| 1. |
Agung Tri Wijayanta, Shuji Hironaka, Motofumi Hanaki, Jun Fukai, Heat generation in a packed bed of zeolite particles using moist air, International Journal of Refrigeration, https://doi.org/10.1016/j.ijrefrig.2023.04.025, 2023.04. |
| 2. |
Agung Tri Wijayanta, Seishi Ooga, Shuji Hironaka, Bing Xue, Jun Fukai, Waste heat for regeneration of a packed bed of zeolite particles, International Journal of Heat and Mass Transfer, https://doi.org/10.1016/j.ijheatmasstransfer.2022.123798, 203, 123798, 2023.04. |
| 3. |
Kazumasa Oshima, Kyogo Ito, Eriko Konishi, Tsuyoshi Yamamoto, Jun Fukai, Toshihisa Kajiwara and Masahiro Kishida
, Reductive removal of selenate (VI) in aqueous solution using rhodium metal particles supported on TiO2, RSC ADVANCES, 10.1039/d2ra02889a, 12, 28, 17655-17660, 2022.06. |
| 4. |
Linsheng Zhang, Song Ye, Bing Xue, Xinli Wei, Koichi Nakaso, Jun Fukai, Pre-adsorption of low-grade waste steam for high-temperature steam generation by using composite zeolite and long-term heat storage salt of MgSO4, International Journal of Energy Research, 10.1002/er.5312, 2020.03. |
| 5. |
Song Ye, Bing Xue, Xiangrui Meng, Xinli Wei, Koichi Nakaso, Jun Fukai, Experimental study of heat and mass recovery on steam generation in an adsorption heat pump with composite zeolite-CaCl2, Sustainable Cities and Society, 10.1016/j.scs.2019.101808, 52, 2020.01, High-temperature steam generation in adsorption heat pump with composite zeolite-CaCl2 has been experimentally investigated by introducing heat and mass recovery. A direct contact heat exchange method is utilized to enhance the overall heat transfer rate. Composite zeolite (CZ) is prepared by immersing zeolite particle in CaCl2 solution at mass concentration of 40%. Cyclic experiment consists of two processes: regeneration with 130 °C dry air and steam generation with 80 °C hot water. The heat and mass recovery with steam below 90 °C is added before generation process. Mass of generated steam above 200 °C is increased by 9.12%. The effective time for steam generation is dramatically extended by 18.33%. Adsorption and thermal equilibriums inside the packed bed are achieved more quickly with heat and mass recovery. Gross temperature lift for one-stage adsorption heat pump is above 100 °C. Coefficient of performance for heating (COPh) and specific heat power (SHP) are elevated by 9.55% and 9.23%, respectively. The increase in mass of generated steam contributes to the improvement of COPh. Meanwhile, only a short time used for heat and mass recovery enables the rise in SHP.. |
| 6. |
Gu Kim, Jun Fukai, Shuji Hironaka, Numerical Study of Various Shape Aggregations of Carbon Black in Suspension with Shear Flow, Polymer (Korea), 4, 445-452, 2019.09. |
| 7. |
Gu Kim, Jun Fukai, Shuji Hironaka, Rheological modeling of nanoparticles in a suspension with shear flow, Applied Chemistry for Engineering, 10.14478/ace.2019.1040, 30, 4, 445-452, 2019.08, Shear thickening is an intriguing phenomenon in the fields of chemical engineering and rheology because it originates from complex situations with experimental and numerical measurements. This paper presents results from the numerical modeling of the particle-fluid dynamics of a two-dimensional mixture of colloidal particles immersed in a fluid. Our results reveal the characteristic particle behavior with an application of a shear force to the upper part of the fluid domain. By combining the lattice Boltzmann and discrete element methods with the calculation of the lubrication forces when particles approach or recede from each other, this study aims to reveal the behavior of the suspension, specifically shear thickening. The results show that the calculated suspension viscosity is in good agreement with the experimental results. Results describing the particle deviation, diffusivity, concentration, and contact numbers are also demonstrated.. |
| 8. |
Jun Fukai, Takuya Harada and Hirotaka Ishizuka, A New Mechanism of Coffee-Ring Formation Deduced from Numerical Simulations with Considering Deformation and Wettability, Journal of Chemical Engineering of Japan, 10.1252/jcej.18we300, 52, 6, 484-492, 2019.06. |
| 9. |
Bing Xue, Song Ye, Linsheng Zhang, Xinli Weia, Koichi Nakaso, Jun Fukai, High-temperature steam generation from low-grade waste heat from an adsorptive heat transformer with composite zeolite-13X/CaCl2, Energy Conversion and Management, https://doi.org/10.1016/j.enconman.2019.02.040, 186, 15, 93-102, 2019.04. |
| 10. |
Jun Fukai, Agung Tri Wijayanta, Potential ability of zeolite to generate high-temperature vapor using waste heat, Proc. The 3rd International Conference on Industrial Mechanical, Electrical, and Chemical Engineering, https://doi.org/10.1063/1.5024055, AIP Conference Proceedings 1931, 020001 (2018), 2018.02. |
| 11. |
Performance Test for Scale-up Characteristics of Adsorption Steam Generators. |
| 12. |
Hirotaka Ishizuka, Jun Fukai, Quantification of Marangoni flows and film morphology during solid film formation by inkjet printing, Experiments in Fluids, https://doi.org/10.1007/s00348-017-2460-5, 59;4, 1-11, 2018.01. |
| 13. |
Jinghong Wang, Jun Fukai, Evaporation Rate Profiles from a Liquid in a Cylindrical Hole, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, https://doi.org/10.1252/jcej.17we221, 1, 51, 49-52, 2018.01. |
| 14. |
Utilization of Latent Heat Thermal Storage in CO2 Refrigerant Heat Pump in Vending Machine. |
| 15. |
Jun Fukai, Kei Sakanoue, Kento Ando, Rintaro Yamashita, Shouma Nakagawa, Refinement of solid layers via wetting on homogeneous lyophilic surfaces, Journal of Coatings Technology and Research, 10.1007/s11998-016-9880-7, ISSN 1547-0091,Vol.14,No.3,pp.631–640, 2017, 2017.05. |
| 16. |
Md. Saiful Alam, AGUNG TRI WIJAYANTA, Koichi Nakaso, Jun Fukai, Numerical Simulation of Entrained-flow Coal Gasification: A Study on Particles History, Journal of Energy Environment and Carbon Credits, ISSN: 2249-8621(online)
Volume 6, Issue 3,pp.9-18, 2016.08. |
| 17. |
Kenji Matumo, Nobusuke Kobayashi1, Tsuguhiko Nakagawa, Jun Fukai, Yoshinori Itaya, Lithium Bromide/Water Absorption Heat Pump for Simultaneous Production of Heated Air and Steam from
Waste Heat, Journal of Chemical Engineering of Japan, 49, 3, 268-273, 2016.03. |
| 18. |
Kei Sakanoue, Hironobu Harada, Kento Ando, Masayuki Yahiro, Jun Fukai, Surface planarization effect of siloxane derivatives in organic semiconductor layers, Thin Solid Films, doi:10.1016/j.tsf.2015.11.056, Vol 597, p. 212–219,31 December 2015, 2015.12. |
| 19. |
Bing Xue, Xiangrui Meng, Xinli Wei, Koichi Nakaso, Jun Fukai, Dynamic study of steam generation from low-grade waste heat in a zeolite-water adsorption heat pump, Applied Thermal Engineering, vol.88, 5,pp.451- 458, 2015.09., 2015.09. |
| 20. |
Md. Saiful Alam, AGUNG TRI WIJAYANTA, Koichi Nakaso, Jun Fukai, Study on coal gasification with soot formation in two-stage entrained-flow gasifier, International Journal of Energy and Environmental Engineering, DOI 10.1007/s40095-015-0173-1, Vol.6, No. 3, pp.255–265, 2015.04. |
| 21. |
Koichi Nakaso, Hiroki Mitani, Jun Fukai, Convection Heat Transfer in a Shell-and-Tube Heat Exchanger Using Sheet Fins for Effective Utilization of Energy, International Journal of Heat and Mass Transfer, 82,581-587,2015.03., 2015.03. |
| 22. |
Koichi Nakaso, Yuuki TANAKA, Shotaro ESHIMA, Shunsuke KOBAYASHI, Jun Fukai, Performance of a Novel Steam Generation System Using a Waterzeolite Pair for Effective Use of Waste Heat From the Iron and Steel Making Process, ISIJ International, ISIJ International, Vol. 55 (2015), No. 2, pp. 448–456, 2015.02. |
| 23. |
AGUNG TRI WIJAYANTA, Md. Saiful ALAM, Koichi Nakaso, Jun Fukai, Kazuya Kunitomo, Masakata Shimizu, Numerical study on pulverized biochar injection in blast furnace, ISIJ International, Vol. 54, No. 7, pp. 1521–1529, 2014.08. |
| 24. |
AGUNG TRI WIJAYANTA, Alam Md. SAIFUL, Koichi Nakaso, Jun Fukai, Kazuya Kunitomo, shimizu masakata shimizu, Combustibility of biochar injected into the raceway of a blast furnace, Fuel Processing Technology, http://dx.doi.org/10.1016/j.fuproc.2013.01.012, 117,53-59,2014.01, http://dx.doi.org/10.1016/j.fuproc.2013.01.012
, 2014.01. |
| 25. |
Bing XUE, Yoshiho IWAMA, Yuuki TANAKA, Kazuya NAKASHIMA, AGUNG TRI WIJAYANTA, Koichi Nakaso, Jun Fukai, Cyclic steam generation from a novel zeolite–water adsorption heat pump using low-grade waste heat, Experimental Thermal and Fluid Science, 10.1016/j.expthermflusci.2012.11.020, 46, 54-63, 2013.04. |
| 26. |
Patience Oluwatosin BABATUNDE, Wang Jing HONG, Koichi Nakaso, Jun Fukai, Effect of Solute- and Solvent-Derived Marangoni Flows on the Shape of Polymer Films Formed from Drying Droplets, AIChE Journal, DOI 10.1002/aic.14031, Vol. 59 No. 3,pp.699-702, 2013.03. |
| 27. |
Patience Oluwatosin BABATUNDE, Narumi NANRI, Kenji ONiTSUKA, Koichi Nakaso, Jun Fukai, Factors Dominating Polymer Film Morphology Formed from Droplets Using Mixed Solvents, Journal of Chemical Engineering of Japan, Vol.45, No.8, pp.622-629, 2012.08. |
| 28. |
Bing XUE, Keisuke TAHARA, Kazuya NAKASHIMA, Atsushi NODA, Erfina OKTARIANI, AGUNG TRI WIJAYANTA, Koichi Nakaso, Jun Fukai, Numerical Simulation for Steam Generation Process in a Novel Zeolite-Water Adsorption Heat Pump, Journal of Chemical Engineering of Japan, Vol.45, No.6, pp.408-416, 2012.06. |
| 29. |
Alam Md. SAIFUL , Agung Tri WIJAYANTA, Koichi NAKASO and Jun FUKAI , Numerical Investigation of Syngas Production from Coal Gasification under Various CO2/O2 Mixtures, Canadian Journal on Computing in Mathematics,Natural Sciences,Engineering and Medicine, Vol.3, No.4,pp.88-97, 2012.05. |
| 30. |
Erfina OKTARIANI, Keisuke TAHARA, Kazuya NAKASHIMA, Atsushi NODA, Bing XUE, AGUNG TRI WIJAYANTA, Koichi Nakaso, Jun Fukai, Experimental Investigation on the Adsorption Process for Steam Generation Using a Zeolite-Water System, Journal of Chemical Engineering of Japan, Vol. 45, No. 5, pp355-362, 2012.05. |
| 31. |
Shohei YASUMATSU, Hirotaka ISHIZUKA, Koichi NAKASO, Patience Oluwatosin BABATUNDE and Jun FUKAI, Self-Organization of Polymer Films Using Single and Mixed Solvents on Chemically Patterned Surfaces, Journal of Chemical Engineering of Japan, Vol.45, No.4, pp265-271, 2012.04. |
| 32. |
Agung Tri WIJAYANTA, Alam Md. SAIFUL,Koichi NAKASO and Jun FUKAI , Optimized Combustion of Biomass Volatiles by Varying O2 and CO2 Levels: A Numerical Simulation Using a Highly Detailed Soot Formation Reaction Mechanism, Bioresource Technology, Vol.110,pp.645-651
ISSN 0960-8524 , 2012.04. |
| 33. |
AGUNG TRI WIJAYANTA, Alam Md. SAIFUL, Koichi Nakaso, Jun Fukai, Numerical Investigation on Combustion of Coal Volatiles Under Various O2/CO2 Mixtures Using a Detailed Mechanism With Soot Formation
, Fuel, DOI: 10.1016/j.fuel.2011.10.003, vol.93, pp670-676, ISSN.0016-2361, PDF offprint dispatch: 19-1-2012, 2012.03. |
| 34. |
Shohei YASUMATSU, Kouichi NAKASO and Jun FUKAI, Marangoni Flows in Polymer Soution Droplets Drying on Heating Surfaces, Journal of Chemical Engineering of Japan, Vol.45, No.2, pp.128-135, 2012.02, The effect on substrate temperature on the fluid dynamics in a polymer solution droplet evaporating on a substrate is investigated experimentally and numerically. It is found from the experiments that fluid velocities in the droplets increase with increasing initial substrate temperature and with decreasing initial solute concentration. A mathematical model, which takes thermal and solutal Marangoni effects into account, are numerically solved using a finite element method. The calculated fluid velocities agree with the experiment. Both experiments and calculations show that, though thermal Marangoni forces dominate the fluid dynamics, solute Marangoni forces should never be neglected. The calculations predict that solute Marangoni effects are more emphasized with decreasing contact angle.. |
| 35. |
Dovelopment of Adsorption Heat Pump System for Regenerationg High Temperature SteamーBasic Concept and Estimation of Effective Utilization of Energyー. |
| 36. |
Shogo MOROE, Peter L. WOODFIELD, Koichi KIMURA, Masamichi KOHNO, Jun FUKAI, Motoo FUJII , Kanei SHINZATO and Yasuyuki TAKATA, Measurements of Hydrogen Thermal Conductivity and High Pressure and High Temperature, International Journal of Thermophysics, Vol.32,No.9, pp.1887-1917, 2011.06. |
| 37. |
Agung Tri WIJAYANTA, Koichi NAKASO, Takuro AOKI, Yusuke KITAZATO and Jun FUKAI , Effect of Pressure,Composition and Temperature Characteristics on Thermal Response and Overall Reaction Rates in a Metal Hydride Tank, International Journal of Hydrogen Energy, Vol.36,pp.3529-3536, 2011.05. |
| 38. |
Erfina OKTARIANI, Atsushi NODA, Kazuya NAKASHIMA, Keisuke TAHARA, Bing XUE, Koichi Nakaso, Jun Fukai, Potential of a direct contact adsorption heat pump system for generating steam from waste water, International Journal of Energy Research, DOI: 10.1002/er.1855, Vol.36, pp.1077–1087, 2011.04. |
| 39. |
Hiroyuki TANAKA, Koichi NAKASO, Naoyuki FURUMOTO,Tsuguhiko NAKAGAWA and Jun FUKAI, Development of Exchangeable Fins for Heat Transfer Enhancement in Existing Shell and Tube Heat Exchangers, Journal of Environment and Engineering, Vol.6, No.2, pp.400-411, 2011.03. |
| 40. |
Shogo MOROE,Peter L. WOODFIELD, Jun FUKAI, Kanei SHINZATO, Masamichi KOHNO, Motoo FUJII and Yasuyuki TAKATA, Thermal Conductivity Measurement of Gases by The Transient Short-Hot-Wire Method, Experimental Heat Transfer, Vol.24,Issue 2,pp.168-178, 2011.02. |
| 41. |
Alam Md. SAIFUL, AGUNG TRI WIJAYANTA, Koichi Nakaso, Jun Fukai, Koyo Norinaga, Hayashi Jun-ichiro, A Reduced Mechanism for Primary Reactions of Coal Volatiles in a Plug Flow Reactor, Combustion Theory and Modelling, Vol.14,No.6,pp.841-853, 2010.12. |
| 42. |
Kuniyasu MIYAMOTO, Masayuki Kaneda, Jun Fukai, Specific behaviors of Polymer Solution Droplets on Surfaces due to Solutal Marangoni Effect , Journal of Chemical Engineering of Japan, Vol.43,No.7,pp.618-622, 2010.07. |
| 43. |
Masayuki Kaneda, Yuu Takao, Jun Fukai, Thermal and Solutal Effects on Convection Inside a Polymer Solution Droplet on a Substrate, International Journal of Heat and Mass Transfer, Vol.53, pp.4448-4457, 2010.06. |
| 44. |
Yu YOSHITAKE, Shohei YASUMATSU, Masayuki Kaneda, Koichi Nakaso, Jun Fukai, Structure of Circulation Flows in Polymer Solution Droplets Receding on Fiat Surfaces, Langmuir, Vol.26, No.6, pp.3923-3928, 2010.03, In previous report where internal flows were experimentally visualized in polymer solution droplets receding on a lyophobic surface [Kaneda et al., Langmuir 2008, 24, 9102-9109], the direction of the circulation flow was found to depend on solvent and solute concentration. To identify the reason for this finding, the internal flow in the droplet is investigated numerically. A mathematical model predicts that double circulation flows initiate after a single flow develops at high Marangoni numbers, while only a single circulation flow develops at low Marangoni numbers. The dependences of the calculated velocities on the solvent and the initial solute concentration agree qualitatively with experiment. It is concluded that the difference of the flow directions that were investigated experimentally is due to such a change in the flow structures. The effects of the contact angle and dimensions on transport phenomena in a droplet are also discussed.. |
| 45. |
Peter L. WOODFIELD, Shogo MOROE,Jun FUKAI, Motoo FUJII, Kanei SHINZATO and Yasuyuki TAKATA , Techniques for Accurate Resistance Measurement in the Transient Short-Hot-Wire Method Applied to High Thermal-Diffusivity Gas, International Journal of Thermophysics , Vol.30, No.6, pp.1733-2143, 2009.12. |
| 46. |
Heat Transfer Enhancement in a Packed Bed Reactor Using Spiral Carbon Fibers on the Heat Transfer Tube. |
| 47. |
Development of Exchangeable Fins for Heat Transfer Enhancement in Existing Shell and Tube Heat Exchangers. |
| 48. |
Peter L.WOODFIELD , Jun FUKAI , Motoo FUJII and Yasuyuki TAKATA , An Accelerated Two-Dimensional Unsteady Heat Conduction Calculation Procedure for Thermal-Cnductivity Measurement by the Transient Short-Hot-Wire Method , INTERNATIONAL JOURNAL OF THERMOPHYSICS , Vol.30,No.3,pp796-809,2009, 2009.07. |
| 49. |
Effect of Carbon Nanotube on Heat Trannsfer Rate in Packed Bed. |
| 50. |
Peter L. Woodfield 、 深井 潤、藤井 丕夫、 高田 保之、新里 寛英 , Numerical Simulation of Natural Convection in a Transient-Short-Hot-Wire Thermal Conductivity Cell , 熱物性, Vol.22,No.4,pp.217-222, 2008.11. |
| 51. |
Peter L. WOODFIELD, Jun FUKAI, Motoo FUJII, Yasuyuki TAKATA and Kanei SHINZATO, A Two-Dimensional Analytical Solution for the Transient Short -Hot-Wire Method, International Journal of Thermophysics, Vol.29,No.4,pp.1278-1298, 2008.08. |
| 52. |
Peter L. WOODFIELD, Jun FUKAI, Motoo FUJII, Yasuyuki TAKATA and Kanei SHINZATO, Determining Thermal Conductivity and Thermal Diffusivity of Low-Density Gases Using the Transient Short-Hot-Wire Method, International Journal of Thermophysics, Vol.29,No.4,pp.1299-1320, 2008.08. |
| 53. |
Masayuki KANEDA, Kentarou HYAKUTA, Yuu TAKAO, Hirotaka ISHZUKA and Jun FUKAI, Internal Flow in Polymer Solution Droplets Deposited on a Lyophobic Surface during a Receding Process , Langmuir, vol.24,No.16,pp.9102-9109, 2008.07. |
| 54. |
Koichi NAKASO, Hirofumi TESHIMA, Akito YOSHIMURA, Seiichi NOGAMI, Yuichi HAMADA and Jun FUKAI, Extension of Heat Transfer Area using Carbon Fiber Cloths in Latent Heat Thermal Energy Storage Tanks, Chemical Engineering and Processing, Vol. 47, No. 5, pp 879-885., 2008.02. |
| 55. |
Peter L. WOODFIELD, Shogo MOROE, Jun FUKAI, Motoo FUJII, Yasuyuki TAKATA and Kanei SHINZATO, Numerical simulation for design of probe to measure hydrogen thermal conductivity at high pressure by the transient short-wire method, Memoirs of the Faculty of Engineering, Kyushu University, Vol. 67, No. 4, pp.209-220, 2007.12. |
| 56. |
Koichi Nakaso, Ryosuke SHIGENAGA, Jun Fukai, Effect of Heat Transfer Enhancement on Energy Release Rate from a Metal Hydride Tank, Journal of Chemical Engineering of Japan, Vol.40, No.13, pp.1257-1263, 2007.12. |
| 57. |
Koichi NAKASO, Akito YOSHIMURA, Yusuke KITAZATO, Ryosuke SHIGENAGA, Jun FUKAI, Transport Phenomena in a Packed Bed Reactor of Metal Hydride and Promotion of Its Reaction Rates by Heat Transfer Enhancement, Journal of Chemical Engineering of Japan, Vol.40, No.12, pp.1056-1063, 2007.12. |
| 58. |
Effect of a Binary Solvent on Film Formataion in Ink-Jet Printing. |
| 59. |
Masayuki KANEDA, Hirotaka ISHIZUKA, Yousuke SAKAI, Jun FUKAI, Shigekazu YASUTAKE and Atsushi TAKAHARA, Film formation from polymer solution using inkjet printing method, AIChE J., Vol.53, No.5, pp.1100-1108, 2007.05. |
| 60. |
Masayuki KANEDA, Michinori YAMAMOTO, Koichi NAKASO, Tsuyoshi YAMAMOTO and Jun FUKAI, Oscillation of a tilted circular pad on a droplet for the self-alignment process, Journal of the International Societies for Precision Engineering and Nanotechnology, vo.31, No.2,pp. 177-184, 2007.04. |
| 61. |
Jun FUKAI, Hirotaka ISHIZUKA, Yosuke SAKAI, Masayuki KANEDA, Masamichi MORITA and Atsushi TAKAHARA, Drying Process of Micro-Scale Polymer Solution Droplets Deposited on Lyophobic Surfaces, Experimental Heat Transfer, vol.20,pp.137-146, 2007.01. |
| 62. |
Performance of a Latent Thermal Energy Storage Tank Fitted with Carbon-Fiber Cloths to Expand the Heat Transfer Area. |
| 63. |
Development of Latent Thermal Energy Storage Tanks Using Carbon-Fiber Cloths. |
| 64. |
Jun FUKAI, Hirotaka ISHIZUKA, Yosuke SAKAI, Masayuki KANEDA, Masamichi MORITA and Atsushi TAKAHARA, Effects of Droplet Size and Solute Concentration on Drying Process of Polymer Solution Droplets Deposited on Homogeneous Surfaces, International Journal of Heat and Mass Transfer, Vol.49, No.19-20, 3561-3567(2006), 2006.09. |
| 65. |
Site-selective Formation of Polymer Ultrathim Films using the Ink-jet Method onto Patterned Fluoroallkylsilane Monolayer Substrate. |
| 66. |
Yuichi HAMADA and Jun FUKAI
, Latent Heat Thermal Energy Storage Tanks for Space Heating of Buildings: Comparison between Calculations and Experiments, Energy Conversion & Management, 10.1016/j.enconman.2005.03.009, 46, 20, 3221-3235, Vol.46, No.20., pp.3221-3235, 2005.12. |
| 67. |
Yuichi HAMADA, Wataru OTSU, Jun FUKAI, Yoshio MOROZUMI and Osamu MIYATAKE, Anisotropic heat transfer in composites based on high-thermal conductive carbon fibers, Energy, 10.1016/j.energy.2004.04.024, 30, 2-4, 221-233, Vol. 30, No.2-3 , pp.221-233, 2005.02. |
| 68. |
Masamichi MORITA,Shigekazu YASUTAKE,Hirotake ISHIZUKA,Yousuke SAKAI,Jun FUKAI and Atsushi TAKAHARA, Site Specific Fabrication of Polystyrene Ultrathin Films onto the Patterned Organosilane Monolayer Surfaces by the Ink-Jet Method, Transactions of the Materials Research Society of Japan, Vol.30,No.3,pp.631-634,2005.1, 2005.01. |
| 69. |
Masamichi MORITA, Shigekazu YASUTAKE, Hirotaka ISHIZUKA, Yousuke SAKAI, Jun FUKAI and Atsushi TAKAHARA, Site-Selective Coating of Polymer Thin Film Prepared by the Ink-Jet Method on the Patterned Fluoroalkylsilane Monolayer Substrate, Chemistry Letters, 10.1246/cl.2005.916, 34, 7, 916-917, Vol.34 , No.7, pp.916-917, 2005.01. |
| 70. |
Yoshio MOROZUMI, Hirotaka ISHIZUKA and Jun FUKAI, Criterion Between Permanent Coalescence and Separation for Head-on Binary Droplet Collision, Atomization and Sprays, 10.1615/AtomizSpr.v15.i1.40, 15, 1, 61-80, Vol.15, No.1,pp.61-80, 2005.01. |
| 71. |
Jun FUKAI and Teiichi ANDO, Microstructure Development in Alloy Splats during Rapid Solidification, Materials Science & Engineering A, 10.1016/msea.2004.02.047, 383, 1, 175-183, Vol. 383, No.1, pp. 175-183, 2004.10. |
| 72. |
Simplified Model for Estimating Performance of Latent Heat Thermal Energy Storage of a Shell-and-Tube Type Unit. |
| 73. |
Performance Test of Thermal Energy Storage Tanks Using Carbon-fiber Brushes. |
| 74. |
Yoshio MOROZUMI, Hirotaka ISHIZUKA and Jun FUKAI, Solute Deposit during Evaporation of a Sessile Binary Liquid Micro-Droplet on a Substrate, Journal of Chemical Engineering of Japan, 10.1252/jcej.37.778, 37, 6, 778-784, Vol.37,No.6, pp.778-784, 2004.06. |
| 75. |
Yoshio MOROZUMI, Hirotaka ISHIZUKA and Jun FUKAI, Solute Deposit during Evaporation of Binary Liquid Micro-Droplet on a Substrate, ISMME2003 International Symposium on Micro-Mechanical Engineering, pp.24-30, 2003.12. |
| 76. |
Yoshio MOROZUMI,Jun FUKAI, Growth and Structures of Surface Disturbances of a Round Liquid Jet in a Coaxial Airflow, Fluid Dynamics Research, 10.1016/j.fluiddyn.2003.12.002, 34, 4, 217-231, VOL.34,pp.217-231,2003.12, 2003.12. |
| 77. |
Jun FUKAI, Yuichi HAMADA, Yoshio MOROZUMI and Osamu MIYATAKE, Improvement of Thermal Characteristics of Latent Heat Thermal Energy Storage Units Using Carbon-Fiber Brushes: Experiments and Modeling, International Journal of Heat and Mass Transfer, 10.1016/S0017-9310(03)00290-4, 46, 23, 4513-4525, Vol. 46, No. 23 pp. 4513-4525, 2003.11. |
| 78. |
Yuichi HAMADA, Wataru OHTSU and Jun FUKAI, Thermal response in thermal energy storage material around heat transfer tubes: Effect of additives on heat transfer rates, Solar Energy, 10.1016/j.solener.2003.07.028, 75, 4, 317-328, Vol. 75, No.4, pp 317-328, 2003.10. |
| 79. |
Jun FUKAI and Teiichi ANDO, Microstructure development in alloy splats during rapid solidification, 2nd International Conference on Spray Deposition and Melt Atomization, 10.1016/msea.2004.02.047, 383, 1, 175-183, Vol. 2, pp. 8-87 - 8-99, 2003.06. |
| 80. |
Jun FUKAI, Yuichi HAMADA, Yoshio MOROZUMI and Osamu MIYATAKE, Effect of Carbon-Fiber Brushes on Conductive Heat Transfer in Phase Change Materials, International Journal of Heat and Mass Transfer, 10.1016/S0017-9310(02)00179-5, 45, 24, 4781-4792, Vol. 25, No. 24, 4781-4792, 2002.11. |
| 81. |
Combustion Gas Temperatures in the Free Board of Fluidized-bed Furnace For Power Generation System Using Livestock Waste
. |
| 82. |
Numerical Simulation of Gas Absorption Enhancement Caused by Collision of Binary Droplets
. |
| 83. |
Effects of Operation Parameters on Freezing Rate of a Molten Metal Droplet Colliding with a Substrate. |
| 84. |
Jun FUKAI,Yoshio MOROZUMI ,Yuichi HAMADA,Osamu MIYATAKE, A New Technique for Enhancing Thermal Conductivity of Thermal Energy Storage Materials, Proc. of 5th World Conference on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics, Vol.2,pp.2199〜2204, 2001.09. |
| 85. |
Yoshio MOROZUMI,Aya KUWATA,Jun FUKAI,Osamu MIYATAKE, Spectral Analysis on the Disturbance of a Round Water Jet with an Annular Airflow, Proc. of 5th World Conference on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics, Vol.2,pp.1023〜1028, 2001.09. |
| 86. |
Characteristics of Disturbances and Droplet Formation of a Round Water Jet with an Annular Air Flow
. |
| 87. |
Combustion Characteristics in Fluidized-Bed Furnace for Power Generation System Using Livestock Wastes
. |
| 88. |
Jun FUKAI,Yoshio MOROZUMI,Yuichi HAMADA,Osamu MIYATAKE, Transient Response of Thermal Energy Storage Unit Using Carbon Fibers as Thermal Conductivity Promoter, Proc. 3rd European Thermal Sciences Conference, Heidelberg, Germany, Vol.41,No.14,pp.447-552, 2000.09. |
| 89. |
Jun FUKAI,Tetsushi OZAKI,Haruhisa ASAMI,Osamu MIYATAKE, Numerical Simulation of Liquid Droplet Solidification on Substrates, Journal of Chemical Engineering of Japan, 10.1252/jcej.33.630, 33, 4, 630-637, Vol.33,No.4,pp.630〜637, 2000.08. |
| 90. |
Effect of differential tin coatings on resistance seam weldability of low tin-coated steel for beverage cans
Shimizu N, Nishimoto N, Morita S, Fukai J, Baba S, Miyatake O
TETSU TO HAGANE-JOURNAL OF THE IRON AND STEEL INSTITUTE OF JAPAN
86 (8): 519-525 AUG 2000. |
| 91. |
Yoshio MOROZUMI ,Mototsugu NAKAMOTO,Jun FUKAI,Osamu MIYATAKE, Numerical Simulation of Coalescence and Separation Behavior during Binary Droplets Collision, Proc. of 8th International Conference on Liquid Atomization & Spray Systems, pp.878〜885, 2000.07. |
| 92. |
Jun FUKAI,Tetsushi OZAKI,Kouki MATSUURA,Osamu MIYATAKE, Solidification Phenomena during Collision of a Molten Metal Droplet on a Substrate, Proc. of the International Conference on Spray Deposition and Melt Atomization, pp.627〜639, 2000.06. |
| 93. |
Jun FUKAI,Makoto KANOU,Yoshikazu KODAMA,Osamu MIYATAKE, Thermal Conductivity Enhancement of Energy Storage Media Using Carbon Fibers, Energy Conversion & Management, 10.1016/S0196-8904(99)00166-1, 41, 14, 1543-1556, Vol. 41,No. 14,pp.1543〜1556, 2000.05. |
| 94. |
Jun FUKAI,Masaharu ETOU,Fumio ASANOMA,Osamu MIYATAKE, Dynamic Contact Angles of Water Droplets Sliding on Inclined Hot Surfaces, Journal of Chemical Engineering of Japan, 10.1252/jcej.33.177, 33, 1, 177-179, Vol. 33,No.1,pp.177〜179, 2000.02. |
| 95. |
Discharge Characteristics of Capsule-Ttype Thermal Energy Storage Unit Using Carbon-Fiber/Paraffin Composite
. |
| 96. |
Jun FUKAI, Numerical Simulation of Deforming Liquid Droplets on Flat Surfaces, Recent Research Developments Heat, Mass & Momentum Transfer, Vol.2,pp.83〜105, 1999.05. |
| 97. |
Jun FUKAI, Akira OISHI, Yoshikazu KODAMA, Makoto KANOU, Osamu MIYATAKE, Improvement of Discharge Characteristics of Latent Heat Thermal Energy Storage Unit by Using Carbon Fibers, Proc. the 5th ASME/JSME Joint Thermal Engineering Conference, AJTE, pp.99-6338, 1999.03. |
| 98. |
Jun FUKAI,M.TANAKA,Osamu MIYATAKE, Maximum Spreading of Liquid Droplets Colliding with Flat Surfaces, Journal of Chemical Engineering of Japan, 10.1252/jcej.31.456, 31, 3, 456-461, Vol. 31,No.3,pp.456〜461, 1998.06. |
| 99. |
Effect of Electric Current Path Area on Resistance Seam Weldability
. |
| 100. |
Relation Between Equivalent Contact Resistance and Resistance Seam Weldability for Beverage Cans. |
| 101. |
J. FUKAI,H. ASAMI,O. MIYATAKE, Deformation and Solidification Behavior of a Molten Metal Droplet Colliding with a Substrate: Modeling and Experiment, Solidification, 473-483, pp.473〜483, 1998.02. |
| 102. |
Numerical Analysis of Heat Transport Phenomena during the Collision of a Liquid Droplet on a Substrate. |
| 103. |
J. FUKAI,I. ISOKAWA,O. MIYATAKE, Modeling of Heat Transfer in Carbon Material during Carbonization, Journal of Chemical Engineering of Japan, 10.1252/jcej.30.880, 30, 5, 880-886, Vol. 30,No.5,pp.880〜886, 1997.10. |
| 104. |
J. FUKAI,Y. SHIIBA,O. MIYATAKE, Theoretical Study of Droplet Impingement on a Solid Surface below the Leidenfrost Temperature, International Journal of Heat and Mass Transfer, 10.1016/S0017-9310(96)00264-5, 40, 10, 2490-2492, Vol. 40,No.10,pp.2490〜2493, 1997.07. |
| 105. |
Effect of Carbon Fibers Thermal Response within Heat Storage Material. |
| 106. |
Z. ZHAO,D. POULIKAKOS,J. FUKAI, Heat Transfer and Fluid Dynamics during the Collision of a Liquid Droplet on a Substrate -I. Modeling, International Journal of Heat and Mass Transfer, 10.1016/0017-9310(95)00305-3, 39, 13, 2771-2789, Vol. 39,No.13,pp.2771〜2789, 1996.09. |
| 107. |
Z. ZHAO,D. POULIKAKOS,J. FUKAI, Heat Transfer and Fluid Dynamics during the Collision of a Liquid Droplet on a Substrate -II. Experiments, International Journal of Heat and Mass Transfer, 10.1016/0017-9310(95)00306-1, 39, 13, 2791-2802, Vol. 39,No.13,pp.2791〜2802, 1996.09. |
| 108. |
J. FUKAI,H. ORITA,X. YU,I. ISOKAWA,O. MIYATAKE, Heating Patterns during Carbonization of Formed Mixtures of Coke and Pitch, Fuel, 10.1016/0016-2361(96)00033-6, 75, 7, 809-815, Vol.75,No.7,pp.809〜815, 1996.01. |
| 109. |
Modelling of Heat Transfer,Gas Flow and Stress in Porous Material with Thermal Decomposition. |
| 110. |
J. FUKAI,Y. SHIIBA,T. YAMAMOTO,O. MIYATAKE,D. POULIKAKOS,C. M. MEGARIDIS,Z. ZHAO, Wetting Effects on the Spreading of a Liquid Droplet Colliding with a Flat Surface: Experiment and Modeling, Phys. Fluids A, 10.1063/1.868622, 7, 2, 236-247, Vol.7,No.2,pp.236〜247, 1995.02. |
| 111. |
Heating-Rate Dependence of Expansion and Contraction Behaviors of Formed Green Carbon. |
| 112. |
J. FUKAI,Z. ZHAO,D. POULIKAKOS,C. MEGARIDIS,O. MIYATAKE, Modeling of the Deformation of a Liquid Droplet Impinging upon a Flat Surface, Phys. Fluids A, 10.1063/1.858724, 5, 11, 2588-2599, Vol.5,No.11,pp.2588〜2599, 1993.12. |
| 113. |
J. FUKAI,N. KATO,O. MIYATAKE, Measurement of Cooling Rates and Boiling Curves of a Thin Plate during Quenching, Heat Transfer -Japanese Research, Vol.22,No.3,pp.281~293, 1993.09. |
| 114. |
J. FUKAI,O. MIYATAKE, Laminar Flow Heat Transfer within Parallel Plate Channel with Staggered Baffles, Heat Transfer -Japanese Research, Vol.22,No.2,pp.171~183, 1993.06. |
| 115. |
Estimation of Linear Contraction of Isotropic Formed Green Carbon during the Carbonization Process. |
| 116. |
Effective Thermal Conductivity of Isotropic Formed Green Carbon during Carbonization Process. |
| 117. |
Measurement of Cooling Rates Boiling Curves of Thin Plates during Quenching. |
| 118. |
Jun FUKAI, Hiroshi NOGAMI, Takatoshi MIURA and Shigemori OHTANI, Simultaneous estimation of thermophysical properties by periodic hot-wire heating method, Experimental Thermal and Fluid Science, Vol. 4, No.2, pp. 198-204, 1991.03. |
| 119. |
J. FUKAI,Y. SIMIZU,T. MIURA,S. OHTANI, Simultaneous Measurement of Thermal conductivity and diffusivity by Periodic Heating of a Hot Wire, Heat transfer-Japanese Research, Vol.19,No.4,pp.331~345, 1990.12. |
| 120. |
Tensile Test of Coke Piece. |
| 121. |
Simultaneous Estimation of Thermal Conductivity and Diffusivity by Periodic Heating of Hot Wire. |
| 122. |
Gasification and Liquefaction for Covering Material of Electric Cord . |
| 123. |
J. FUKAI,M. WATANABE,T. MIURA,S. OHTANI, Simultaneous Estimation of Thermophysical Properties by Nonlinear Least¬ Squares, International Chemical Engineering, Vol.27,No.3,pp.455~465, 1987.07. |
| 124. |
Estimation of Thermal Stress at an Early Step of Coking Process. |
| 125. |
J. FUKAI,T. MIURA,S. OHTANI, Effective Thermal Conductivity during Carbonization of a Packed Bed Containing One or Two Varieties of Coal, International Chemical Engineering, Vol.27,No.2,pp.334~339, 1987.04. |
| 126. |
Effects of Produced Coke Fissures and Volatilized Gas Flow on the Heat Transfer in the Coka Oven. |
| 127. |
Estimation of Coke Porosity Variation with Temperature during Carbonzation. |
| 128. |
T. MIURA,J. FUKAI,S. TANNO,S. OHTANI, Effect of Thermocouple Sheaths on the Temperature Response in Thermal Property Measurement, International Chemical Engineering, Vol.25,No.2,pp.324~333, 1985.07. |
| 129. |
Effective Thermal Conductivity of Packed Bed of Binary Mixture of Coal during Carbonization. |
| 130. |
Simultaneous Estimation of Thermal Properties by Non-Linear Last Squares Method. |
| 131. |
Takatoshi MIURA,Jun FUKAI,Shigemori OHTANI, Measurement of Thermal Diffusivities at a Continuous Heating Rate , Heat Transfer-Japanese Research, Vol.13,No.1,pp.20~29, 1984.03. |
| 132. |
Effects of Measuring Method on the Effective Thermal Diffusivity of Packed Coal Column during Carbonization. |
| 133. |
Effect of Thermocouple Sheaths on Temperature Response in Thermal Property Measurement. |
| 134. |
Measurement of Thermal Diffusivity at Continuous Heating Rate. |
| 135. |
Measurement of Effective Thermal Diffusivity of Packed Coals during Carbonization. |
