Kyoung‐Yong Lee scite author profile

Kyoung‐Yong Lee

5Publications

88Citation Statements Received

28Citation Statements Given

How they've been cited

164

How they cite others

Affiliations

Korea Institute of Industrial Technology, Samsung (South Korea), Wonkwang University

Publications

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Multi-Objective Optimization of the Hydrodynamic Performance of the Second Stage of a Multi-Phase Pump

et al. 2017

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Most multi-phase pumps used in crude oil production have been developed to satisfy certain pressure specifications. In the design of these pumps, the flow characteristics of the posterior stage are different from those of the prior stage. For this reason, the design of the second stage needs to be supplemented. To optimize performance in this stage, multi-objective optimization to simultaneously increase pressure and efficiency is reported in this article. Flow analyses of the single and multiple phases of the multi-phase pump were conducted by solving three-dimensional steady Reynolds-averaged Navier-Stokes equations. For the numerical optimization, two design variables related to the blade inlet angle were selected. The impeller and the diffuser blades were optimized using a systematic optimization technique combined with a central composite method and a hybrid multi-objective evolutionary algorithm coupled with a surrogate model. The selected optimal model yielded better hydrodynamic performance than the base model, and reasons for this are investigated through internal flow field analysis.

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Analysis of internal flow and cavitation characteristics for a mixed-flow pump with various blade thickness effects

Kim

Yang

et al. 2019

J Mech Sci Technol

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Design Optimization of Centrifugal Pump Impellers in a Fixed Meridional Geometry using DOE

Kim¹,

Choi²,

Lee³

et al. 2009

International Journal of Fluid Machinery and Systems

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This paper reports on an investigation (using RSM with commercial CFD software) of the performance characteristics of the impeller in a centrifugal pump. Geometric parameters of vane plane development were defined with the meridional shape and frontal view of the impeller. The parameters are focused on the blade-angle distributions through the impeller in a fixed meridional geometry. For screening, a 2 k factorial design has been used to identify the important design parameters. The objective functions are defined as the total head rise and the total efficiency at the design flow-rate. From the 2 k factorial design results, it is found that the incidence angles and the exit blade angle are the most important parameters influencing the performance of the pump.

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High performance hydraulic design techniques of mixed-flow pump impeller and diffuser

et al. 2015

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Metal artifact reduction and tumor detection using photon-counting multi-energy computed tomography

et al. 2021

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Metal artifacts are considered a major challenge in computed tomography (CT) as these adversely affect the diagnosis and treatment of patients. Several approaches have been developed to address this problem. The present study explored the clinical potential of a novel photon-counting detector (PCD) CT system in reducing metal artifacts in head CT scans. In particular, we studied the recovery of an oral tumor region located under metal artifacts after correction. Three energy thresholds were used to group data into three bins (bin 1: low-energy, bin 2: middle-energy, and bin 3: high-energy) in the prototype PCD CT system. Three types of physical phantoms were scanned on the prototype PCD CT system. First, we assessed the accuracy of iodine quantification using iodine phantoms at varying concentrations. Second, we evaluated the performance of material decomposition (MD) and virtual monochromatic images (VMIs) using a multi-energy CT phantom. Third, we designed an ATOM phantom with metal insertions to verify the effect of the proposed metal artifact reduction. In particular, we placed an insertion-mimicking an iodine-enhanced oral tumor in the beam path of metallic objects. Normalized metal artifact reduction (NMAR) was performed for each energy bin image, followed by an image-based MD and VMI reconstruction. Image quality was analyzed quantitatively by contrast-to-noise ratio (CNR) measurements. The results of iodine quantification showed a good match between the true and measured iodine concentrations. Furthermore, as expected, the contrast between iodine and the surrounding material was higher in bin 1 image than in bin 3 image. On the other hand, the bin 3 image of the ATOM phantom showed fewer metal artifacts than the bin 1 image because of the higher photon energy. The result of quantitative assessment demonstrated that the 40-keV VMI (CNR: 20.6 ± 1.2) with NMAR and MD remarkably increased the contrast of the iodine-enhanced region compared with that of the conventional images (CNR: 10.4 ± 0.5) having 30 to 140 keV energy levels. The PCD-based multi-energy CT imaging has immense potential to maximize the contrast of the target tissue and reduce metal artifacts simultaneously. We believe that it would open the door to novel applications for the diagnosis and treatment of several diseases.

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Kyoung‐Yong Lee

Multi-Objective Optimization of the Hydrodynamic Performance of the Second Stage of a Multi-Phase Pump

Analysis of internal flow and cavitation characteristics for a mixed-flow pump with various blade thickness effects

Design Optimization of Centrifugal Pump Impellers in a Fixed Meridional Geometry using DOE

High performance hydraulic design techniques of mixed-flow pump impeller and diffuser

Metal artifact reduction and tumor detection using photon-counting multi-energy computed tomography

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