Your search keyword '"Dong-Jin Kang"' showing total 49 results

1. Anomalously large latent heat fluxes in low to moderate wind conditions within the eddy-rich zone of the Northwestern Pacific

Author

Sok Kuh Kang, Eun Jin Kim, Sunghun Kim, Joseph Cione, Dongkyu Lee, Sebastian Landwehr, Hyoun-Woo Kang, Kyeong-Ok Kim, Chang Su Hong, Min Ho Kwon, Kyung-Hee Oh, Jae Hak Lee, Suyun Noh, Jae Kwi So, Dong-Jin Kang, Dongseon Kim, Jae-Hyoung Park, SungHyun Nam, Yang Ki Cho, Brian Ward, and Isaac Ginis

Subjects

latent heat flux, eddy-rich zone, ocean heat content, specific humidity, tropical cyclone-ocean interaction, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

An air-sea interaction field campaign was conducted in September of 2017 within the warm and cold eddy region of the western Northwest Pacific (WNP) (17.5˚-20.5˚N, 127.5˚E-133.5˚E). Both near-surface oceanic and atmospheric conditions in addition to ocean heat content (OHC) were examined to better understand the mechanisms governing high heat flux magnitudes responsible for rapidly intensifying tropical cyclones. Observations from this experiment indicate that the latent heat flux (LHF) under modest wind conditions reached 400 W m-2 within the vicinity of a warm eddy, with OHC higher than 100 kJ cm-2 of warm eddy region being 2~3 times as large as that of cold eddy region. These high OHC and a resultant high LHF in the warm eddy, comparable to the magnitude of LHF in the North Equatorial Current, may explain the mechanism of why tropical cyclones over a warm eddy in eddy-rich zones often rapidly intensify in the WNP. A month later typhoon Lan rapidly intensified into a super typhoon, while passing over the boundary region of warm and cold eddies during the observation period. Results from this study illustrate that both the wind-normalized LHF and the difference (Qs-Qa) between the specific humidity at air (Qa) and at the sea surface (Qs), closely correlate with OHC patterns, which suggests that the ocean looks likely to control the spatial pattern of LHF. Overall, both the ocean and weather conditions govern the pattern of specific humidity difference between the air-sea interface, with large OHC over the warm eddy controlling higher Qs and the pattern of Qa depending on the pattern of wind direction. Qa as a factor impacting LHF magnitude is strongly linked to wind direction in the experimental area, that is, the drier northwesterly flow and southeasterly moist wind, resulting in the enhanced contrast of specific humidity at cold eddy region.

Published

2024

2. Particulate organic carbon export fluxes across the Seychelles-Chagos thermocline ridge in the western Indian Ocean using 234Th as a tracer

Author

Junhyeong Seo, Intae Kim, Dong-Jin Kang, Hyunmi Lee, Jin Young Choi, Kongtae Ra, TaeKeun Rho, Kyungkyu Park, and Suk Hyun Kim

Subjects

POC export flux, Indian Ocean, SCTR, thorium-234, particulate organic carbon, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

We investigated the export flux of particulate organic carbon (POC) using 234Th as a tracer in the western Indian Ocean along 60°E and 67°E transects in 2017 and 2018. The Seychelles-Chagos Thermocline Ridge (SCTR), where production is relatively high due to nutrient replenishment by upwelling of subsurface water, was observed at 3°S – 12°S in 2017 and 4°S – 13°S both 60°E and 67°E in 2018. POC fluxes in 2017 showed no differences between the SCTR and non-SCTR regions. However, in 2018, the POC fluxes in the SCTR regions (8.52 ± 7.89 mmol C m–2 d–1) were one order of magnitude higher than those observed in the non-SCTR regions (0.63 ± 0.07 mmol C m–2 d–1), which appeared to be related to the strong upwelling of subsurface water. These POC fluxes were comparable to those observed under bloom conditions, and thus, are important for estimating the efficiency of carbon sequestration in the ocean.

Published

2024

3. Oxygen isotopic fractionation during dissolved oxygen consumption in the bottom layer of the Ulleung Basin, East/Japan Sea

Author

Yeseul Kim and Dong-Jin Kang

Subjects

dissolved oxygen, oxygen depletion, multiple consumption factors, oxygen isotopic composition, Ulleung Basin, East/Japan Sea, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The interpretation of decline in dissolved oxygen (DO) in the oxygenated bottom water of the Ulleung Basin (UB), southwest of the East/Japan Sea has been challenging because of the integrated influence of various DO-consuming processes. Therefore, the stable oxygen isotopic fractionation of DO was investigated to enhance our understanding of the distinct DO consumption observed in the bottom layers of the center of the UB. We explored the relationship between DO and its oxygen isotope composition (δ18ODO) using data collected at a station located in the center of the UB in 2020, 2021, and 2022. An unforeseen decrease in δ18ODO in the bottom layer (> 1800 m) where DO was depleted was discovered. The overall DO consumption in the mesopelagic water layer (300–1000 m), primarily attributed to water column respiration, exhibited an isotopic fractionation factor (α) with 0.985 ± 0.001 in the δ18ODO/[O2] relationship. The consumptive isotope fractionation factor in the bottom waters near the sediments (approximately 2146 m) showed a value slightly higher (0.988 ± 0.002) than that in the mesopelagic water layer. This isotopic signature is likely due to a smaller fractionation in the bottom waters relative to the mesopelagic water. The isotopic evidence suggests the involvement of mineral oxidation associated with excess dissolved Mn and Fe in the bottom waters because mineral oxidation exhibits a smaller fractionation effect than respiration. Our study demonstrates that DO depletion results from multiple consumption processes, including respiration, mineral oxidation, and diffusive transport, and the isotopic behavior provides evidence that mineral oxidation significantly influences DO consumption.

Published

2024

4. Contribution of aged organic carbon to suspended particulate organic carbon in the western equatorial Indian Ocean

Author

Sujin Kang, Hailong Zhang, Yang Ding, Meixun Zhao, Yeong Baek Son, Purna Son, Tae Keun Rho, and Dong-Jin Kang

Subjects

Indian Ocean, particulate organic carbon, stable carbon isotope, radiocarbon isotope, fossil organic carbon, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

We investigated dual carbon isotopes within the vertical water column at sites 67-1 and 67-2 of the western equatorial Indian Ocean to determine the source and age of particulate organic carbon (POC) and thus evaluated the contributions of modern and fossil (aged) POC. The concentration of POC ranged from 7 to 47.3 μgC L−1, δ13CPOC values ranged from –31.8 to –24.4‰, and Δ14CPOC values ranged from –548 to –111‰. Higher values of δ13CPOC and Δ14CPOC near the surface indicated an influence of autochthonous POC, whereas decreasing trends toward the bottom suggested a contribution of aged OC sources to the total POC pool. The contribution of fossil POC was lower near the surface, accounting for only 12% and 6% of the total POC at sites 67-1 and 67-2, respectively; however, in the deeper layers below 1,000 m, the contribution of fossil POC increased to 52% and 44% of the total POC at the two sites. Mechanisms for the increased contributions of fossil OC within deeper POC include the inflow of aged OC from sediments resuspended near slopes, the adsorption of old dissolved organic carbon in deep water masses, and the impact of aged OC that may originate from hydrothermal sources. This study highlights the importance of aged OC in the carbon cycle of the equatorial Indian Ocean.

Published

2024

5. Design and Mixing Analysis of a Passive Micromixer with Circulation Promoters

Author

Makhsuda Juraeva and Dong-Jin Kang

Subjects

circulation promoter, concave wall, convex wall, degree of mixing (DOM), submerged structure, mixing mechanism, Mechanical engineering and machinery, TJ1-1570

Abstract

A novel passive micromixer equipped with circulation promoters is proposed, and its mixing performance is simulated over a broad range of Reynolds numbers (0.1≤Re≤100). To evaluate the effectiveness of the circulation promoters, three different configurations are analyzed in terms of the degree of mixing (DOM) at the outlet and the associated pressure drop. Compared to other typical passive micromixers, the circulation promoter is shown to significantly enhance mixing performance. Among the three configurations of circulation promoters, Case 3 demonstrates the best performance, with a DOM exceeding 0.96 across the entire range of Reynolds numbers. At Re = 1, the DOM of Case 3 is 3.7 times larger than that of a modified Tesla micromixer, while maintaining a comparable pressure drop. The mixing enhancement of the present micromixer is particularly significant in the low and intermediate ranges of Reynolds numbers (Re<40). In the low range of Reynolds numbers (Re≤1), the mixing enhancement is primarily due to circulation promoters directing fluid flow from a concave wall to the opposite convex wall. In the intermediate range of Reynolds numbers (2≤Re<40), the mixing enhancement results from fluid flowing from one concave wall to another concave wall on the opposite side.

Published

2024

6. Mixing Performance of a Passive Micromixer Based on Split-to-Circulate (STC) Flow Characteristics

Author

Makhsuda Juraeva and Dong-Jin Kang

Subjects

split-to-circulate, submerged circular wall, degree of mixing (DOM), saddle point, flow impingement, concave wall, Mechanical engineering and machinery, TJ1-1570

Abstract

We propose a novel passive micromixer leveraging STC (split-to-circulate) flow characteristics and analyze its mixing performance comprehensively. Three distinct designs incorporating submerged circular walls were explored to achieve STC flow characteristics, facilitating flow along a convex surface and flow impingement on a concave surface. Across a broad Reynolds number range (0.1 to 80), the present micromixer substantially enhances mixing, with a degree of mixing (DOM) consistently exceeding 0.84. Particularly, the mixing enhancement is prominent within the low and intermediate range of Reynolds numbers (0.1

Published

2024

7. Correction: Molecular diversity and spore density of indigenous arbuscular mycorrhizal fungi in acid sulfate soil in Thailand

Author

Masao Higo, Katsunori Isobe, Dong-Jin Kang, Tomiya Maekawa, and Ryuichi Ishii

Subjects

Microbiology, QR1-502

Published

2024

8. Design and Mixing Analysis of a Passive Micromixer Based on Curly Baffles

Author

Makhsuda Juraeva and Dong-Jin Kang

Subjects

signal-to-noise analysis, design parameter, degree of mixing (DOM), curly baffles, most influential design parameter, mixing mechanism, Mechanical engineering and machinery, TJ1-1570

Abstract

A novel passive micromixer based on curly baffles is proposed and optimized through the signal-to-noise analysis of various design parameters. The mixing performance of the proposed design was evaluated across a wide Reynolds number range, from 0.1 to 80. Through the analysis, the most influential parameter was identified, and its value was found to be constant regardless of the mixing mechanism. The optimized design, refined using the signal-to-noise analysis, demonstrated a significant enhancement of mixing performance, particularly in the low Reynolds number range (Re< 10). The design set obtained at the diffusion dominance range shows the highest degree of mixing (DOM) in the low Reynolds number range of Re< 10, while the design set optimized for the convection dominance range exhibited the least pressure drop across the entire Reynolds number spectrum (Re< 80). The present design approach proved to be a practical tool for identifying the most influential design parameter and achieving excellent mixing and pressure drop characteristics. The enhancement is mainly due to the curvature of the most influential design parameter.

Published

2023

9. Mesoscale eddy effects on sea-air CO2 fluxes in the northern Philippine Sea

Author

Dongseon Kim, Seon-Eun Lee, Sosul Cho, Dong-Jin Kang, Geun-Ha Park, and Sok Kuh Kang

Subjects

cyclonic eddy, anticyclonic eddy, sea-air CO2 flux, surface fCO2, philippine sea, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

To determine the effects of mesoscale eddies on sea-air CO2 flux, we investigated the surface fugacity of CO2 (surface fCO2) distribution in the northern Philippine Sea, where mesoscale eddies are common. Surface fCO2 showed large spatial variations, such that values were high in the non-eddy and cyclonic eddy regions, while they were low within the anticyclonic eddy. The maximum fCO2 was observed in the non-eddy region; higher fCO2 values were observed in the area surrounding the cyclonic eddy than at the center of the cyclonic eddy. Within the cyclonic eddy, the contribution of dissolved inorganic carbon (DIC) enrichment because of upwelling was considerably offset by cooling. In the non-eddy region, the contribution of DIC enrichment from upwelling was rarely offset by cooling; thus, the maximum fCO2 was observed in the non-eddy region. Surface fCO2 showed a robust correlation with sea surface temperature (SST) within the cyclonic and anticyclonic eddies, but it did not display any correlation in the non-eddy region. Temperature was a major factor that controlled surface fCO2 in the anticyclonic eddy, but this effect was absent in the cyclonic eddy. Temperature-normalized fCO2 exhibited a clear negative relationship with SST in the cyclonic eddy and the non-eddy region, indicating that surface fCO2 was considerably affected by the upwelling of high-fCO2 deep water in both regions. Sea-air CO2 fluxes ranged from 0.011 to 9.92 mmol m-2 day-1 and all values were positive, indicating that the entire study area acted as a CO2 source during the research period. The estimated mean sea-air CO2 fluxes in the cyclonic eddy, anticyclonic eddy, and non-eddy region were 1.10 ± 0.75, 0.64 ± 0.66, and 1.42 ± 1.12 mmol m-2 day-1, respectively. The sea-air CO2 fluxes considerably varied according to eddy type; they were almost twofold higher in the cyclonic eddy than in the anticyclonic eddy. In the cyclonic eddy and non-eddy regions, upwelling caused surface fCO2 to increase, thereby increasing sea-air CO2 flux.

Published

2022

10. Development of clinical application program for radiotherapy induced cancer risk calculation using Monte Carlo engine in volumetric-modulated arc therapy

Author

Dong-Jin Kang, Young-Joo Shin, Seonghoon Jeong, Jae-Yong Jung, Hakjae Lee, and Boram Lee

Subjects

TPS, Monte Carlo, Secondary cancer risk, Clinical application program, Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The purpose of this study is to develop a clinical application program that automatically calculates the effect for secondary cancer risk (SCR) of individual patient. The program was designed based on accurate dose calculations using patient computed tomography (CT) data and Monte Carlo engine. Automated patient-specific evaluation program was configured to calculate SCR. Methods The application program is designed to re-calculate the beam sequence of treatment plan using the Monte Carlo engine and patient CT data, so it is possible to accurately calculate and evaluate scatter and leakage radiation, difficult to calculate in TPS. The Monte Carlo dose calculation system was performed through stoichiometric calibration using patient CT data. The automatic SCR evaluation program in application program created with a MATLAB was set to analyze the results to calculate SCR. The SCR for organ of patient was calculated based on Biological Effects of Ionizing Radiation (BEIR) VII models. The program is designed to sequentially calculate organ equivalent dose (OED), excess absolute risk (EAR), excess relative risk (ERR), and the lifetime attributable risk (LAR) in consideration of 3D dose distribution analysis. In order to confirm the usefulness of the developed clinical application program, the result values from clinical application program were compared with the manual calculation method used in the previous study. Results The OED values calculated in program were calculated to be at most approximately 13.3% higher than results in TPS. The SCR result calculated by the developed clinical application program showed a maximum difference of 1.24% compared to the result of the conventional manual calculation method. And it was confirmed that EAR, ERR and LAR values can be easily calculated by changing the biological parameters. Conclusions We have developed a patient-specific SCR evaluation program that can be used conveniently in the clinic. The program consists of a Monte Carlo dose calculation system for accurate calculation of scatter and leakage radiation and a patient-specific automatic SCR evaluation program using 3D dose distribution. The clinical application program that improved the disadvantages of the existing process can be used as an index for evaluating a patient treatment plan.

Published

2021

11. Mixing Performance of a Passive Micromixer Based on Multiple Baffles and Submergence Scheme

Author

Makhsuda Juraeva and Dong-Jin Kang

Subjects

degree of mixing (DOM), mixing energy cost (MEC), multiple baffles, submergence scheme, dean vortex, Mechanical engineering and machinery, TJ1-1570

Abstract

A novel passive micromixer based on multiple baffles and a submergence scheme was designed, and its mixing performance was simulated over a wide range of Reynolds numbers ranging from 0.1 to 80. The degree of mixing (DOM) at the outlet and the pressure drop between the inlets and outlet were used to assess the mixing performance of the present micromixer. The mixing performance of the present micromixer showed a significant enhancement over a wide range of Reynolds numbers (0.1 ≤ Re ≤ 80). The DOM was further enhanced by using a specific submergence scheme. At low Reynolds numbers (Re < 5), submergence scheme Sub24 produced the highest DOM, approximately 0.57, which was 1.38 times higher than the case with no submergence. This enhancement was due to the fluid flowing from or toward the submerged space, creating strong upward or downward flow at the cross-section. At high Reynolds numbers (Re > 10), the DOM of Sub1234 became the highest, reaching approximately 0.93 for Re = 20, which was 2.75 times higher than the case with no submergence. This enhancement was caused by a large vortex formed across the whole cross-section, causing vigorous mixing between the two fluids. The large vortex dragged the interface between the two fluids along the vortex perimeter, elongating the interface. The amount of submergence was optimized in terms of DOM, and it was independent of the number of mixing units. The optimum submergence values were 90 μm for Sub24 and Re = 1, 100 μm for Sub234 and Re = 5, and 70 μm for Sub1234 and Re = 20.

Published

2023

12. Identification of a Major Locus for Lodging Resistance to Typhoons Using QTL Analysis in Rice

Author

Dan-Dan Zhao, Yoon-Hee Jang, Eun-Gyeong Kim, Jae-Ryoung Park, Rahmatullah Jan, Lubna, Sajjad Asaf, Saleem Asif, Muhammad Farooq, Hyunjung Chung, Dong-Jin Kang, and Kyung-Min Kim

Subjects

quantitative trait locus, lodging resistance, typhoon, cytochrome P450, rice breeding, climate change, Botany, QK1-989

Abstract

We detected a new target quantitative trait locus (QTL) for lodging resistance in rice by analyzing lodging resistance to typhoons (Maysak and Haishen) using a scale from 0 (no prostrating) to 1 (little prostrating or prostrating) to record the resistance score in a Cheongcheong/Nagdong double haploid rice population. Five quantitative trait loci for lodging resistance to typhoons were detected. Among them, qTyM6 and qTyH6 exhibited crucial effects of locus RM3343–RM20318 on chromosome 6, which overlaps with our previous rice lodging studies for the loci qPSLSA6-2, qPSLSB6-5, and qLTI6-2. Within the target locus RM3343–RM20318, 12 related genes belonging to the cytochrome P450 protein family were screened through annotation. Os06g0599200 (OsTyM/Hq6) was selected for further analysis. We observed that the culm and panicle lengths were positively correlated with lodging resistance to typhoons. However, the yield was negatively correlated with lodging resistance to typhoons. The findings of this study improve an understanding of rice breeding, particularly the culm length, early maturing, and heavy panicle varieties, and the mechanisms by which the plant’s architecture can resist natural disasters such as typhoons to ensure food safety. These results also provide the insight that lodging resistance in rice may be associated with major traits such as panicle length, culm length, tiller number, and heading date, and thereby improvements in these traits can increase lodging resistance to typhoons. Moreover, rice breeding should focus on maintaining suitable varieties that can withstand the adverse effects of climate change in the future and provide better food security.

Published

2023

13. Sound Scattering Layers Within and Beyond the Seychelles-Chagos Thermocline Ridge in the Southwest Indian Ocean

Author

Myounghee Kang, Jung-Hoon Kang, Minju Kim, SungHyun Nam, Yeon Choi, and Dong-Jin Kang

Subjects

sound scattering layer, echosounder, frequency response, Seychelles-Chagos Thermocline Ridge, southwest Indian Ocean, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

In global oceans, ubiquitous and persistent sound scattering layers (SL) are frequently detected with echosounders. The southwest Indian Ocean has a unique feature, a region of significant upwelling known as the Seychelles-Chagos Thermocline Ridge (SCTR), which affects sea surface temperature and marine ecosystems. Despite their importance, sound SL within and beyond the SCTR are poorly understood. This study aimed to compare the characteristics of the sound SL within and beyond the SCTR in connection with environmental properties, and dominant zooplankton. To this end, the region north of the 12°S latitude in the survey area was defined as SCTR, and the region south of 12°S was defined as non-SCTR. The results indicated contrasting oceanographic properties based on the depth layers between SCTR and non-SCTR regions. Distribution dynamics of the sound SL differed between the two regions. In particular, the diel vertical migration pattern, acoustic scattering values, metrics, and positional properties of acoustic scatterers showed two distinct features. In addition, the density of zooplankton sampled was higher in SCTR than in the non-SCTR region. This is the first study to present bioacoustic and hydrographic water properties within and beyond the SCTR in the southwest Indian Ocean.

Published

2021

14. Turnover Time of the East Sea (Sea of Japan) Meridional Overturning Circulation

Author

MyeongHee Han, Yeon S. Chang, Hyoun-Woo Kang, Dong-Jin Kang, and Yong Sun Kim

Subjects

turnover time, East Sea, meridional overturning circulation, shallow convection, deep convection, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The East Sea (ES; Sea of Japan) meridional overturning circulation (MOC) serves as a crucial mechanism for the transportation of dissolved, colloidal, and suspended particulate matters, including pollutants, on the surface to deep waters via thermohaline circulation. Therefore, understanding the structure of the ES MOC is critical for characterizing its temporal and spatial distribution. Numerous studies have estimated these parameters indirectly using chemical tracers, severely limiting the accuracy of the results. In this study, we provide a method for directly estimating the turnover times of the ES MOC using the stream functions calculated from HYbrid Coordinate Ocean Model (HYCOM) reanalysis data by averaging the flow pattern in the meridional 2-D plane. Because the flow pattern is not consistent but various over time, three cases of stream function fields were computed over a 20-year period. The turnover time was estimated by calculating the time required for water particles to circulate along the streamlines. In the cases of multiple (two or three) convection cells, we considered all possible scenarios of the exchange of water particles between adjacent cells, so that they circulated over those cells until finally returning to the original position and completing the journey on the ES MOC. Three different cell cases were tested, and each case had different water particle exchange scenarios. The resulting turnover times were 17.91–58.59 years, 26.41–37.28 years, and 8.68–45.44 years for the mean, deep, and shallow convection cases, respectively. The maximum turnover time, namely 58.59 years, was obtained when circulating the water particle over all three cells, and it was approximately half of that estimated by the chemical tracers in previous studies (∼100 years). This underestimation arose because the streamlines and water particle movement were not calculated in the shallow (3,000 m) in this study. Regardless, the results of this study provide insight into the ES MOC dynamics and indicate that the traditional chemical turnover time represents only one of the various turnover scenarios that could exist in the ES.

Published

2021

15. Mixing Performance of the Modified Tesla Micromixer with Tip Clearance

Author

Makhsuda Juraeva and Dong-Jin Kang

Subjects

degree of mixing (DOM), modified Tesla micromixer, tip clearance, symmetric counter-rotating vortices, drag and connection of interface, Mechanical engineering and machinery, TJ1-1570

Abstract

A passive micromixer based on the modified Tesla mixing unit was designed by embedding tip clearance above the wedge-shape divider, and its mixing performance was simulated over a wider range of the Reynolds numbers from 0.1 to 80. The mixing performance was evaluated in terms of the degree of mixing (DOM) at the outlet and the required pressure load between inlet and outlet. The height of tip clearance was varied from 40 μm to 80 μm, corresponding to 25% to 33% of the micromixer depth. The numerical results show that the mixing enhancement by the tip clearance is noticeable over a wide range of the Reynolds numbers Re < 50. The height of tip clearance is optimized in terms of the DOM, and the optimum value is roughly h = 60 μm. It corresponds to 33% of the present micromixer depth. The mixing enhancement in the molecular diffusion regime of mixing, Re ≤ 1, is obtained by drag and connection of the interface in the two sub-streams of each Tesla mixing unit. It appears as a wider interface in the tip clearance zone. In the intermediate range of the Reynolds number, 1 < Re ≤ 50, the mixing enhancement is attributed to the interaction of the flow through the tip clearance and the secondary flow in the vortex zone of each Tesla mixing unit. When the Reynolds number is larger than about 50, vortices are formed at various locations and drive the mixing in the modified Tesla micromixer. For the Reynolds number of Re = 80, a pair of vortices is formed around the inlet and outlet of each Tesla mixing unit, and it plays a role as a governing mechanism in the convection-dominant regime of mixing. This vortex pattern is little affected as long as the tip clearance remains smaller than about h = 70 μm. The DOM at the outlet is little enhanced by the presence of tip clearance for the Reynolds numbers Re ≥ 50. The tip clearance contributes to reducing the required pressure load for the same value of the DOM.

Published

2022

16. Mixing Performance of a Passive Micro-Mixer with Mixing Units Stacked in Cross Flow Direction

Author

Makhsuda Juraeva and Dong-Jin Kang

Subjects

passive micro-mixer, mixing unit, cross flow direction, baffle impingement, swirl motion, mixing performance, Mechanical engineering and machinery, TJ1-1570

Abstract

A new passive micro-mixer with mixing units stacked in the cross flow direction was proposed, and its performance was evaluated numerically. The present micro-mixer consisted of eight mixing units. Each mixing unit had four baffles, and they were arranged alternatively in the cross flow and transverse direction. The mixing units were stacked in four different ways: one step, two step, four step, and eight step stacking. A numerical study was carried out for the Reynolds numbers from 0.5 to 50. The corresponding volume flow rate ranged from 6.33 μL/min to 633 μL/min. The mixing performance was analyzed in terms of the degree of mixing (DOM) and relative mixing energy cost (MEC). The numerical results showed a noticeable enhancement of the mixing performance compared with other micromixers. The mixing enhancement was achieved by two flow characteristics: baffle wall impingement by a stream of high concentration and swirl motion within the mixing unit. The baffle wall impingement by a stream of high concentration was observed throughout all Reynolds numbers. The swirl motion inside the mixing unit was observed in the cross flow direction, and became significant as the Reynolds number increased to larger than about five. The eight step stacking showed the best performance for Reynolds numbers larger than about two, while the two step stacking was better for Reynolds numbers less than about two.

Published

2021

17. Optimal Combination of Mixing Units Using the Design of Experiments Method

Author

Makhsuda Juraeva and Dong-Jin Kang

Subjects

degree of mixing, statistical significance, mixing cell with baffles (MC-B), cross-channel SAR (CC-SAR), combination scheme, Mechanical engineering and machinery, TJ1-1570

Abstract

A passive micromixer was designed by combining two mixing units: the cross-channel split and recombined (CC-SAR) and a mixing cell with baffles (MC-B). The passive micromixer was comprised of eight mixing slots that corresponded to four combination units; two mixing slots were grouped as one combination unit. The combination of the two mixing units was based on four combination schemes: (A) first mixing unit, (B) first combination unit, (C) first combination module, and (D) second combination module. The statistical significance of the four combination schemes was analyzed using analysis of variance (ANOVA) in terms of the degree of mixing (DOM) and mixing energy cost (MEC). The DOM and MEC were simulated numerically for three Reynolds numbers (Re = 0.5, 2, and 50), representing three mixing regimes. The combination scheme (B), using different mixing units in the first two mixing slots, was significant for Re = 2 and 50. The four combination schemes had little effect on the mixing performance of a passive micromixer operating in the mixing regime of molecular dominance. The combination scheme (B) was generalized to arbitrary mixing slots, and its significance was analyzed for Re = 2 and 50. The general combination scheme meant two different mixing units in two consecutive mixing slots. The numerical simulation results showed that the general combination scheme was statistically significant in the first three combination units for Re = 2, and significant in the first two combination units for Re = 50. The combined micromixer based on the general combination scheme throughout the entire micromixer showed the best mixing performance over a wide range of Reynolds numbers, compared to other micromixers that did not adopt completely the general combination scheme. The most significant enhancement due to the general combination scheme was observed in the transition mixing scheme and was negligible in the molecular dominance scheme. The combination order was less significant after three combination units.

Published

2021

18. Fabrication of Polymerase Chain Reaction Plastic Lab-on-a-Chip Device for Rapid Molecular Diagnoses

Author

Kieu The Loan Trinh, Hainan Zhang, Dong-Jin Kang, Sung-Hyun Kahng, Ben D. Tall, and Nae Yoon Lee

Subjects

Plastics, Poly(methylmethacrylate), Lab-on-a-Chip Devices, Polymerase Chain Reaction, Diagnosis, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Purpose: We aim to fabricate a thermoplastic poly(methylmethacrylate) (PMMA) Lab-on-a-Chip device to perform continuous- flow polymerase chain reactions (PCRs) for rapid molecular detection of foodborne pathogen bacteria. Methods: A miniaturized plastic device was fabricated by utilizing PMMA substrates mediated by poly(dimethylsiloxane) interfacial coating, enabling bonding under mild conditions, and thus avoiding the deformation or collapse of microchannels. Surface characterizations were carried out and bond strength was measured. The feasibility of the Lab-on-a-Chip device for performing on-chip PCR utilizing a lab-made, portable dual heater was evaluated. The results were compared with those obtained using a commercially available thermal cycler. Results: A PMMA Lab-on-a-Chip device was designed and fabricated for conducting PCR using foodborne pathogens as sample targets. A robust bond was established between the PMMA substrates, which is essential for performing miniaturized PCR on plastic. The feasibility of on-chip PCR was evaluated using Escherichia coli O157:H7 and Cronobacter condimenti, two worldwide foodborne pathogens, and the target amplicons were successfully amplified within 25 minutes. Conclusions: In this study, we present a novel design of a low-cost and high-throughput thermoplastic PMMA Lab-on-a-Chip device for conducting microscale PCR, and we enable rapid molecular diagnoses of two important foodborne pathogens in minute resolution using this device. In this regard, the introduced highly portable system design has the potential to enable PCR investigations of many diseases quickly and accurately.

Published

2016

19. Symmetry Identities of Changhee Polynomials of Type Two

Author

Joohee Jeong, Dong-Jin Kang, and Seog-Hoon Rim

Subjects

Changhee polynomials, Changhee polynomials of type two, fermionic p-adic integral on ℤp, Mathematics, QA1-939

Abstract

In this paper, we consider Changhee polynomials of type two, which are motivated from the recent work of D. Kim and T. Kim. We investigate some symmetry identities for the Changhee polynomials of type two which are derived from the properties of symmetry for the fermionic p-adic integral on Z p .

Published

2018

20. Inoculation with Arbuscular Mycorrhizal Fungi or Crop Rotation with Mycorrhizal Plants Improves the Growth of Maize in Limed Acid Sulfate Soil

Author

Masao Higo, Katsunori Isobe, Dong-Jin Kang, Kazuhiro Ujiie, Rhae Drijber, and Ryuichi Ishii

Subjects

Acid sulfate soil, Arbuscular mycorrhizal fungi, Maize, Preceding crops, Plant culture, SB1-1110

Abstract

Arbuscular mycorrhizal fungi (AMF) improve the uptake of immobile mineral nutrients such as phosphate, thereby improving plant growth. In acid sulfate soil (ASS), AMF spore density is generally low which impacts root colonization and phosphate uptake. Thus, inoculation may help increase AMF colonization of crops grown in ASS. AMF spore density decreases after cultivation of a non-host crop or bare fallow. In addition, preceding crops affect the growth and yield of subsequent crops. The production of AMF inocula requires AMF-compatible plants. The objective of the present study is to elucidate the effect of preceding crops on the persistence of inoculated AMF and growth of succeeding maize under an ASS condition with lime application. Spore density of AMF after cultivation of preceding crops (soybean or job’s tears) was maintained in comparison to fallow leading to higher AMF colonization of maize and improved plant growth. Thus, maintenance of AMF spore density, either through selection of preceding crops or application of AMF inoculum, may be a viable strategy to improve maize growth in limed ASS of Thailand.

Published

2010

21. High-Yielding Performance of A New Rice Variety, Ir53650In Mildly Improved Acid Sulfate Soil Conditions

Author

Dong-Jin Kang, Koichi Futakuchi, Somsot Dumnoenngam, Ishii Ryuichi, and Ryuichi Ishii

Subjects

Acid soil tolerant variety, Acid sulfate soil, Lime, Oryza sativa L., Rice, Thailand, Yielding performance, Plant culture, SB1-1110

Published

2007

22. Cadmium Phytoremediation Potential of Napiergrass Cultivated in Kyushu, Japan

Author

Yasuyuki Ishii, Kotomi Hamano, Dong-Jin Kang, Sachiko Idota, and Aya Nishiwaki

Subjects

Agriculture (General), S1-972, Environmental sciences, GE1-350

Abstract

Napiergrass (Pennisetum purpureum Schumach), a C4 tropical species, has been used for forage since it has high dry matter productivity, sustainability over several years in low-altitudinal sites of Kyushu, and little damage from serious pests. Recently, this grass has gained attention due to its potential as a bioethanol feedstock and for phytoremediation. Napiergrass cultivar Wruk Wona was grown as an annual crop in cadmium- (Cd-) contaminated soils under two cutting frequencies. Annual dry matter yield was not affected significantly by cutting frequency, but the concentration and uptake of Cd were higher when cut twice rather than only once, due to high Cd content of the herbage from the second cutting. Therefore, the soil Cd concentration was reduced by 4.6% when managed by cutting twice in a single year of Napiergrass cultivation.

Published

2015

23. Formation of Organic Acids in the Root Apices of Rice Plants (Oryza sativa L.) Grown in Acidic Nutrient Solution Containing Aluminum

Author

Dong-Jin Kang and Ryuichi Ishii

Subjects

Acid soil, Aluminum, Citrate, Organic acid, Oryza sativa L., Rice, Root apex, Plant culture, SB1-1110

Published

2006

24. Changhee-Genocchi Numbers And Their Applications.

Author

Hong-Kyung Pak, Joohee Jeong, Dong-Jin Kang, and Seog-Hoon Rim

Published

2018

25. Particulate organic carbon export fluxes across the Seychelles-Chagos thermocline ridge in the western Indian Ocean using 234Th as a tracer.

Author

Junhyeong Seo, Intae Kim, Dong-Jin Kang, Hyunmi Lee, Jin Young Choi, Kongtae Ra, TaeKeun Rho, Kyungkyu Park, and Suk Hyun Kim

Subjects

COLLOIDAL carbon, OCEAN, CARBON sequestration

Abstract

We investigated the export flux of particulate organic carbon (POC) using 234Th as a tracer in the western Indian Ocean along 60°E and 67°E transects in 2017 and 2018. The Seychelles-Chagos Thermocline Ridge (SCTR), where production is relatively high due to nutrient replenishment by upwelling of subsurface water, was observed at 3°S - 12°S in 2017 and 4°S - 13°S both 60°E and 67°E in 2018. POC fluxes in 2017 showed no differences between the SCTR and non-SCTR regions. However, in 2018, the POC fluxes in the SCTR regions (8.52 ± 7.89 mmol C m-2 d-1) were one order of magnitude higher than those observed in the non-SCTR regions (0.63 ± 0.07 mmol C m-2 d-1), which appeared to be related to the strong upwelling of subsurface water. These POC fluxes were comparable to those observed under bloom conditions, and thus, are important for estimating the efficiency of carbon sequestration in the ocean. [ABSTRACT FROM AUTHOR]

Published

2024

26. Effects of Baffle Configuration on Mixing in a T-Shaped Micro-Channel.

Author

Dong-Jin Kang

Published

2015

27. A Note on Generalized Net Model of E-Learning Evaluation Associated with Intuitionistic Fuzzy Estimations.

Author

Anthony G. Shannon, Evdokia Sotirova, Krassimir T. Atanassov, Maciej Krawczak, Pedro Melo-Pinto, Taekyun Kim 0001, Lee-Chae Jang, Dong-Jin Kang, and Seog-Hoon Rim

Published

2006

28. A Note on E-Learning Dynamic Assessment with Fuzzy Estimations.

Author

Daniela Orozova, Taekyun Kim 0001, Yung-Hwan Kim, Dal-Won Park, Jong-Jin Seo, Krassimir T. Atanassov, Dong-Jin Kang, Seog-Hoon Rim, Lee-Chae Jang, and Cheon Seoung Ryoo

Published

2005

29. GEeneralized Net Model of Intranet in an Abstract University with Current Estimations.

Author

Daniela Langova-Orozova, Evdokia Sotirova, Krassimir T. Atanassov, Pedro Melo-Pinto, Taekyun Kim 0001, Dal-Won Park, Yung-Hwan Kim, Lee-Chae Jang, and Dong-Jin Kang

Published

2005

30. A Generalized Net Model on University Electronic Archives.

Author

Anthony G. Shannon, Daniela Langova-Orozova, Evdokia Sotirova, Krassimir T. Atanassov, Pedro Melo-Pinto, Taekyun Kim 0001, Lee-Chae Jang, and Dong-Jin Kang

Published

2004

31. Use of LC-Orbitrap MS and FT-NIRS with multivariate analysis to determine geographic origin of Boston butt pork.

Author

Ji Hye, Lee, Jae Min, An, Dong Jin, Kang, Ho Jin, Kim, and Seong Hun, Lee

Subjects

MULTIVARIATE analysis, METABOLITES

Abstract

To avoid fraudulent practices, LC-Orbitrap and FT-NIRS combined with multivariate analysis was used to distinguish between 53 Korean and foreign Boston butt samples; forty were used to establish the calibration model and 13 were used as an external validation set. Twenty metabolites were determined to be good indicators of geographic origin. Both LC-Orbitrap with CDA model based on 20 metabolites and FT-NIRS with PLS achieved 100% efficiency in identifying Korean and foreign samples; overall predictive rates for LC-Orbitrap (94.9%) and FT-NIRS (100%). Thus, combined use of LC-Orbitrap and FT-NIRS could be proposed to determine reliably discriminate geographic origins of pork samples. [ABSTRACT FROM AUTHOR]

Published

2022

32. Spatial and Temporal Variation of Dissolved Inorganic Radiocarbon in the East Sea.

Author

Bo-Ram Sim, Dong-Jin Kang, Young Gyu Park, and Kyung-Ryul Kim

Subjects

SEAWATER composition, CARBON isotopes, INORGANIC compounds, GEOMAGNETIC secular variation, GEOLOGICAL basins

Abstract

This study examined the spatial and temporal variation of dissolved inorganic radiocarbon in the East Sea. Five vertical profiles of radiocarbon values were obtained from samples collected in 1999 in three basins (Japan Basin, Ulleung Basin, Yamato Basin) of the East Sea. Radiocarbon values decreased from 63- 85‰ at the surface to about -50‰ with increasing depth (up to 2,000 m) and were nearly constant in the layer deeper than 2,000 m in all basins. Radiocarbon values did not show significant basin-to-basin differences in the surface and the bottom layers. In the intermediate layer (200-2,000 m), however, they decreased in the order of Japan Basin > Ulleung Basin > Yamato Basin, which is consistent with the suggested circulation pattern in the intermediate layer of the East Sea. Radiocarbon was found to have decreased at ~2%/year in the surface water of the East Sea. In contrast, in the interior of the East Sea, radiocarbon values have increased with time in all three basins. In the Central Water, the annual increase rate was about 3.3‰, which is faster than the rates in the Deep and Bottom Waters. The radiocarbon in the Deep and Bottom Waters had increased until mid-1990s, after which time it has been almost constant. [ABSTRACT FROM AUTHOR]

Published

2014

33. Two-dimensional Oxygen Distribution in a Surface Sediment Layer Measured Using an RGB Color Ratiometric Oxygen Planar Optode.

Author

Jae Seong Lee, Eun-Soo Kim, Sung-Uk An, Jihye Kim, Joung-Keun Kim, Sung-Hyun Khang, and Dong-Jin Kang

Published

2013

34. Size-Controlled Polymer-Coated Nanoparticles as Efficient Compatibilizers for Polymer Blends.

Author

Taegyun Kwon, Taesu Kim, Fathilah binti Ali, Dong Jin Kang, Misang Yoo, Joona Bang, Wonbo Lee, and Bumjoon J. Kim

Published

2011

35. Synergistic effect on crystalline structure of polyvinylidene fluoride nanocomposites with multiwalled carbon nanotube loading by a twin screw extruder.

Author

Dong Jin Kang, Kaushik Pal, Dae Suk Bang, and Jin Kuk Kim

Subjects

CARBON nanotubes, SCANNING electron microscopes, X-ray diffraction, PERCOLATION, DIELECTRICS

Abstract

Polyvinylidene fluoride (PVDF)/multiwalled carbon nanotube (MWCNT) composites were prepared by using twin screw extruder at various (0-5 wt %) MWCNT loadings. Field Emission Scanning Electron Microscope (FESEM) micrographs showed a relatively good dispersion and random distribution of MWCNT in PVDF matrix. The physical and dielectric properties increased gradually with the increase in MWCNT content but the thermal stability decreased. The DSC result revealed the increase in crystallinity of the PVDF matrix. Wide angle X-Ray diffraction (WAXD) result showed a large shoulder at 2θ of 20.78° with increasing in MWCNT content. The experimental percolation threshold for the surface resistance of PVDF/MWCNT composites were estimated and clearly observed at 4 wt % of MWCNT loading. © 2011 Wiley Periodicals, Inc. J Appl Polym Sci, 2011 [ABSTRACT FROM AUTHOR]

Published

2011

36. Emissions of Halogenated Compounds in East Asia Determined from Measurements at Jeju Island, Korea.

Author

Shanlan Li, Jooil Kim, Kyung-Ryul Kim, Jens Mühle, Seung-Kyu Kim, Mi-Kyung Park, Stohl, Andreas, Dong-Jin Kang, Arnold, Tim, Harth, Christina M., Salameh, Peter K., and Weiss, Ray F.

Published

2011

37. Dissolved Oxygen at the Bottom Boundary Layer of the Ulleung Basin, East Sea.

Author

Dong-Jin Kang, Yun-Bae Kim, and Kyung-Ryul Kim

Subjects

DISSOLVED oxygen in water

Published

2010

38. Effect of Filler and Urethane Rubber on NR/BR with Nanosilica: Morphology and Wear.

Author

PAL, KAUSHIK, RAJASEKAR, R., DONG JIN KANG, ZHEN XIU ZHANG, PAL, SAMIR K., DAS, CHAPAL K., and JIN KUK KIM

Subjects

FILLER materials, URETHANE rubber, NANOSILICON, POLYMERIC composites, MECHANICAL wear

Abstract

The blends of butadiene rubber (BR), urethane rubber (EU) and natural rubber (NR) was prepared using a blending technique in presence of different types of carbon black. The effect of filler on morphological and wear characteristics was studied. ISAF type of carbon black showed a significant effect on optimum cure time, cure rate index and mechanical properties by reacting at the interface between BR, EU and NR matrix. All the samples show only one melting peak on the DSC curve; this is attributed to the same backbone structure of the matrix and the carbon black reinforcement. Blends containing ISAF type of carbon black showed high abrasion resistant properties against Du-Pont abrader, DIN abrader and different mining rock surfaces and also is found to be the toughest rubber against all types of rock. [ABSTRACT FROM AUTHOR]

Published

2010

39. Distribution of Organochlorine Pesticides in Intertidal and Subtidal Sediments in Coastal Wetland with High Tidal Ranges.

Author

Seung-Kyu Kim, Dong-Jin Kang, Kyung-Ryul Kim, and Dong Lee

Subjects

ORGANOCHLORINE compounds, PESTICIDE pollution, WETLANDS, AQUATIC organisms, MARINE sediments, COASTS

Abstract

The present study aimed to understand the distribution characteristics of organochlorine pesticides (OCPs) in wetlands experiencing high tides and the manner in which these characteristics are affected by various factors, in particular, two distinct physical and topographical features (i.e., sub- and intertidal zones). For all OCPs except HCHs, the distribution levels were higher in the intertidal zone than in the subtidal zone. The spatial heterogeneity in the isomer compositional pattern, distribution levels, and correlation among individual OCPs were pronounced in the intertidal zone. Spatial homogeneity was observed within the subtidal zone, indicating that the effect of flushing and mixing was strong enough to diminish the potential local concentration peaks and unique composition pattern. It was evident that input paths and their strength impact the horizontal and transversal distribution of OCPs. The OCP group-specific discrepancy in spatial distribution suggested that (1) chlordane and chlorobenzenes were from a single dominant innermost terrestrial input path, (2) DDTs were from multiple terrestrial input paths, and (3) HCH was likely to be from the outer sea. The observations in this study imply that (1) benthic organisms could experience greater exposure in the intertidal basin than in the subtidal zone and (2) management measures of OCPs should be set after considering the tidal effect and the OCP-specific input paths. [ABSTRACT FROM AUTHOR]

Published

2010

40. Microcellular Structure of PP/Waste Rubber Powder Blends with Supercritical CO2 by Foam Extrusion Process.

Author

Zhen Xiang Xin, Zhen Xiu Zhang, Kaushik Pal, Kwang-Jea Kim, Dong Jin Kang, Jin Kuk Kim, and Dae-Suk Bang

Subjects

HUNTINGTON disease, SIZE reduction of materials, EXTRUSION process, POWER presses, WASTE recycling

Abstract

A new approach towards the recycling of waste ground rubber tire (WGRT) powder was demonstrated in this study by introducing the polypropylene/ waste ground rubber tire (PP/WGRT) foaming method by using CO2 as the foaming agent in an extrusion foaming process. The regression models were constructed to study the relationships between the foam structure (i.e., void fraction, average cell size, and cell density) of foamed PP/WGRT blends, the processing parameters (extruder's die temperature and CO2 concentration), and WGRT content by applying a three-factor central composite design (CCD) statistical approach. The response surface plots generated using the regression models allow the rapid selection of the proper process parameters to obtain microcellular PP/WGRT blends with the desired density and morphology. [ABSTRACT FROM AUTHOR]

Published

2009

41. Status of Naming the East Sea in International Scientific Journals.

Author

Dong-Jin Kang, Byung-Ho Lim, So Young Chang, Yun-Bae Kim, and Kyung-Ryul Kim

Published

2009

42. Preparation and characterization of thermoplastic elastomers (TPEs) based on waste polypropylene and waste ground rubber tire powder.

Author

Shu Ling Zhang, Zhen Xiu Zhang, Dong jin Kang, Dae Suk Bang, and Jin Kuk Kim

Subjects

THERMOPLASTICS, ELASTOMERS, POLYPROPYLENE, TIRES, SCANNING electron microscopy, THERMOGRAVIMETRY, RHEOMETERS

Abstract

In this article, the possibility of obtaining the recycled material based on waste polypropylene (WPP) and waste ground rubber tire powder (WGRT) has been studied. It has been proved that partially replacing WPP with PP-g-MA increased the elongation at break of WPP/WGRT blends, whereas decreased the thermal stability. The presence of compatibilizer increased the elongation at break and thermal stability of WPP/WGRT blends, whereas decreased the processing flowability, as revealed by using universal testing machine (UTM), scanning electron microscopy (SEM), thermogravimetric analysis (TGA) and capillary rheometer. Moreover, the tendency of the change became more obvious with the content of PP-g-MA and compatibilizer or with the combination of PP-g-MA and compatibilizer. In addition, the improvement of the nonpolar compatibilizer (SEBS) in properties of WPP/WGRT blends was better than that of the polar compatibilizer (SEBS-g-MA). [ABSTRACT FROM AUTHOR]

Published

2008

43. Review of recent findings on the water masses and circulation in the East Sea (Sea of Japan).

Author

Kuh Kim, Kyung-Il Chang, Dong-Jin Kang, Young Kim, and Jae-Hak Lee

Subjects

WATER masses, OCEAN circulation

Abstract

Abstract  Recent findings on water masses, biogeochemical tracers, deep currents and basin-scale circulation in the East/Japan Sea, and numerical modeling of its circulation are reviewed. Warming continues up to 2007 despite an episode of bottom water formation in the winter of 2000–2001. Water masses have definitely changed since the 1970s and further changes are expected due to the continuation of warming. Accumulation of current data in deep waters of the East/Japan Sea reveals that the circulation in the East/Japan Sea is primarily cyclonic with sub-basin scale cyclonic and anticyclonic cells in the Ulleung Basin (Tsushima Basin). Our understanding of the circulation of intermediate water masses has been deepened through high-resolution numerical studies, and the implementation of data assimilation has had initial success. However, the East/Japan Sea is unique in terms of the fine vertical structures of physical and biogeochemical properties of cold water mass measured at the highest precision and their rapid change with the global warming, so that full understanding of the structures and their change requires in-depth process studies with continuous monitoring programs. [ABSTRACT FROM AUTHOR]

Published

2008

44. Large accumulation of anthropogenic CO2 in the East (Japan) Sea and its significant impact on carbonate chemistry.

Author

Geun-Ha Park, Kitack Lee, Tishchenko, Pavel, Dong-Ha Min, Warner, Mark J., Talley, Lynne D., Dong-Jin Kang, and Kyung-Ryul Kim

Subjects

ANTHROPOGENIC effects on nature, CARBON dioxide, OCEAN, CARBON dioxide in seawater, CARBONATES, WATER pollution

Abstract

This paper reports on a basin-wide inventory of anthropogenic CO2 in the East (Japan) Sea determined from high-quality alkalinity, chlorofluorocarbon, and nutrient data collected during a summertime survey in 1999 and total dissolved inorganic carbon data calculated from pH and alkalinity measurements. The data set comprises measurements from 203 hydrographic stations and covers most of the East Sea with the exception of the northwestern boundary region. Anthropogenic CO2 concentrations are estimated by separating this value from total dissolved inorganic carbon using a tracer- based (chlorofluorocarbon) separation technique. Wintertime surface CFC-12 data collected in regions of deep water formation off Vladivostok, Russia, improve the accuracy of estimates of anthropogenic CO2 concentrations by providing improved air- sea CO2 disequilibrium values for intermediate and deep waters. Our calculation yields a total anthropogenic CO2 inventory in the East Sea of 0.40 ± 0.06 petagrams of carbon as of 1999. Anthropogenic CO2 has already reached the bottom of the East Sea, largely owing to the effective transport of anthropogenic CO2 from the surface to the ocean interior via deep water formation in the waters off Vladivostok. The highest specific column inventory (vertically integrated inventory per square meter) of anthropogenic CO2 of 80 mol C m-2 is found in the Japan Basin (40°N-44°N). Comparison of this inventory with those for other major basins of the same latitude band reveal that the East Sea values are much higher than the inventory for the Pacific Ocean (20-30 mol C m-2) and are similar to the inventory for the North Atlantic (66-72 mol C m-2). The substantial accumulation of anthropogenic CO2 in the East Sea during the industrial era has caused the aragonite and calcite saturation horizons to move upward by 80-220 m and 500-700 m, respectively. These upward movements are approximately 5 times greater than those found in the North Pacific. Both the large accumulation of anthropogenic CO2 and its significant impact on carbonate chemistry in the East Sea suggest that this sea is an important site for monitoring the future impact of the oceanic invasion of anthropogenic CO2. [ABSTRACT FROM AUTHOR]

Published

2006

45. Mixing Enhancement of a Passive Micromixer with Submerged Structures

Author

Makhsuda Juraeva and Dong Jin Kang

Subjects

degree of mixing (DOM), submerged structures, Norman window, rectangular baffles, circular passage, vortex burst, Mechanical engineering and machinery, TJ1-1570

Abstract

A passive micromixer combined with two different mixing units was designed by submerging planar structures, and its mixing performance was simulated over a wider range of the Reynolds numbers from 0.1 to 80. The two submerged structures are a Norman window and rectangular baffles. The mixing performance was evaluated in terms of the degree of mixing (DOM) at the outlet and the required pressure load between inlet and outlet. The amount of submergence was varied from 30 μm to 70 μm, corresponding to 25% to 58% of the micromixer depth. The enhancement of mixing performance is noticeable over a wide range of the Reynolds numbers. When the Reynolds number is 10, the DOM is improved by 182% from that of no submergence case, and the required pressure load is reduced by 44%. The amount of submergence is shown to be optimized in terms of the DOM, and the optimum value is about 40 μm. This corresponds to a third of the micromixer depth. The effects of the submerged structure are most significant in the mixing regime of convection dominance from Re = 5 to 80. In a circular passage along the Norman window, one of the two Dean vortices burst into the submerged space, promoting mixing in the cross-flow direction. The submerged baffles in the semi-circular mixing units generate a vortex behind the baffles that contributes to the mixing enhancement as well as reducing the required pressure load.

Published

2022

46. Mixing Performance of a Cross-Channel Split-and-Recombine Micro-Mixer Combined with Mixing Cell

Author

Makhsuda Juraeva and Dong Jin Kang

Subjects

degree of mixing, dean vortex, mixing cell, cross-channel SAR (CC-SAR), Mechanical engineering and machinery, TJ1-1570

Abstract

A new cross-channel split-and-recombine (CC-SAR) micro-mixer was proposed, and its performance was demonstrated numerically. A numerical study was carried out over a wide range of volume flow rates from 3.1 μL/min to 826.8 μL/min. The corresponding Reynolds number ranges from 0.3 to 80. The present micro-mixer consists of four mixing units. Each mixing unit is constructed by combining one split-and-recombine (SAR) unit with a mixing cell. The mixing performance was analyzed in terms of the degree of mixing and relative mixing cost. All numerical results show that the present micro-mixer performs better than other micro-mixers based on SARs over a wide range of volume flow rate. The mixing enhancement is realized by a particular motion of vortex flow: the Dean vortex in the circular sub-channel and another vortex inside the mixing cell. The two vortex flows are generated on the different planes perpendicular to each other. They cause the two fluids to change their relative position as the fluids flow into the circular sub-channel of the SAR, eventually promoting violent mixing. High vorticity in the mixing cell elongates the flow interface between two fluids, and promotes mixing in the flow regime of molecular diffusion dominance.

Published

2020

47. Discrimination of Cultivated Regions of Soybeans (Glycine max) Based on Multivariate Data Analysis of Volatile Metabolite Profiles

Author

So-Yeon Kim, So Young Kim, Sang Mi Lee, Do Yup Lee, Byeung Kon Shin, Dong Jin Kang, Hyung-Kyoon Choi, and Young-Suk Kim

Subjects

gas chromatography-mass spectrometry, solid-phase microextraction, soybean, origin discrimination, volatile compounds, Organic chemistry, QD241-441

Abstract

Soybean (Glycine max) is a major crop cultivated in various regions and consumed globally. The formation of volatile compounds in soybeans is influenced by the cultivar as well as environmental factors, such as the climate and soil in the cultivation areas. This study used gas chromatography-mass spectrometry (GC-MS) combined by headspace solid-phase microextraction (HS-SPME) to analyze the volatile compounds of soybeans cultivated in Korea, China, and North America. The multivariate data analysis of partial least square-discriminant analysis (PLS-DA), and hierarchical clustering analysis (HCA) were then applied to GC-MS data sets. The soybeans could be clearly discriminated according to their geographical origins on the PLS-DA score plot. In particular, 25 volatile compounds, including terpenes (limonene, myrcene), esters (ethyl hexanoate, butyl butanoate, butyl prop-2-enoate, butyl acetate, butyl propanoate), aldehydes (nonanal, heptanal, (E)-hex-2-enal, (E)-hept-2-enal, acetaldehyde) were main contributors to the discrimination of soybeans cultivated in China from those cultivated in other regions in the PLS-DA score plot. On the other hand, 15 volatile compounds, such as 2-ethylhexan-1-ol, 2,5-dimethylhexan-2-ol, octanal, and heptanal, were related to Korean soybeans located on the negative PLS 2 axis, whereas 12 volatile compounds, such as oct-1-en-3-ol, heptan-4-ol, butyl butanoate, and butyl acetate, were responsible for North American soybeans. However, the multivariate statistical analysis (PLS-DA) was not able to clearly distinguish soybeans cultivated in Korea, except for those from the Gyeonggi and Kyeongsangbuk provinces.

Published

2020

48. Effects of Channel Wall Twisting on the Mixing in a T-Shaped Micro-Channel

Author

Dong Jin Kang

Subjects

t-shaped microchannel, degree of mixing, twisting angle, Mechanical engineering and machinery, TJ1-1570

Abstract

A new design scheme is proposed for twisting the walls of a microchannel, and its performance is demonstrated numerically. The numerical study was carried out for a T-shaped microchannel with twist angles in the range of 0 to 34π. The Reynolds number range was 0.15 to 6. The T-shaped microchannel consists of two inlet branches and an outlet branch. The mixing performance was analyzed in terms of the degree of mixing and relative mixing cost. All numerical results show that the twisting scheme is an effective way to enhance the mixing in a T-shaped microchannel. The mixing enhancement is realized by the swirling of two fluids in the cross section and is more prominent as the Reynolds number decreases. The twist angle was optimized to maximize the degree of mixing (DOM), which increases with the length of the outlet branch. The twist angle was also optimized in terms of the relative mixing cost (MC). The two optimum twisting angles are generally not coincident. The optimum twist angle shows a dependence on the length of the outlet branch but it is not affected much by the Reynolds number.

Published

2019

49. Agronomic and Tolerant Performance of Acid Soil-Tolerant Wild Soybean (Glycine soja Sieb. and Zucc.) in Acid Sulfate Soil of Thailand

Author

Dong Jin Kang, Young Jin Seo, Kazuhiro Ujiie, Pisoot Vijarnsorn, and Ryuichi Ishii

Subjects

Acid sulfate soil-tolerance, Glycine soja, Mineral toxicity, Seed yield, Soil acidity, Wild soybean, Plant culture, SB1-1110

Abstract

We screened acid soil-tolerant wild soybean (Glycine soja Sieb. and Zucc.) accessions and evaluated their agronomic and tolerant performance under acid sulfate soil (ASS) conditions. Only three accessions, J-13, J-19 and J-55, among 381 G. soja accessions obtained from G. soja Germplasm Collection of Japan, were identified as having strong tolerance by the acid soil toxicity score (ATS) at soil pH 3.3. These three tolerant G. soja accessions showed significantly lower aluminum (Al), iron (Fe) and manganese (Mn) contents in the aboveground part than the intolerant ones in 0.25 lime requirement (LR) conditions (pH 3.8). Aboveground dry matter weights (DW) and seed yields of three tolerant G. soja accessions, except seed yield of a tolerant accession J-55, were also significantly higher than intolerant ones under the 0.25 LR condition. This clearly indicates that lower contents of toxic mineral in the ASS-tolerant G. soja led to higher macro-nutrient uptake, DW, and seed yields. We conclude that the three tolerant G. soja accessions identified in the present study possess high levels of tolerance to the soil acidity and Al-excess soil conditions, and could be valuable genetic resources for soybean improvement programs.

Published

2011