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International Journal Publications

  1. Y. Shah, W.W. Choi, S. Senguttuvan, S.M. Kim*, Thermal performance evaluation of advanced multistage heat sinks in experimental pool boiling study, International Communications in Heat and Mass Transfer, 169 (2025) 109551.

  2. W.W. Choi, S.M. Kim*, Numerical study on heat transfer characteristics near sidewall of impingement/effusion cooling system, International Communications in Heat and Mass Transfer, 168 (2025) 109407.

  3. H.G. Kim, S. Senguttuvan, H.C. Shin, S.M. Kim*, Experimental investigation of flow boiling instability and associated pressure fluctuations in a mini-channel heat sink, Applied Thermal Engineering, 258 (2025) 124681.

  4. J.Y. Jung, W.W. Choi, S.M. Kim*, Jet array impingement heat transfer in a rectangular cavity with effusion holes, International Journal of Mechanical Sciences, 256 (2024) 124137.

  5. A. Afzal, S. Lee*, S.M. Kim, I. Mudawar, Gaussian process regression to predict dryout incipience quality of saturated flow boiling in mini/micro-channels, Applied Thermal Engineering, 256 (2024) 124137.

  6. H. Noh, S. Lee*, S.M. Kim, I. Mudawar, Utilization of XGBoost algorithm to predict dryout incipience quality for saturated flow boiling in mini/micro-channels, International Journal of Heat and Mass Transfer, 231 (2024) 125827.

  7. A.K. Rohini, W.W. Choi, S.M. Kim*, Subcooled flow boiling in multiple parallel rectangular micro-channel heat sink: Development of heat transfer correlation, Applied Thermal Engineering, 250 (2024) 123444.

  8. S. Senguttuvan, H.G. Kim, M.S. Shin, Y. Rhee, J. Park, S.M. Kim*, Airflow and heat transfer characteristics for different cargo pallet arrangements in a heat transfer enhanced refrigerated container, International Journal of Refrigeration, 165 (2024) 175-187.

  9. H.C. Shin, S.H. Kim, Y. Shah, S.M. Kim*, An experimental study on air-oil flow patterns in horizontal pipes using two synthetic oils, International Journal of Heat and Mass Transfer, 226 (2024) 125459.

  10. A.K. Rohini, H.C. Shin, H.G. Kim, W.W. Choi, S.M. Kim*, Pressure drop correlation for subcooled flow boiling in micro-channel heat sink, International Journal of Mechanical Sciences, 272 (2024) 109167.

  11. J.H. Heo, A.K. Rohini, S.M. Kim*, Thermal design limits for flow boiling of R-134a in large mini/micro-channel heat sinks with wall temperature deviation restriction, International Journal of Multiphase Flow, 175 (2024) 104783.

  12. H.C. Shin, A.K. Rohini, S.H. Kim, S.M. Kim*, An experimental study on pressure drop of air-oil flow in horizontal pipes using two synthetic oils, International Journal of Mechanical Sciences, 268 (2024) 108970.

  13. H.C. Shin, S. Senguttuvan, S.M. Kim*, Experimental study on sub-regimes of air-water slug flow in a rectangular micro-channel, International Journal of Mechanical Sciences, 259 (2023) 108577.

  14. J. Ahn, W. Jeon, H.G. Kim, S.M. Kim*, S. Baik*, Dryout suppression and significantly enhanced flow boiling heat transfer through the two-tier vertically aligned carbon nanotube channel, International Journal of Heat and Mass Transfer, 214 (2023) 124438.

  15. J.H. Kim*, J. Ahn, S.M. Kim, L. Tan, J. Pei, B. Huang, Special issue on "CFD based researches and applications for fluid machinery and fluid device, volume II", Processes, 11 (2023) 3021.

  16. Y. Shah, H.G. Kim, W.W. Choi, S.M. Kim*, Experimental pool boiling study on novel multistage cross-flow porous structure using FC-72 for high-heat-flux electronic applications, International Journal of Heat and Mass Transfer, 213 (2023) 124270.

  17. H.G. Kim, Y. Shah, S.M. Kim*, Experimental investigation and analysis of two-phase flow instability of flow boiling in a mini-channel heat sink, International Journal of Heat and Mass Transfer, 213 (2023) 124309.

  18. H.G. Kim, S.M. Kim*, Slug flow characteristics of air-liquid two-phase flow in horizontal pipes over a wide range of liquid viscosities, International Journal of Heat and Mass Transfer, 208 (2023) 124005.

  19. H.C. Shin, S.M. Kim*, Generalized flow regime map for two-phase mini/micro-channel flows, International Journal of Heat and Mass Transfer, 196 (2022) 123298.

  20. J.Y. Song, S. Senguttuvan, W.W. Choi, S.M. Kim*, Effects of manifold design parameters on flow uniformity in parallel mini-channels, International Journal of Mechanical Sciences, 234 (2022) 107694.

  21. H.C. Shin, S.M. Kim*, Experimental investigation of two-phase flow regimes in rectangular micro-channel with two mixer types, Chemical Engineering Journal, 448 (2022) 137581.

  22. J.H. Hong, D. Kim, M.J. Kim, S. Chung, H.C. Shin, S.M. Kim, K. Cho, H.S. Lee, S. Lee, B. Kang*, Extrapolation method for reliable measurement of seebeck coefficient of organic thin films, Organic Electronics, 108 (2022) 106582.

  23. W.W. Choi, S.M. Kim*, Effect of effusion hole arrangement on jet array impingement heat transfer, International Journal of Heat and Mass Transfer, 192 (2022) 122900.

  24. H.G. Kim, S.M. Kim*, Experimental investigation of flow and pressure drop characteristics of air-oil slug flow in a horizontal tube, International Journal of Heat and Mass Transfer, 183 (2022) 122063.

  25. J.S. Youn, W.W. Choi, S.M. Kim*, Numerical investigation of jet array impingement cooling with effusion hole, Applied Thermal Engineering, 197 (2021) 117347.

  26. S. Senguttuvan, J.S. Youn, H.S. Seo*, S.M. Kim*, Investigation of flow characteristics and eddy viscosity ratio for air-oil intermittent flow in horizontal pipe, Journal of Mechanical Science and Technology, 35 (2021) 4557-4564.

  27. Y. Qiu, D. Garg, S.M. Kim, I. Mudawar, C.R. Kharangate*, Machine learning algorithms to predict flow boiling pressure drop in mini/micro-channels based on universal consolidated data, International Journal of Heat and Mass Transfer, 178 (2021) 121607.

  28. M.S. Shin, S. Senguttuvan, S.M. Kim*, Investigations of flow and heat transfer characteristics in a channel impingement cooling configuration with a single row of water jets, Energies, 14 (2021) 4327.

  29. J.H. Kim*, S.M. Kim, M. Choi, L. Tan, B. Huang, J. Pei, Special issue on “CFD-based studies and applications for fluid machinery and fluid device”, Processes, 9 (2021) 1137.

  30. S. Senguttuvan, Y. Rhee, J. Lee, J. Kim*, S.M. Kim*, Enhanced heat transfer in a refrigerated container using an airflow optimized refrigeration unit, International Journal of Refrigeration, 131 (2021) 723-736.

  31. W.Y. Kim, S. Senguttuvan, S.H. Kim, S.W. Lee, S.M. Kim*, Numerical study of flow and thermal characteristics in titanium alloy milling with hybrid nanofluid minimum quantity lubrication and cryogenic nitrogen cooling, International Journal of Heat and Mass Transfer, 170 (2021) 121005.

  32. S. Senguttuvan, J.S. Youn, J. Park, J. Lee, S.M. Kim*, Enhanced airflow in a refrigerated container by improving the refrigeration unit design, International Journal of Refrigeration, 120 (2020) 460-473.

  33. L. Zhou, D. Garg, Y. Qiu, S.M. Kim, I. Mudawar, C.R. Kharangate*, Machine learning algorithms to predict flow condensation heat transfer coefficient in mini/micro-channel utilizing universal data, International Journal of Heat and Mass Transfer, 162 (2020) 120351.

  34. W. Jeon, J. Ahn, T. Kim, S.M. Kim*, S. Baik*, Intertube aggregation-dependent convective heat transfer in vertically aligned carbon nanotube channels, ACS Applied Materials & Interfaces, 12 (2020) 50355–50364.

  35. W.Y. Kim, S. Senguttuvan, S.M. Kim*, Effect of rotor spacing and duct diffusion angle on the aerodynamic performances of a counter-rotating ducted fan in hover mode, Processes, 8 (2020) 1338.

  36. J.H. Jeong, S. Hah, D. Kim, J.H. Lee*, S.M. Kim*, Thermal analysis of cylindrical heat sinks filled with phase change material for high-power transient cooling, International Journal of Heat and Mass Transfer, 154 (2020) 119725.

  37. Y. Qiu, D. Garg, L. Zhou, C.R. Kharangate*, S.M. Kim, I. Mudawar, An artificial neural network model to predict mini/micro-channels saturated flow boiling heat transfer coefficient based on universal consolidated data, International Journal of Heat and Mass Transfer, 149 (2020) 119211.

  38. J.S. Kim, C.S. Lee, S.W. Lee, S.M. Kim, J.H. Choi, H. Chung, P.H. Lee*, Fabrication and characterization of hollow glass beads-filled thermoplastic composite filament developed for material extrusion additive manufacturing, Journal of Composite Materials, 54 (2020) 607-615.

  39. S.M. Han, N.S. Woo, J.H. Ha, Y.J. Kim*, S.M. Kim*, Flow characteristics of a solid-liquid non-newtonian fluid for directional drilling, Journal of Nanoscience and Nanotechnology, 20 (2020) 384-395.

  40. H.C. Shin, H.S. Seo, S.M. Kim*, Two-dimensional two-fluid model for air-oil wavy flow in horizontal tube, Journal of Mechanical Science and Technology, 33 (2019) 2693-2709.

  41. S.H. Kim, H.C. Shin, S.M. Kim*, Numerical study on cooling performance of hybrid micro-channel/ micro-jet-impingement heat sink, Journal of Mechanical Science and Technology, 33 (2019) 3555-3562.

  42. J.Y. Song, S. Hah, D. Kim, S.M. Kim*, Enhanced flow uniformity in parallel mini-channels with pin-finned inlet header, Applied Thermal Engineering, 152 (2019) 718-733.

  43. S.H. Kim, S.W. Lee, S. Han*, S.M. Kim*, Numerical investigation of thermal characteristics of spray cooling with minimum quantity lubrication in milling process, Applied Mathematical Modelling, 65 (2019) 137-147.

  44. M.S. Abbasi, R. Song, S.M. Kim, H. Kim, J. Lee*, Mono-emulsion droplet stretching under direct current electric field, Soft Matter, 15 (2019) 2328-2335.

  45. M.K. Khan, H.S. Cahyadi, S.M. Kim*, J. Kim*, Efficient oil recovery from highly stable toxic oily sludge using supercritical water, Fuel, 235 (2019) 460-472.

  46. A.T. Jafry, H. Lee, A.P. Tenggara, H. Lim, Y. Moon, S.H. Kim, Y. Lee, S.M. Kim, S. Park, D. Byun*, J. Lee*, Double-sided electrohydrodynamic jet printing of two-dimensional electrode array in paper-based digital microfluidics, Sensors and Actuators: B. Chemical, 282 (2019) 831-837.

  47. W. Jeon, T. Kim, S.M. Kim*, S. Baik*, Fast mass transport-assisted convective heat transfer through a multi-walled carbon nanotube array, Nanoscale, 10 (2018) 23103-23112.

  48. H.S. Kim, S.K. Lee, M. Wang, J. Kang, Y. Sun, J.W. Jung, K. Kim, S.M. Kim, J.D. Nam, J. Suhr*, Experimental investigation on 3D graphene-CNT hybrid foams with different interactions, Nanomaterials, 8 (2018) 694.

  49. J.S. Kim, C.S. Lee, S.M. Kim, S.W. Lee*, Development of data-driven in-situ monitoring and diagnosis system of fused deposition modeling (FDM) process based on support vector machine algorithm, International Journal of Precision Engineering and Manufacturing-Green Technology, 5 (2018) 479-486.

  50. J.H. Jeong, J.H. Lee*, S.M. Kim*, Numerical study of thermal performance of phase change material-based heat sinks with three-dimensional transient cooling, Sensors and Materials, 30 (2018) 2391-2400

  51. H.C. Shin, S. Han*, S.M. Kim*, Numerical study on the forced convection heat transfer of nanofluids in micro-channels, Journal of Nanoscience and Nanotechnology, 17 (2017) 8394-8403.

  52. H.G. Kim, I.J. Hwang, S.M. Kim*, Numerical study on the pool boiling heat transfer of water-based nanofluids on a vertical surface, Journal of Nanoscience and Nanotechnology, 17 (2017) 8404-8410.

  53. Y.H. Lee, N.E. Lee, S.M. Kim, Y.J. Kim*, Exothermic performance of a mogul-patterned stretchable micro-heater with various geometrical configurations, Journal of Nanoscience and Nanotechnology, 17 (2017) 7502-7506.

  54. S.M. Kim*, I. Mudawar*, Thermal design and operational limits of two-phase micro-channel heat sinks, International Journal of Heat and Mass Transfer, 106 (2017) 861-876.

  55. J. Lee, S. Kim, S.M. Kim, R. Song, H.K. Kim, J.S. Park, S.C. Park, Assessing radiocephalic wrist arteriovenous fistulas of obtuse anastomosis using computational fluid dynamics and clinical application, Journal of Vascular Access, 17 (2016) 512-520.

  56. W.H. Lee, S.M. Kim, S. Lee*, J.C. Lee*, Particle tracing simulations of dielectrophoretic and magnetophoretic flows in magnetic nanofluids, Journal of Nanoscience and Nanotechnology, 16 (2016) 10965-10969.

  57. S.M. Kim, H.S. Seo, Y.J. Kim*, A study on the flow characteristics of oil-based ferrofluid with magnetic nanoparticles in the patterned microchannel under magnetophoresis, Journal of Nanoscience and Nanotechnology, 16 (2016) 10951-10958.

  58. S.M. Kim, I. Mudawar*, Review of two-phase critical flow models and investigation of the relationship between choking, premature CHF, and CHF in micro-channel heat sinks, International Journal of Heat and Mass Transfer, 87 (2015) 497-511.

  59. S.M. Kim, I. Mudawar*, Review of databases and predictive methods for heat transfer in condensing and boiling mini/micro-channel flows, International Journal of Heat and Mass Transfer, 77 (2014) 627-652.

  60. S.M. Kim, I. Mudawar*, Review of databases and predictive methods for pressure drop in adiabatic, condensing and boiling mini/micro-channel flows, International Journal of Heat and Mass Transfer, 77 (2014) 74-97.

  61. S.M. Kim, I. Mudawar*, Theoretical model for heat transfer coefficient for annular flow boiling in circular mini/micro-channels, International Journal of Heat and Mass Transfer, 73 (2014) 731-742.

  62. S.M. Kim, I. Mudawar*, Universal approach to predicting saturated flow boiling heat transfer in mini/micro-channels - Part I. Dryout incipience quality, International Journal of Heat and Mass Transfer, 64 (2013) 1226-1238.

  63. S.M. Kim, I. Mudawar*, Universal approach to predicting saturated flow boiling heat transfer in mini/micro-channels - Part II. Two-phase heat transfer coefficient, International Journal of Heat and Mass Transfer, 64 (2013) 1239-1256.

  64. S.M. Kim, I. Mudawar*, Universal approach to predicting two-phase frictional pressure drop for mini/micro-channel saturated flow boiling, International Journal of Heat and Mass Transfer, 58 (2013) 718-734.

  65. I. Park, S.M. Kim, I. Mudawar*, Experimental measurement and modeling of downflow condensation in a circular tube, International Journal of Heat and Mass Transfer, 57 (2013) 567-581.

  66. S.M. Kim, I. Mudawar*, Universal approach to predicting heat transfer coefficient for condensing mini/micro-channel flow, International Journal of Heat and Mass Transfer, 56 (2013) 238-250.

  67. S.M. Kim, I. Mudawar*, Consolidated method to predicting pressure drop and heat transfer coefficient for both subcooled and saturated flow boiling in micro-channel heat sinks, International Journal of Heat and Mass Transfer, 55 (2012) 3720-3731.

  68. S.M. Kim, I. Mudawar*, Universal approach to predicting two-phase frictional pressure drop for adiabatic and condensing mini/micro-channel flows, International Journal of Heat and Mass Transfer, 55 (2012) 3246-3261.

  69. S.M. Kim, I. Mudawar*, Theoretical model for annular flow condensation in rectangular micro-channels, International Journal of Heat and Mass Transfer, 55 (2012) 958-970.

  70. S.M. Kim, J. Kim, I. Mudawar*, Flow condensation in parallel micro-channels – Part 1: Experimental results and assessment of pressure drop correlations, International Journal of Heat and Mass Transfer, 55 (2012) 971-983.

  71. S.M. Kim, I. Mudawar*, Flow condensation in parallel micro-channels – Part 2: Heat transfer results and correlation technique, International Journal of Heat and Mass Transfer, 55 (2012) 984-994.

  72. S.M. Kim, I. Mudawar*, Analytical heat diffusion models for heat sinks with circular micro-channels, International Journal of Heat and Mass Transfer, 53 (2010) 4552-4566.

  73. S.M. Kim, I. Mudawar*, Analytical heat diffusion models for different micro-channel heat sink cross-sectional geometries, International Journal of Heat and Mass Transfer, 53 (2010) 4002-4016.

  74. S.M. Kim*, S.M. Ghiaasiaan*, Numerical modeling of laminar pulsating flow in porous media, ASME Journal of Fluids Engineering, 131 (2009) 041203.

  75. Y.J. Kim*, S.M. Kim, Influence of shaped injection holes on turbine blade leading edge film cooling, International Journal of Heat and Mass Transfer, 47 (2004) 245-256.


Patents

Application (International)

  1. PCT PCT/KR2025/011988 (2025-08-08) 금속-공기 배터리 시스템 및 그의 작동 방법

  2. PCT PCT/KR2024/096720 (2024-12-11) METAL-AIR BATTERY DEVICE USING IMPINGING JET FLOW

  3. US 18/936,998 (2024-11-04) HEAT SINK WITH MULTISTAGE PORE CHANNEL STRUCTURE

  4. VN 1-2024-04912 (2024-07-03) HEAT EXCHANGER AND BAFFLE OF THE HEAT EXCHANGER

  5. US 18/746,452 (2024-06-18) HEAT EXCHANGER AND BAFFLE OF THE HEAT EXCHANGER

  6. DE 102024115094.7 (2024-05-29) VORRICHTUNG ZUR KÜHLUNG EINES BRENNSTOFFZELLENSTAPELS

  7. CN 202410661187.3 (2024-05-27) Apparatus for Cooling a Fuel Cell Stack

  8. US 18/628,090 (2024-04-05) APPARATUS FOR COOLING A FUEL CELL STACK

  9. US 18/624,485 (2024-04-02) HEAT SINK APPARATUS

  10. US 18/441,112 (2024-02-14) HEAT SINK WITH MULTILAYER CHANNEL STRUCTURE

  11. PCT PCT/KR2023/009577 (2023-07-06) THERMOELECTRIC GENERATOR AND METHOD FOR MANUFACTURING SAME

  12. PCT PCT/KR2023/003564 (2023-03-17) THERMOELECTRIC GENERATOR, MANUFACTURING METHOD THEREFOR, AND THERMOELECTRIC GENERATING APPARATUS EQUIPPED THEREWITH


Application

  1. KR 10-2025-0060342 (2025-05-09) 이중 채널 히트 싱크

  2. KR 10-2025-0060334 (2025-05-09) 다층 구조 멀티 채널을 구비한 하이브리드 히트 싱크

  3. KR 10-2025-0055491 (2025-04-28) 냉각 유체 및 기포 배출 촉진 구조를 구비한 히트 싱크

  4. KR 10-2025-0055487 (2025-04-28) 복합 냉각 구조를 구비한 히트 싱크

  5. KR 10-2025-0044629 (2025-04-07) 다중 제트 충돌 구조를 구비한 히트 싱크

  6. KR 10-2025-0027767 (2025-03-04) 전해질의 균일한 유량 분배를 위한 매니폴드 및 이를 포함하는 금속-공기 배터리

  7. KR 10-2024-0184114 (2024-12-11) 멀티채널 히트싱크

  8. KR 10-2024-0124561 (2024-09-12) 충돌 제트를 활용한 히트 싱크 및 이를 이용한 냉각 장치

  9. KR 10-2024-0116183 (2024-08-28) 금속-공기 배터리 시스템 및 그의 작동 방법

  10. KR 10-2024-0106251 (2024-08-08) 금속-공기 배터리 장치의 매니폴드 및 이를 구비한 금속-공기 배터리 장치

  11. KR 10-2024-0086683 (2024-07-02) 충돌제트 냉각 장치

  12. KR 10-2024-0073445 (2024-06-05) 충돌제트 유동을 통해 에너지 생산 효율이 향상된 금속-공기 배터리

  13. KR 10-2024-0032275 (2024-03-06) 냉각장치

  14. KR 10-2024-0025813 (2024-02-22) 열 교환기 및 열 교환기용 배플

  15. KR 10-2024-0003864 (2024-01-09) 충돌제트 유동을 통해 에너지 생산 효율이 향상된 금속-공기 배터리

  16. KR 10-2023-0188591 (2023-12-21) 다단 채널 구조를 갖는 다공성 히트싱크

  17. KR 10-2023-0181124 (2023-12-13) 연료 전지 스택의 냉각 장치

  18. KR 10-2023-0140231 (2023-10-19) 선회유동 및 제트충돌냉각을 활용한 멀티채널 히트싱크

  19. KR 10-2023-0050215 (2023-04-17) 히트싱크 장치

  20. KR 10-2022-0120875 (2022-09-23) 공랭식 열교환기

  21. KR 10-2022-0108824 (2022-08-30) 사용자에게 냉감을 제공하기 위한 열전 소자를 포함하는 핸디형 전자 장치

  22. KR 10-2022-0093171 (2022-07-27) 열 교환기 및 이의 제조 방법

  23. KR 10-2022-0072574 (2022-06-15) 열전 발생기 및 이의 제조 방법

  24. KR 10-2022-0066046 (2022-05-30) 공랭식 열교환기

  25. KR 10-2018-0105812 (2018-09-05) 방열기

  26. KR 10-2018-0089276 (2018-07-31) 개도 상태를 확인할 수 있는 게이트 밸브

  27. KR 10-2018-0063469 (2018-06-01) 기체-오일 분리기


Granted Patents

  1. KR 10-2846787 (2025-08-11) 다층 채널 구조를 갖는 히트싱크

  2. KR 10-2772184 (2025-02-19) 열전 발생기 및 이의 제조 방법과 열전 발생 장치

  3. KR 10-2753505 (2025-01-07) 히트 싱크 및 이의 제조 방법

  4. KR 10-2692386 (2024-08-01) 열전 발전기 및 이의 제조 방법

  5. KR 10-2647807 (2024-03-11) 열전 발생기 및 이의 제조 방법

  6. KR 10-2556167 (2023-07-12) 라디에이터 및 이를 포함하는 비히클

  7. KR 10-2439561 (2022-08-30) 사용자에게 냉감을 제공하기 위한 열전 소자를 포함하는 핸디형 전자 장치

  8. KR 10-2283143 (2021-07-23) 라디에이터 및 이를 포함하는 비히클

  9. KR 10-2124527 (2020-06-12) 멀티채널 유량분배장치

  10. KR 10-2057650 (2019-12-13) 스태틱 믹서

  11. KR 10-2034241 (2019-10-14) 유체 혼합 장치

  12. KR 10-1936398 (2019-01-02) 고성능 열교환기