeller. We also investigate the relationship between geometrical parameters and internal performance parameters, such as angular velocities (100, 200, 300, 400 rpm) and 2.5~4m low heads through a three-dimensional numerical method with the SST turbulent model. The numerical results showed that the blade number had a more dominant influence than the change in heads and rotational speed on the flow characteristics of the turbine. The distributions of pressure and velocity in the streamwise direction of the propeller turbine were graphically depicted. Especially, the relationship among dimensionless parameters like specific speed (N s ), flow coefficient ( φ ) and power coefficient ( � P ) were investigated.

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Performance Characteristics of a 4 × 6 Oil-Free Twin-Screw Compressor

Byeon

Lee²,

Kim

2017

Energies

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The screw compressor in the early stage of development is generally known as the oil-injection type. However, escalating environmental problems and advances in electronic components have spurred continuous R & D to minimize the oil content in compressed air. The oil-free twin-screw compressor is continuously compressed by inner volumetric change between rotors and casing. Fo this reason, in order to predict the overall performance of the screw compressor at the early stage of the design process, industry still relies on the empirical method. However, it is difficult using the existing empirical method to gain more information of the inner fluid flow of the twin-screw compressor. Flow simulation techniques using CFD are required. This study presents applications of a recently proposed overset grid method to the solution of the flow around a moving boundary. In order to analyze the performance of a 4 × 6 oil-free screw compressor, the 3-D, unsteady and compressible flow fields were numerically calculated with a shear stress transport (SST) turbulence model, and implemented by the commercial software, Star-CCM+. The pressure distributions were calculated and graphically depicted. Results also showed that the volumetric and adiabatic efficiencies of the screw compressor measured by the experiments were 78% and 71%, respectively.

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Numerical Study on the Particle Trajectory Tracking in a Micro-UV Bio-Fluorescence Sensor

Byeon¹,

Cho²,

Lee³

et al. 2015

j nanosci nanotechnol

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A micro-UV bio-fluorescence sensor was developed to detect primary biological aerosols including bacteria, bacterial spores, fungal spores, pollens, viruses, algae, etc. In order to effectively detect the bio-particles in a micro-UV bio-fluorescence sensor, numerical calculations were performed to adjust for appropriate flow conditions of the sensor by regulating the sample aerosols and sheath flow. In particular, a CFD-based model of hydrodynamic processes was developed by computing the trajectory of particles using commercially available ANSYS CFX-14 software and the Lagrangian tracking model. The established model was evaluated with regard to the variation of sheath flow rate and particle size. Results showed that the sheath flow was changed rapidly at the end of nozzle tip, but the sample particles moved near the center of aerosol jet for aerodynamic focusing with little deviation from the axis.

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Numerical Study on the Flow Characteristics of the Francis Turbine With Various Blade Profiles

Jeon

Byeon

Kim

2013

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The Francis turbine is a kind of reaction turbines, which means that the potential energy of water converted to rotational kinetic energy. In this study, the flow characteristics have been investigated numerically in a Francis turbine on the 15 MW hydropower generation with various blade profiles (NACA 65 and NACA 16 series) and discharge angles (14°, 15°, 17°, and 18°), using the commercial code, ANSYS CFX. The k-ω SST turbulence model is employed in the Reynolds averaged Navier-Stokes equations. The computing domain includes the spiral casing, guide vanes, and draft tube, which are discretized with a full three-dimensional mesh system of unstructured tetrahedral shapes. The results showed that the change of blade profiles and discharge angles significantly influenced the performance of the Francis turbine.

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Performance Characteristics of an Axial Propeller Small-hydro Turbine with Various Cambers of Runner Blade

Byeon¹,

Kim²,

Han³

et al. 2012

Journal of The korean society for new and renewable energy

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The aim of this paper is to examine the hydraulically optimized camber of a blade. Prior studies have tried to determine the sound method of design on small-hydro turbines. These have appeared to realize a reasonably efficient small-hydro turbine. Nonetheless, specific and accurate design data have not as yet been established for the shape of the runner blade. Hence, this study examines the performance characteristic of an axial propeller turbine with 0~8% camber variations. The results of output power, efficiency, and pressure distribution of the turbine are graphically depicted. The definition of camber refers to the NACA airfoil. The commercial finite element analysis (FEA) packages, ANSYS, and CFX are used in this study. The results revealed the performance characteristics on small-hydro turbine and suggested a highly efficient section shape of the runner.

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Sun-Seok Byeon

Influence of Blade Number on the Flow Characteristics in the Vertical Axis Propeller Hydro Turbine

Performance Characteristics of a 4 × 6 Oil-Free Twin-Screw Compressor

Numerical Study on the Particle Trajectory Tracking in a Micro-UV Bio-Fluorescence Sensor

Numerical Study on the Flow Characteristics of the Francis Turbine With Various Blade Profiles

Performance Characteristics of an Axial Propeller Small-hydro Turbine with Various Cambers of Runner Blade

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