PAPER(1991-)

(1) Mixing
(2) CFD
(3) Membrane
(4) Catalyst
(5) Bioengineering
(6) Two Phase Flow
(7) Physical Properties and Physical Chemistry
(8) Distillation
(9) Dust Collection
(10) Viscous Fingering
(11) Sonoreactor
(12) Others

(1)Mixing
1. Heat transfer coefficient and mixing time in a cylindrical mixing vessel with axial jet nozzles
J. Chem. Eng. Japan, 24(4), 506-511 (1991)
Seung-Tae Koh, Setsuro Hiraoka, Yutaka Tada, Takaaki Takahashi and Takao Yamaguchi

2. Visualization of jet flow in a mixing vessel with a nozzle rotating around the vessel axis
J. Chem. Eng. Japan, 24(6), 760-766 (1991)
Seung-Tae Koh, Setsuro Hiraoka, Yutaka Tada, Tsutomu Aragaki, Toshiharu Hijikata and Takao Yamaguchi

3. Mass transfer volumetric coefficient and droplet diameter in liquid- liquid dispersions stirred with a paddle impeller with wire gauze
J. Chem. Eng. Japan, 26(2), 227-229 (1993)
Setsuro Hiraoka, Noboru Kamei, Yoshihito Kato, Yutaka Tada, Katsuya Asai,Shinji Hibino and Takao Yamaguchi

4. Mixing Time and Critical Circulating Frequency for Mixing of Low Viscosity Liquid in a Horizontally Shaking Vessel with Circulating Motion
Kagaku Kogaku Ronbunshu, 20(3), 437-444(1994)
Yoshihito KATO, Seturo HIRAOKA, Yutaka TADA, Takashi MORI, Seiji SHIRAI, Takafumi UE, Seung-Tae KOH

5. Development of Power Correlations for Various Impellers in an Agitated Vessel in Laminar Region Based on a Numerical Analysis of 2-D flow
Kagaku Kogaku Ronbunshu, 20(5), 595-603(1994)
Noboru KAMEI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Shojiro KUWABARA, Young-Sei LEE, Takao YAMAGUCHI, Seung-Tae KOH

6. Power Correlation for Paddle Impellers in Spherical and Cylindrical Agitated Vessels
Kagaku Kogaku Ronbunshu, 21(1), 41-48(1995)
Noboru KAMEI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Hirotaka SHIDA, Young-Sei LEE, Takao YAMAGUCHI, Seung-Tae KOH

7. Power Consumption of Horizontally Shaking Vessel with Circulating Motion
Kagaku Kogaku Ronbunshu, 21(2), 365-371(1995)
Yoshihito KATO, Seturo HIRAOKA, Yutaka TADA, Seiji SHIRAI, Takafumi UE, Seung-Tae KOH, Takao YAMAGUCHI

8. Transport Phenomena at the Wall of a Shaking Vessel with Horizontally Circulating Motion
Kagaku Kogaku Ronbunshu, 21(3), 621-624(1995)
Yoshihito KATO, Seturo HIRAOKA, Yutaka TADA, Seiji SHIRAI, Seung-Tae KOH, Takao YAMAGUCHI

9. Effects of Impeller Dimensions and Position on Power Cousumption in a Baffled Agitated Vessel
Kagaku Kogaku Ronbunshu, 21(4), 696-702(1995)
Noboru KAMEI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Hiroshi ISHIZUKA, Katsuki IWATA, Young-Sei LEE, Takao YAMAGUCHI, Seung-Tae KOH

10. Complete Suspension of Solid Particles in a Shaking Vessel
Kagaku Kogaku Ronbunshu, 21(5), 948-952(1995)
Yoshihito KATO, Seturo HIRAOKA, Yutaka TADA, Takeshi SHIROTA, Seung-Tae KOH, Young-Sei LEE, Takao YAMAGUCHI

11. Measurement of Circulation Time Distribution in a Shaking Vessel
Kagaku Kogaku Ronbunshu, 22(1), 134-139(1996)
Yoshihito KATO, Seturo HIRAOKA, Yutaka TADA, Takafumi UE, Seung-Tae KOH, Young-Sei LEE

12. Effects of Impeller and Baffle Dimensions on Power Consumption under Turbulent Flow in an Agitated Vessel with Paddle Impeller
Kagaku Kogaku Ronbunshu, 22(2), 249-256(1996)
Noboru KAMEI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Katsuki IWATA, Kazuhiko MURAI, Young-Sei LEE, Takao YAMAGUCHI, Seung-Tae KOH

13. Visualization of Flow Patterns in Shaking Vessels with Various Geometry
Kagaku Kogaku Ronbunshu, 22(3), 424-427(1996)
Yoshihito KATO, Seturo HIRAOKA, Yutaka TADA, Takafumi UE, Seung-Tae KOH, Young-Sei LEE

14. Note on Effect of Liquid Height on Power Consumption in a Non-Baffled Agitated Vessel
Kagaku Kogaku Ronbunshu, 22(3), 687-690(1996)
Noboru KAMEI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Hyoun-Gyu CHUN, Young-Sei LEE, Takao YAMAGUCHI ,Seung-Tae KOH

15. Mixing time and power consumption for a liquid in a vertical cylindrical vessel, shaken in a horizontal circle
Trans. IChemE., 74(May), 451-455 (1996)
Yoshihito Kato, Setsuro Hiraoka, Yutaka Tada, Seung-Tae Koh and Young-Sei Lee

16. Improvement of particle dispersion in a shaking vessel with current pole
J. Chem. Eng. Japan, 29(4) 697-701 (1996)
Yoshihito Kato, Seturo Hiraoka, Yutaka Tada, Takafumi Ue, Tsutomu Saito and Toshio Nomura

17. Power Correlation for Pitched Blade Paddle Impeller in Agitated Vessels With and Without Baffles
Kagaku Kogaku Ronbunshu, 23(6), 969-975(1997)
Noboru KAMEI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Hyoun-Gyu CHUN, Takao YAMAGUCHI

18. Effects of Position and Geometry of Current Pole on Mixing Characteristics in Shaking Vessel
J. Chem. Eng. Japan, 30(6)1147-1149 (1997)
Yoshihito Kato, Seturo Hiraoka, Yutaka Tada, Tsutomu Saito and Toshio Nomura

19. Liquid-Solid Mass Transfer for EGATRA Agitator
Kagaku Kogaku Ronbunshu, 24(3), 392-396(1998)
Tsutomu OISHI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Zin YANO, Takao YAMAGUCHI

20. Gas-Liquid Mass Transfer for EGATRA Agitator
Kagaku Kogaku Ronbunshu, 24(6), 977-979(1998)
Tsutomu OISHI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Yoshihiro ITO, Takao YAMAGUCHI

21. Correlation of Power Consumption for EGATRA Agitator
Kagaku Kogaku Ronbunshu, 24(6), 907-911(1998)
Tsutomu OISHI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Hyoun-Gyu CHUN, Takao YAMAGUCHI

22. Effect of Baffle Dimensions on Liquid Free Surface in an Agitated Vessel with Paddle Impeller
Kagaku Kogaku Ronbunshu, 25(1), 12-17(1999)
Noboru KAMEI, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Kenta YABUUCHI

23. Numerical Analysis for the Flow Pattern Fluctuations Based on the Stream Function in an Agitated Vessel
Kagaku Kogaku Ronbunshu, 25(1), 99-105(1999)
Nobuo Matsuda, Yutaka TADA, Setsuro Hiraoka and Koji KAMISARATANI

24. Power Spectrum and Fractal Dimension Analysis for Low Frequency Fluctuations in the Torque Time Series in an Agitated Vessel
Kagaku Kogaku Ronbunshu, 25(1), 543-548(1999)
Nobuo Matsuda, Yutaka TADA, Setsuro Hiraoka Yoshiro MIZUTANI and Koji KAMISARATANI

25. Power Consumption of "EGSTAR" Agitator under Aeration
Kagaku Kogaku Ronbunshu, 26(1), 1-5(2000)
Oishi Tsutomu, Seturo HIRAOKA, Yoshihito KATO, Yutaka TADA, Naoaki Inoue, Yoshio UKAI, Takao YAMAGUCHI

26. Chaotic Time Series Analysis of Dynamical Behavior for Low Frequency Fluctuations in Torque in Agitated Vessel
Kagaku Kogaku Ronbunshu, 26(3), 467-473(2000)
Nobuo Matsuda, Yutaka TADA, Setsuro Hiraoka Yoshiro MIZUTANI and Young-Sei Lee

27. Power consumption and gas-liquid mass transfer volumetric coefficient in a mechanically agitated vessel with wire-gauze impeller
J. Chem. Eng. Japan, 34(5),600-605 (2001)
Setsuro Hiraoka, Yoshihito Kato, Yutaka Tada, Shinichiro Kai,Naoaki Inoue and Yoshio Ukai

28. Investigation of Low Frequency Fluctuations in Flow Field in Agitated Vessel from Visualization and LDV measurement
Kagaku Kogaku Ronbunshu, 27(2), 259-264(2001)
Nobuo Matsuda, Yutaka TADA, Setsuro Hiraoka Yukihiko Mori and Young-Sei Lee

29. Comparison of Numerical Analysis Based on Stream Functions with Experimental Results for the Low Frequency Fluctuations in an Agitated Vessel
Kagaku Kogaku Ronbunshu, 27(3), 386-391(2001)
Nobuo Matsuda, Yutaka TADA, Setsuro Hiraoka Hideki Yagi and Yukihiko Mori

30. MODEL ANALYSIS OF MIXING TIME CORRELATION IN AN AGITATED VESSEL WITH PADDLE IMPELLER
J. Chem. Eng. Japan, 34(12),1499-1505 (2001)
Setsuro Hiraoka, Yutaka Tada, Yoshihito Kato, Akihiro Matsuura, Takao Yamaguchi and Young-Sei Lee

31. Solid-Liquid Mass Transfer in Gas-Liquid-Solid Agitated Vessel
J. Chem. Eng. Japan, 34(12),1532-1537 (2001)
Yoshihito Kato, Seturo Hiraoka, Yutaka Tada, Junichiro Suzuki, Kimihito Hirose, Young-Sei Lee and Song-Tae Koh

32. Power Consumption and Mixing Time in an Agitated Vessel with Double Impellers
Trans. IChemE, 79, 805-810 (2001)
S.Hiraoka, Y.Kato, Y.Tada, N.Ozaki, Y.Murakami and Y.S.Lee

33. Effects of Impeller and Baffle Conditions on Mixing Time in Turbulent Agitated Vessels
Kagaku Kogaku Ronbunshu, 28(1), 9-15(2002)
Noboru KAMEI, Setsuro HIRAOKA, Yoshihito KATO, Keiko YAMAZAKI

34. Mixing Performance of Agitated Vessel with Bottom Baffles
J. Chem. Eng. Japan, 35(2), 208-210(2002)
Yoshihito KATO, Setsuro HIRAOKA, Yutaka TADA, Mitsuhiro OHNISHI, Tomoko NAGANAWA, Ryuichiro YAMAUCHI and Katsumi SHIOBARA

35. Mixing Performances of a New Mixing Equipment with Vibratory Fins
J. Chem. Eng. Japan, 34(7), 649-653 (2002)
Yoshihito KATO, Setsuro HIRAOKA, Yutaka TADA, Keisuke MASE, Ryushin OHMASA, Young-Sei LEE and Song-Tae KOH

36. Correlation of Discharge Flow Rate in aVessel with Pitched Blade Paddle Impeller
J. Chem. Eng. Japan, 36(2), 187-197(2003)
Setsuro Hiraoka, Yutaka Tada, Yoshihito Kato, Yuichiro Murakami, Yusuke Sato, Akihiro Matsuura and Takao Yamaguchi

37. Power Consumption and Gas-Liquid Mass Transfer Volumetric Coefficient in an Agitated Vessel with Pitched Wire-Gaze Blade Impeller under Aeration
J. Chem. Eng. Japan, 36(3), 333-338(2003)
Setsuro Hiraoka, Yutaka Tada, Yoshihito Kato, Yoshio Ukai, Jun Sasaki,Takao Ymaguchi and Akihiro Matsuura

38. Frequency Components Related to the Macro-Instabilities of Flow in an Agitated Vessel
Kagaku Kogaku Ronbunshu, 29(3), 327-332(2003)
Nobuo Matsuda, Yutaka Tada, Setsuro Hiraoka, Shaoxiang Qian, Hiroshi Takeda, Keiji ISHIDA and Yukihiko MOri

39. Flow Pattens in Turbulent Region and Mixing in Laminar Region in a New Mixing Equipment with Low Frequency Vibratory Fins
Kagaku Kogaku Ronbunshu, 29(5), 596-600(2003)
Yoshihito KATO, Setsuro Hiraoka, Yutaka TADA, Akihiro MATSUURA, Shogo FUKUMOTO, Ryushin OMASA, Young-Sei LEE and Song-Tae KOH

40. Visualization of Flow Pattern and Mixing Process in a New Mixing Equipment with Low Frequency Vibratory Fins
Transactions of the Visualization Society of Japan, 23(9), 88-92(2003)
Yoshihito KATO, Setsuro Hiraoka, Yutaka TADA, Akihiro MATSUURA, Shogo FUKUMOTO, Ryushin OMASA, Young-Sei LEE and Song-Tae KOH

41. Effect of Impeller and Baffle Dimensions on Vortex Depth of Liquid Free Surface in an Agitated Vessel with Pitched Blade Paddle Impeller
Kagaku Kogaku Ronbunshu, 31(1), 105-107(2004)
Noboru Kamei, Setsuro Hiraoka, Yoshihito, Kato, Yutaka Tada, Kieiko Yamasaki

42. Power Consumption in Turbulent Agitated Vessels with Cylindrical Baffles
Kagaku Kogaku Ronbunshu, 30(5), 738-743(2004)
Noboru KAMEI, Setsuro HIRAOKA, Yoshihito KATO, Yutaka TADA, Yosuke YAMAMOTO

43. Effects of Off-bottom Clearance on Macro Instabilities in a Stirred Vessel
J. Chem. Eng. Japan, 37(10), 1215-1223(2004)
Nobuo Matsuda, Yutaka Tada, Setsuro Hiraoka, Shaoxiang Qian and Hiroshi Takeda

44. Mixing Performance of a New type of Anchor MIxer with Original Baffles
Kagaku Kogaku Ronbunshu, 31(3), 159-167(2005)
Yoshihito KATO, Yutaka TADA, Yuichiro NAGATSU, Hiroko SATO, Yushi IWASAKI, Kenji MATSUDA, Shinich IWAISHI and Setsuro HIRAOKA

45.Improvement of Mixing Efficiencies of Conventional Impeller with Unsteady Speed in an Impeller Revolution
J. Chem. Eng. Japan, 38(9), 688-691 (2005)
Yoshihito Kato, Yutaka Tada, Masako Ban, Yuichiro Nagatsu, Shuichi Iwata and Kazushi Yanagimoto

46. Estimation of Tangential Velocity near Side Wall of Fully Turbulent Agitated Vessel without Baffles
J. Chem. Eng. Japan, 39(6), 583-586 (2006)
Setsuro HIRAOKA, Yoshihito KATO, Shuichi IWATA, Yutaka TADA, Hiroyuki SAKAI, Takao YAMAGUCHI, Masaaki YAMAMURA, Imao NAGASAKA and Katumi SHIOBARA

47. Solid-Liquid Mass Transfer in Gas-Liquid-Solid 3-Phase Agitated Vessel
J. Korean Ind. Chem., 17(5), 509-516(2006)
Young-Sei Lee, Yoshihito Kato and Junichiro Suzuki

48. Evaluation of Unsteady Mixing Performance Using a Servo Motor
Kagaku Kogaku Ronbunshu, 32(6),465-470(2006)
Yoshihito KATO, Yutaka TADA, Shinya NAKAMICHI, Yuichiro NAGATSU, Shuichi IWATA, Shinich IWAISHI, Susumu KAJIHARA, Young-Sei LEE and Song-Tae KOH

49.Application of Asymmetric Impeller to Mixing at Unsteady Speed within a Single Revolution
Kagaku Kogaku Ronbunshu, 33(1), 16-19 (2007)
Yoshihito Kato, Yutaka Tada, Masako Ban, Yuichiro Nagatsu and Kazushi Yanagimoto

50. Hydrodynamics of a New Type Mixer "OCTAGIT"
Kagaku Kogaku Ronbunshu, 33(3), 195-200(2007)
Yoshihito Kato, Yutaka Tada, Piroko Sato, Hiromu HARADA, Yuichiro Ngatsu and Tetsuji Nakatani

51. Study on Tangential Velocity Distribution for Radial Direction in a Fully Turbulent Agitated Vessel without Baffles
Kagaku Kogaku Ronbunshu, 33(4), 281-287(2007)
Katsumi SHIOBARA, Setsuro HIRAOKA, Yoshihito KATO, Shuichi IWATA, Takao YAMAGUCHI and Masaaki YAMAMURA

52. On Similarity of Heat and Momentum Transfer at Side Wall of Fully Turbulent Agitated Vessel without Baffles
Kagaku Kogaku Ronbunshu, 33(4), 288-293(2007)
Katsumi SHIOBARA, Setsuro HIRAOKA, Yoshihito KATO, Shuichi IWATA, Takao YAMAGUCHI and Masaaki YAMAMURA

53.Transport Phenomena around Cyrindrical Baffle in an Agitated Vessel Measured using an Electrochemical Method
J. Chem. Eng. Japan, 40(8), 611-616(2007)
Y.Kato, N.Kamei, Y.Tada, Y.Iwasaki, Y.Nagatsu, S.Iwata, Y.S Lee and S.T Koh

54. Universal Expression of Tangential Velocity Profile near Side Wall of Fully Turbulent Agitated Vessel without Baffles
J. Chem. Eng. Japan, 40(8), 666-672(2007)
Setsuro HIRAOKA, Katumi SHIOBARA, Yoshihito KATO, Shuichi IWATA, Yutaka TADA, Takao YAMAGUCHI and Masaaki YAMAMURA

55. Estimation of Boundary Layer Thickness at Side Wall of a Fully Turbulent Agitated Vessel without Baffles
J. Chem. Eng. Japan, 40(10), 793-804(2007)
Katsumi SHIOBARA, Setsuro HIRAOKA, Yoshihito KATO, Shuichi IWATA, Yutaka TADA, Takao YAMAGUCHI and Masaaki YAMAMURA

56. Estimation of Heat Transfer Coefficient from Universal Expression of Tangential Velocity at Boundary Layer Edge on Side Wall of a Fully Turbulent Agitated Vessel
J. Chem. Eng. Japan, 41(3), 145-154(2008)
Katsumi SHIOBARA, Setsuro HIRAOKA, Yoshihito KATO, Shuichi IWATA, Yutaka TADA, Takao YAMAGUCHI and Masaaki YAMAMURA

57. Effects of Vortex Ring on Liquid Mixing
Kagaku Kogaku Ronbunshu, 34(6),562-565(2008)
Yoshihito KATO, Yutaka TADA, Hiromu HARADA, Yuichiro NAGATSU and Tetsuji NAKATANI

58. Mass Transfer of Solid-Liquid System in Turbulent Agitated Vessels
Kagaku Kogaku Ronbunshu, 34(6),551-556(2008)
Noboru KAMEI, Yoshihito KATO, Yutaka TADA, Takaomi MURAI and Junichi ANDO

59. Correlation of Power Consumption for Propeller and Pfaudler Type Impeller
J. Chem. Eng. Japan, 42(1), 6-9(2009)
Yoshihito KATO, Yutaka TADA, Yasuhiro TAKEDA, Yasuhiro HIRAI and Yuichiro NAGATSU

60. Effects of Unsteady Mixing in Turbulent Agitated Vessel
Kagaku Kogaku Ronbunshu, 35(1),152-157(2009)
Yoshihito KATO, Yutaka TADA, Yasuhiro TAKEDA, Yasuhiro HIRAI, Yuichiro NAGATSU, Shuichi IWATA, Shinich IWAISHI, Susumu KAJIHARA,Young-Sei LEE and Song-Tae KOH

61. Importance of Power Consumption in Design and Operation of Mixing Vessels
Kagaku Kogaku Ronbunshu, 35(2),211-215(2009)
Yoshihito KATO, Setsuro HIRAOKA, Noboru KAMEI and Yutaka TADA

62. Effects of Sparger Geometry on Power Consumption and Mass Transfer in Gas-Liquid Agitated Vessels with Disk Turbine
J. Chem. Eng. Japan, 42(9),664-668(2009)
Noboru Kamei, Yoshihito Kato, Yutaka Tada, Junichi Ando and Yuichiro Nagatsu

63. Low-Frequency Fluctuations in Agitated Vessels
J. Chem. Eng. Japan, 42(11),847-856(2009)
Hiroshi TAKEDA, Yutaka TADA and Setsuro HIRAOKA

64.Hydrodynamics and Power Consumption of Shaking Baffled Cylindrical Vessel with Rotary Motion
J. Chem. Eng. Japan, 42(11),857-860(2009)
Yoshihito Kato, Yutaka Tada, Mami Inoue, Yuichiro Nagatsu, Y.S Lee and S.T Koh

65. Prediction of Mixing Pattern from Power Number Diagram in Baffled and Unbaffled Mixing Vessels
J. Chem. Eng. Japan, 43(1),46-51(2010)
Yoshihito Kato, Yutaka Tada, Yasuhiro Takeda, Naoka Atsumi and Yuichiro Nagatsu

66. Differences of Mixing Power Consumption between Dished Bottom Vessel and Flat Bottom Vessel
Kagaku Kogaku Ronbunshu, 36(1),25-29(2010)
Yoshihito KATO, Yutaka TADA, Kunihiko URANO, Azusa NAKAOKA, Yuichiro NAGATSU

67. Differences of Power Consumption of Paddle Impellers with Same Blade Area in Turbulent Mixing Vessels
Kagaku Kogaku Ronbunshu,36(1),30-33(2010)
Yoshihito KATO, Yutaka TADA, Kunihiko URANO, Masahiro HATTORI, Yuichiro NAGATSU, Song-Tae KOH and Young-Sei LEE

68.Flow Visualization and Numerical Analysis of a New Mixing Equipment with Vibratory Fins
Korean J. Chem. Eng., 27(1),1-5(2010)
Yoshihito Kato, Setsuro Hiraoka, Shogo Fukumoto, Yutaka Tada, Yuichiro Nagatsu, Ryushin Ohmasa, Sung Tae Koh and Young Sei Lee

69.Power Consumption of Anchor Impeller over Wide Range of Reynolds Number
Kagaku Kogaku Ronbunshu, 37(1), 19-21 (2011)
Yoshihito KATO, Noboru KAMEI, Yutaka TADA, Noriyuki KATO, Tomoho KATO, Tatsuhiko IBUKI, Haruki FURUKAWA and Yuichiro NAGATSU

70.Effect of Baffle Length on Power Consumption in Turbulent Mixing Vessel with Rushton Turbine Impeller
Kagaku Kogaku Ronbunshu, 37(2), 147-149(2011)
Yoshihito KATO, Noboru KAMEI, Yutaka TADA, Azusa NAKAOKA, Yuichiro NAGATSU, Song-Tae KOH and Young-Sei LEE

71.Power Consumption in Turbulent Mixing Vessel with Spherical Bottom
Kagaku Kogaku Ronbunshu, 37(4),305-309(2011)
Yoshihito KATO, Katsumi SHIOBARA, Haruki HURUKAWA, Yutaka TADA, Yuichiro NAGATSU, Song-Tae KOH and Young-Sei LEE

72.Effect of Baffle Length on Power Consumption in Turbulent Mixing Vessel
Kagaku Kogaku Ronbunshu, 37(4),377-380(2011)
Yoshihito KATO, Noboru KAMEI, Yutaka TADA, Azusa NAKAOKA, Tatsuhiko IBUKI, Yuichiro NAGATSU, Song-Tae KOH and Young-Sei LEE

73.Effect of Baffle Length on Power Consumption of Propeller Impeller
Kagaku Kogaku Ronbunshu, 38(2),87-89(2012)
Yoshihito KATO, Azusa NAKAOKA, Haruki FURUKAWA, Yutaka TADA, Song-Tae KOH and Young-Sei LEE

74. Correlation of Power Consumption for Several Kinds of Mixing Impellers
International J. Chem. Eng., Article ID 106496 6pages(2012)
Haruki FURUKAWA, Yoshihito KATO, Yoshiro INOUE, Tomoho KATO, Yutaka TADA, and Shunsuke HASHIMOTO

75. Power Consumption of Two-Blade Wide Paddle Impellers
Kagaku Kogaku Ronbunshu, 38(3),137-143(2012)
Yoshihito KATO, Azusa OBATA, Tomoho KATO, Haruki FURUKAWA and Yutaka TADA

76. Dependence of Reynolds Number for Power Consumption Change on Paddle Impeller Position
Kagaku Kogaku Ronbunshu, 38(3),144-147(2012)
Haruki FURUKAWA, Yoshihito KATO, Yutaka TADA, Song-Tae KOH and Young-Sei LEE

77. Enhancement of Fluid Mixing by Deformations of Streak Surface
Kagaku Kogaku Ronbunshu, 38(4),191-202(2012)
Yoshiro INOUE CYoshihito KATO, Ryota OSAKA, Kazuya NATAMI,Oketch Lamek ONYANGO, Makiko KAWAMATA and Shunsuke HASHIMOTO

78. Scale up and Effect of Sparger Position on Power Consumption and Mass Transfer in Mixing Vessel with Disk Turbine
Kagaku Kogaku Ronbunshu, 38(4),203-208(2012)
Noboru KAMEI, Kazuya MITSUHASHI, Eiki ODA, Haruki FURUKAWA, Yoshihito KATO and Yutaka TADA

79. Power Consumption and Mass Transfer in Gas-Liquid Mixing Vessel with Concave Turbine and Large Ring Sparger
Kagaku Kogaku Ronbunshu, 38(4),209-211(2012)
Haruki FURUKAWA, Eiki ODA, Chengli HE, Noboru KAMEI, Yoshihito KATO and Yutaka TADA

80. Power Consumption of Mixing Vessel with Draft Tube
Kagaku Kogaku Ronbunshu, 39(1),9-12(2013)
Haruki FURUKAWA, Yoshihito KATO, Yutaka TADA, Song-Tae KOH and Young-Sei LEE

81. Correlation of Power Consumption for Rectangular Mixing Vessel
Kagaku Kogaku Ronbunshu, 39(2),94-97(2013)
Haruki FURUKAWA, Yoshihito KATO, Fumito KATO, Yoshitaka FUKATSU and Yutaka TADA

82.Power Correlations and Mixing Patterns of Several Large Paddle Impellers with Dished Bottom
J. Chem. Eng. Japan, 46(4),255-261(2013)
Haruki Furukawa, Yoshihito Kato, Tomoho Kato and Yutaka Tada

83. Correlation of Power Consumption of Mixing Vessel with Helical Coil
Kagaku Kogaku Ronbunshu, 39(3),171-174(2013)
Haruki FURUKAWA, Yoshihito KATO, Shintaro ITO and Yutaka TADA

84. Correlation of Power Consumption for Eccentric Rectangular Mixing Vessel
Kagaku Kogaku Ronbunshu, 39(3),175-177(2013)
Haruki FURUKAWA, Yoshihito KATO, Yoshitaka FUKATSU and Yutaka TADA

85. Power Consumption in Gas-Liquid Mixing Vessel with Dual Impellers including Concave Turbine and Large Ring Sparger
Kagaku Kogaku Ronbunshu, 39(4),287-289(2013)
Haruki FURUKAWA, Noboru KAMEI, Yoshihito KATO, Chengli HE, Tomoya SUZUKI and Yutaka TADA

86. Correlation of Power Consumption for Eccentric Rectangular Mixing Vessel with Propeller Impeller
Kagaku Kogaku Ronbunshu, 39(4),290-293(2013)
Haruki FURUKAWA, Yoshihito KATO, Yoshitaka FUKATSU and Yutaka TADA

87. Correlation of Power Consumption for Eccentric Rectangular Mixing Vessel
Kagaku Kogaku Ronbunshu, 39(6),479-484(2013)
Haruki FURUKAWA, Yoshihito KATO, Yoshitaka FUKATSU, Yutaka TADA, Song-Tae KOH and Young-Sei LEE

88. Correlation of Power Consumption for Dispersing Impeller
Kagaku Kogaku Ronbunshu, 40(1), 1-4(2014)
Yoshihito KATO, Ryo NAGUMO, Haruki FURUKAWA, Shintaro ITO, Yutaka TADA, Song-Tae KOH and Young-Sei LEE

89. Mixing Performance of Cone Type Draft Tube
Kagaku Kogaku Ronbunshu, 40(4), 282-285(2014)
Haruki FURUKAWA, Yoshihito KATO, Ryo NAGUMO, Yutaka TADA and Makoto SATO

90. Power Consumption and Mass Transfer in Gas-Liquid Mixing Vessel without Baffle and with Weak Baffle Condition
Kagaku Kogaku Ronbunshu, 40(5), 372-375(2014)
Noboru KAMEI, Yoshihito KATO, Ryo NAGUMO, Haruki FURUKAWA, Tomoya SUZUKI and Yutaka TADA

91. Mixing Mechanism of Large Paddle Impeller Based on Streak Line Observation
Kagaku Kogaku Ronbunshu, 41(1), 11-15(2015)
Yoshihito KATO, Yoshiro INOUE, Masashi HIRAMATSU and Shota OHTANI

92. Development of New Large Paddle (HB Type) Impeller Based on Streak Line Observation
Kagaku Kogaku Ronbunshu, 41(1), 16-20(2015)
Yoshihito KATO, Masashi HIRAMATSU, Shota OHTANI, Manami YOSHIDA and Katsumi SHIOBARA

93. Mixing Performance of Large Asymmetric Impeller Based on Streak Line Observation
Kagaku Kogaku Ronbunshu, 41(1), 20-24(2015)
Yoshihito KATO, Tomohiro ITO, Haruki FURUKAWA, Ryo NAGUMO,Yutaka TADA,Song-Tae KOH and Young-Sei LEE

94. Correlation of Power Consumption for Concave Turbine Impeller
Kagaku Kogaku Ronbunshu, 41(2), 91-94(2015)
Haruki FURUKAWA, Yoshihito KATO, Ryo NAGUMO, Yutaka TADA

95.Evaluation of Mixing Performance Based on Streak Line Observation and Correlation of Power Consumption for BENDLEAF Impeller
Kagaku Kogaku Ronbunshu, 41(3),184-189(2015)
Yoshihito KATO, Yoshitaka OGURI, Masayuki MATSUNO, Haruki FURUKAWA and Ryo NAGUMO

96.Effect of Thickness of Mixing Impeller Blade on Power Consumption
Kagaku Kogaku Ronbunshu, 41(4), 215-219(2015)
Yoshihito KATO, Haruki FURUKAWA, Keita FUJII, Ryo NAGUMO, Yutaka TADA, Song-Tae KOH and Young-Sei LEE

97.Mixing of Viscoelastic fluid with Anchor Impeller in Rotating Vessel
Kagaku Kogaku Ronbunshu, 41(5), 273-275(2015)
Norihiro MORIKAWA, Shinsuke ASAYAMA, Yoshihito KATO, Yuki OHINATA, Noriyuki KATO, Shuichi IWATA, Haruki FURUKAWA and Ryo NAGUMO

98.Characteristics of Power Consumption and Mixing Time of New Large Paddle (HB Type) Impeller
Kagaku Kogaku Ronbunshu, 41(5), 276-280(2015)
Yoshihito KATO, Syota OHTANI and Haruki FURUKAWA

99.Mixing Patterns with Several Kinds of Impellers in Rectangular Vessels
J. Chem. Eng. Japan, 48(10), 809-814(2015)
Haruki Furukawa, Yoshihito Kato, Yoshitaka Fukatsu, Ryo Nagumo, Yutaka Tada

100.Streak Line Pattern of Large Paddle Impeller Based on Numerical Analysis
Kagaku Kogaku Ronbunshu, 41(6),358-361(2015)
Yoshihito KATO, Manami YOSHIDA, Haruki FURUKAWA, Ryo NAGUMO and Yutaka TADA

101.Metzner-Otto Constant of Paddle Impeller with Two Large Blades in Shear Thinninng Fluid
Kagaku Kogaku Ronbunshu, 42(3),92-95(2016)
Haruki FURUKAWA , Norihisa NAKAMURA, Yoshihito KATO, Ryo NAGUMO and Yutaka TADA

102. Power Consumption and Mass Transfer of High Viscosity Liquid in Gas-Liquid Mixing Vessel with Large Paddle Impeller
Kagaku Kogaku Ronbunshu, 42(5),174-178(2016)
Masahiro HAITSUKA, Noboru KAMEI, Yoshihito KATO, Masataka KAMIYA, Haruki FURUKAWA and Ryo NAGUMO

103. Effect of Liquid Height on Power Consumption of Two-Blade Wide Paddle Impeller
Kagaku Kogaku Ronbunshu, 42(6),187-191(2016)
Yoshihito KATO, Nobuhiro YASUI, Haruki FURUKAWA and Ryo NAGUMO

104.Mass Transfer of Oxygen and Power Consumption with Highly Viscous Liquid in Gas-Liquid Agitated Vessel
Journal of Chemical Engineering Research Updates, 4,1-6(2017)
Haruki FURUKAWA, Kento MATSUMOTO, Yoshihito KATO, Masataka KAMIYA, Masahiro HAITSUKA and Noboru KAMEI

105.Effects of Location of Baffle and Clearance between Baffle and Vessel Wall on Isolated Mixing Regions
J. Chem. Eng. Japan, 51(1), 29-32(2018)
Haruki FURUKAWA, Shota OHTANI, Yoshihito KATO and Yutaka TADA

106.Application of New Large Paddle (HB Type) Impeller to Magnetic Stirring
Kagaku Kogaku Ronbunshu, 44(2),91-93(2018)
Keisuke Suzuki, Yasuyuki IKEDA, Haruki FURUKAWA and Yoshihito KATO

107.Development of New Anchor Impellers for Non-Newtonian Fluid in a Rotating Vessel
Kagaku Kogaku Ronbunshu, 44(5), 292-297(2018)
Takuya ARAI, Norihiro MORIKAWA, Shinsuke ASAYAMA, Haruki FURUKAWA and Yoshihito KATO

108. Development of a Mixing Process using an HB-type Impeller to Easily Achieve Scale-up by Maintaining Geometrical Similarity
International Journal of Chemical Engineering, Article ID 2787641,7pages(2018)
Yoshihito KATO, Haruki FURUKAWA, Yasuyuki IKEDA, Toshikazu NAKANISHI, Tadashi SANO and Kenji TOMIOKA

109. Mixing Performance of LR500 Impeller for Highly Viscous Fluid
Kagaku Kogaku Ronbunshu, 44(6), 346-349(2018)
Yoshikazu KATO, Takahiro NEMOTO, Ken-ichi AGO,Takuya ARAI, Haruki FURUKAWA and Yoshihito KATO

110.Development of Glass Lining Type HB Impeller
Kagaku Kogaku Ronbunshu,, 45(1), 6-9(2019)
Masayuki MATSUNO, Keisuke SUZUKI, Akari Sato, Haruki FURUKAWA and Yoshihito KATO

111. Correlation of Power Consumption in Cylindrical Mixing Vessel with Spherical Bottom
Kagaku Kogaku Ronbunshu, 45(2),46-50(2019)
Haruki FURUKAWA,Yuto NAGAYA and Yoshihito KATO

112.Correlation of power consumption of a double impeller based on impeller spacing in laminar region
International Journal of Chemical Engineering, ArticleID 4564589, 8pages(2019)
Haruki Furukawa, Toshiki Kamiya and Yoshihito Kato

113.Quick Evaluation Method of Streak Line Pattern in Mixing Vessel Based on Unsteady State Two dimensional Analysis
Kagaku Kogaku Ronbunshu, 45(6), 211-218(2019)
Kodai OYA, Shota OTANI, Keisuke SUZUKI, Kenji EBISUTANI, Yuto NAITO, Haruki FURUKAWA and Yoshihito KATO

114.Mixing performance of baffles in shear thinning fluids
Chemical Engineering & Technology, 44(8),1440-1446(2021)
Haruki FURUKAWA, Yoshito MIZUNO and Yoshihito KATO

115.Development of New Element for Mixing of High and Low Viscous Fluids
Kagaku Kogaku Ronbunshu, 47(6), 251-256(2021)
Anna MATSUOKA, Shinsuke ASAYAMA, Norihiro MORIKAWA, Haruki FURUKAWA, Yoshihito KATO and Seung-Tae KOH

116.Evaluation of Mixing Performances of large paddle impeller HRX300
Kagaku Kogaku Ronbunshu, 47(6), 257-261(2021)
Ryota NISHIDA, Chihiro KOIDE, Haruki FURUKAWA, Yoshihito KATO, Ken-ichi AGO, Takahiro NEMOTO, Yoshikazu KATO and Seung-Tae KOH

117.A Discussion about Minimum Rotational Speed for Complete Suspension in Turbulent Solid-Liquid Mixing
Kagaku Kogaku Ronbunshu, 48(1),1-6(2022)
Noboru KAMEI, Setsuro HIRAOKA, Haruki FURUKAWA and Yoshihito KATO

118.Drawdown of Floating Solid in Mixing vessel with Inside Baffle
J. Chem. Eng. Japan, 55(2),92-96(2022)
Haruki FURUKAWA, Yuya MABUCHI and Yoshihito KATO

119.Mixing of Plastic Fluid with Large Paddle Impeller
Kagaku Kogaku Ronbunshu, 48(3), 76-80(2022)
Atsuhiko OHTA, Hayato TAKAKURA, Shingo NAKAMARU, Haruki FURUKAWA, Yoshihito KATO and Seung-Tae KOH

120. Experimental Verification for Numerical Flow Analysis in Mixing Vessel
Journal of Chemical Engineering Research Updates, 9,31-40(2022)
Masaya KANO, Haruki FURUKAWA, Yoshihito KATO, Yuta TANEMORI, Yuya SHUDO, Takahito MITOME, Tsuyoshi YAMADA and Kazuhiro YAMASHITA

121.Evaluation Mixing Performance of New Type Axial Flow Impellers HR320 and HR320S
Kagaku Kogaku Ronbunshu, 49(3), 56-61 (2023)
Hayato TAKAKURA, Mai IWATA, Ryota NISHIDA, Chihiro KOIDE, Haruki FURUKAWA,Yoshihito KATO, Yoshikazu KATO, Takahiro NEMOTO, Ken-ichi AGO and Seung-Tae KOH

122.Development of New Multipurpose Transformable Multiple Impeller (Advanced Mixing Impeller) for Highly Viscous Fluids
Kagaku Kogaku Ronbunshu, 49(4), 89-94(2023)
Riki TAKAHASHI, Anna MATSTOKA, Haruki FURUKAWA , Yoshihito KATO, Shinsuke ASAYAMA, Norihiro MORIKAWA and Seung-Tae KOH

123.Application of HB Impeller from Test Tube to Pilot Scale Mixing Vessel
Kagaku Kogaku Ronbunshu, 49(5),109-113(2023)
Shiori YASUI, Takuya INA, Daisuke HATTORI, Kazuki SHIMOKOBE, Ran HARAGUCHI, Haruki FURUKAWA, Yoshihito KATO and Seung-Tae KOH

124.Development and Evaluation Mixing Performance of New Type Large Paddle Impeller GD220
Kagaku Kogaku Ronbunshu, 49(5),114-118(2023)
Riki TAKAHASHI, Mai IWATA, Haruki FURUKAWA, Yoshihito KATO, Yoshikazu KATO, Takahiro NEMOTO, Ken-ichi AGO and Seung-Tae KOH

125.Development and Evaluation of Mixing Mechanism of New Transformable Multiple Impeller(AM Impeller)
Journal of Advanced Manufacturing and Processing, Article ID: AMP210170(2023)
Haruki FURUKAWA, Riki TAKAHASHI, Anna MATSUOKA, Yoshihito KATO, Shinsuke ASAYAMA, Norihiro MORIKAWA and Seung-Tae KOH

126. Effect of Surface Roughness of Mixing Impeller on Power Consumption
Kagaku Kogaku Ronbunshu, to be published
Kenshi FUKUZAWA, Riki TAKAHASHI, Haruki FURUKAWA, Yoshihito KATO, and Seung-Tae KOH

127. Effect of Inside Surface Baffle Conditions on Just Drawdown Impeller Rotational Speed
International Journal of Chemical Engineering, ArticleID 9254851, 9pages(2024)
Haruki Furukawa, Tomoki Ota, Yoshihito Kato

(2)CFD
1. Theoretical Analysis of Turbulent Flow and Heat Transfer around a Surface-Mounted Obstacle
J.Chem.Eng.Japan, 24(2),171-177(1991)
T.Aragaki,S.Iwata, H.Tange,S.Hiraoka,I.Yamada,F.Kawaizumi

2. Surface Phenomena in Capillary Flow of Polymer Solutions
Canadian J.Chem.Eng.,71(June),347-357(1993)
W.Kozicki, P.Q.Kuang, T.Aragaki and S.P.Yim

3. Numerical Analysis of Turbulent Flow and Heat Transfer in Parallel Plates Attached with Turbulence Promoters at Regular Intervals on Lower Surface
J.Chem.Eng.Japan, 29(3), 407-415(1996)
T.Aragaki, H.Taki, T.Uchikawa, S.Iwata, H.Mori ,H,Miyashita, M.Yoshida

4. Finite Element Method Analysis of Three-Dimensional Cake Growth during Slip Casting
J.Ceram.Soc.Japan, 105(10),891-896(1997)
Jyun Shimizu, Minoru Takahashi, Tsutomu Aragaki, Hideo Unuma and Masanori Ueki

5. A Decoupled Finite Element Analysis of Die-swell Flow of Viscoelastic Fluids,
Seikei-Kakou, 10(10), 824-831(1998)
Shuichi Iwata, Tsutomu Aragaki, Hideki Mori, Yusaku Shin, Satoshi Ishikawa and Kinya Iwabuchi

6. Numerical Simulation of Two Dimensional Cake Groth in a Rectangular Slip Casting System
Ceramic Transactions, 83, 203-210(1998)
M.Takahashi, J.Shimizu, H.Unuma and T.Aragaki

7. A Higher Weissenberg Number Analysis of Die-swell Flow of Viscoelastic Fluids Using a Decoupled Finite Element Method
Seikei-Kakou, 12(2),115-121(2000)
Shuichi Iwata, Tsutomu Aragaki, Hideki Mori, Satoshi Ishikawa and Yusaku Shin

8. A Decoupled Finite Element Analysis of Viscoelastic Flows Using the Concept of Additive Viscosity
Seikei-Kakou, 12(8),523-529(2000)
Shuichi Iwata, Tsutomu Aragaki, Hideki Mori, Satoshi Ishikawa and Hikaru Waki

9. Less Memory Demand / Finite Element Analysis of Viscoelastic Fluid Flows
Kagaku Kogaku Ronbunshu, 28(1), 102-109(2002)
Shuichi Iwata, Tsutomu Aragaki, Hideki Mori, Yoshinobu Hori and Kenichi Otsubo

10. Application of a Singular/Decoupled Finite Element Method to the Viscoelastic Die-swell Flow Simulation
J.Chem.Eng.Japan, 34(7), 660-669(2002)
Shuichi Iwata, Tsutomu Aragaki, Hideki Mori, Masahito Hattori and Hikaru Waki

11. Singular Finite Elements for the Die-Swell Simulation of Viscoelastic Fluids
J.Chem.Eng.Japan, 37(9), 1140-1149(2004)
Shuichi Iwata, Hideki Mori, Tsutomu Aragaki, Yusuke Takahashi, Masahito Hattori and Ikuhisa Goto

12. Pressure-Oscillatory Defoaming for Shear-thinning Fluids
Kagaku Kogaku Ronbunshu, 33(4), 294-299(2007)
Shuichi IWATA, Shingo UCHIDA, Kazuto ISHIDA and Hideki MORI

13. Pressure Oscillation Defoaming for Viscoelastic Fluid
J. Non-Newtonian Fluid Mech., 151(1-3),30-37(2008)
Shuichi IWATA, Yusuke YAMADA, Toru TAKASHIMA and Hideki MORI

14. Experimental Visualization of Local Flow of Shear-thinning Fluid around a Small Bubble for Pressure Oscillation Defoaming
Kagaku Kogaku Ronbunshu, 34(4),417-423(2008)
Shuichi IWATA, Yusuke YAMADA, Shogo KOMORI and Hideki MORI

15.Application of a modified unsteady term for improving convergence behavior of steady-state finite element analysis of viscoelastic fluids
Seikei-Kakou, 20(12),886-893(2008)
Shuichi IWATA, Takuma KATO, Tomoyuki OZAWA, Jun-ya YANO and Hideki MORI

16.Unsteadystate Finite Element Analysis of Non-Newtonian Fluid around a Fixed Small Bubble under Pressure-Oscillating Field
Nippon Kikaigakkai Ronbunshu,75(753),B,922-928(2009)
Shuichi IWATA, Toru TAKASHIMA, Sayaka OHISHI, Yusuke YAMADA and Hideki MORI

17. Motion of a Bubble in a Branch Flow Channel under a Pressure-Oscillating Field
Kagaku Kogaku Ronbunshu, 36(4),366-370(2010)
Shuichi IWATA, Toru OBIGANE, Hikaru SHIBATA and Hideki MORI

18. Stress Measurement around a Small Air Bubble by Flow Birefringence in a Pressure-Oscillating Field
Kagaku Kogaku Ronbunshu, 36(5), 435-440(2010)
Shuichi IWATA, Sayaka OISHI, Ayumi ARIAKE, Hideki MORI, Tsutomu TAKAHASHI(Nagaoka University of Technology)

19. Measurement of Surface Tension and Contact Angle by Analysis of Force Balance along a Bubble/Droplet Surface
Kagaku Kogaku Ronbunshu, 36(5), 441-448(2010)
Shuichi IWATA, Hironori SUZUKI, Hideki MORI

20. Motion of bubbles in branch flow channel filled with viscoelastic fluids under pressure-oscillating field
J. Chem. Eng. Japan, 45(2),123-127(2012)
Shuichi Iwata, Hideki Mori, Hikaru Shibata, Keisuke Murakami

21. Viscosity measurement of gelcasting slurry during in-situ gelation by a micro X-ray CT scan system
Ceramics International, 39(5), 5309-5316(2013)
Shuichi IWATA,Tomoaki KATO, Ruben L. MENCHAVEZ, Masayoshi FUJI, Hideki MORI, Yumiko Yoshitake(Tokyo Denki Univ.), Yusuke YAMADA, Yasuhiro SAIKI

22. Numerecal Analysis of Flow Dynamics of Milk in a Milk-Filling Process
Kagaku Kogaku Ronbunshu, 41(1), 1-10(2015)
Kenji MATSUMOTO, Mitsuhiro OHTA and Shuichi IWATA

23. The dynamic motion of single bubbles with unique shapes rising freely in hydrophobically modified alkali-soluble emulsion polymer solutions
Journal of Rheology, 59(2), 303-316 March/April (2015)
Mitsuhiro Ohta (The University of Tokushima), Naoto Kobayashi(The University of Tokushima), Yoshihiko Shigekane(The University of Tokushima), and Yutaka Yoshida (Muroran Institute of Technology), Shuichi Iwata

24. The motion of a bubble rising through viscoelastic polymeric liquids
Transactions of the JSME, Vol.81(823), 14-00612 (2015)
Mitsuhiro OHTA(The University of Tokushima), Yasufumi HIEDA(The University of Tokushima), Norihiko TOKUI(The University of Tokushima) and Shuichi IWATA

25. Experimental study on motion of bubbles in non-Newtonian fluids under pressure oscillating field
Transactions of the JSME, Vol.81(823),14-00609 (2015)
Shuichi IWATA, Ayaka MIZUKOSHI, Ryo NAGUMO and Hideki MORI

26. Experimental study of particle concentration under electric field
Transactions of the JSME, Vol.81(823),14-00611 (2015)
Shuichi IWATA, Wataru KUBOTA, Masayoshi FUJI, Takashi SHIRAI, Ryo NAGUMO and Hideki MORI

27. The Effect of Filling Operation Conditions on the Efficiency of Production Process of Paper Carton Milk
Kagaku Kogaku Ronbunshu, 42(3),83-91(2016)
Kenji MATSUMOTO(The University of Tokushima), Mitsuhiro OHTA(The University of Tokushima), Shuichi IWATA

28.Measurement of Dynamic Surface Tension by Mechanically Vibrated Sessile Droplets
Review of Scientific Instruments, 87, 045106 (2016)
Shuichi Iwata, Satoko Yamauchi, Yumiko Yoshitake(Nagaoka University of Technology), Ryo Nagumo, Hideki Mori, and Tadashi Kajiya(Max Planck Institute for Polymer Research)

29. Development of mechanical measurement technique for planar elongation viscosity using resistant force on pushing bullet bob
Nihon Reoroji Gakkaishi,44(3), 175-183(2016)
Yukinobu SUGIHARA(Nagaoka University of Technology), Wataru KUBOTA, Yumiko YOSHITAKE(Nagaoka University of Technology), Tsutomu TAKAHASHI(Nagaoka University of Technology), Shuichi IWATA, Ryo NAGUMO and Hideki MORI

30. Numerical and experimental study of an internal flow in a tiny droplet under the vibrating field
Nihon Reoroji Gakkaishi, 44(3), 137-141(2016)
Satoko Yamauchi, Shuichi Iwata, Yumiko Yoshitake(Nagaoka University of Technology), Ryo Nagumo, Hideki Mori, and Tadashi Kajiya(Max Planck Institute for Polymer Research)

31. Three-Dimensional Numerical Analysis of the Filling Process of Milk into Paper Milk Cartons
Nihon Reoroji Gakkaishi, 44(3), 159-166(2016)
Kenji MATSUMOTO(The University of Tokushima), Mitsuhiro OHTA(The University of Tokushima), Shuichi IWATA

32. Evaluation of planar elongation viscosity of low-viscosity liquids using annular abrupt contraction flow around a sliding disk-shaped bob
Rheologica Acta, 57(2), pp. 97-104 (2018)
Yukinobu SUGIHARA(Nagaoka University of Technology), Shuichi IWATA, Tsutomu TAKAHASHI(Nagaoka University of Technology)

33. Experimental Investigation of a Rising Bubble in Aqueous Gelatin Solution under Gelation Process
Reoroji Gakkaishi, 46(3),107-115(2018)
Shuichi IWATA, Yasuhiro SAIKI, Ryo Nagumo, Hideki MORI, Masayoshi FUJI, Ruben MENCHAVEZ(MSU-Iligan Institute of Technology, Philippines)
(Distinguished Paper Award)

34. A Consideration about Threadlike Shapes that Emerge from the Gas-Liquid Interface of Single Rising Bubbles in a Highly Viscous Viscoelastic Liquid
Japanese Journal of Multiphase Flow, in printing
OHTA Mitsuhiro(Tokushima Univ.),TOKUI Norihiko(Tokushima Univ.),FUJIMOTO Shugo(Tokushima Univ.),IWATA Shuichi

35. Local flow around a tiny bubble under a pressure-oscillation field in a viscoelastic worm-like micellar solution
Journal of Non-Newtonian Fluid Mechanics, 269,pp.24-32(2019)
Shuichi Iwata, Tsutomu Takahashi(Nagaoka Univ. Tech.), Takashi Onuma(Photron Co.,LTD.), Ryo Nagumo, Hideki Mori

36. Planar Elongation Flow Analysis of Non-Newtonian Fluids Using a Disk-Shaped Bob
TECHNISCHE MECHANIK, 39(1),pp.16-29(2019)
Shunsaku Ito, Shuichi Iwata, Yukinobu Sugihara (National Inst. Tech., Nagaoka College),Tsutomu Takahashi(Nagaoka Univ. Tech.)

37. Numerical Simulation of a Rising Bubble in a Shear-thinning Fluid under Pressure-Oscillating Field
Nihon Reoroji Gakkaishi, 48(3), pp.145-151(2020)
Shunsaku ITO, Shuichi IWATA, Ryo NAGUMO, and Hideki MORI

38. Memory Efficient Singular Finite Element Method for Flow of Viscoelastic Fluids
J. Chem. Eng. Japan, 53(8),pp.446-456 (2020)
Shuichi Iwata, Ryo Nagumo, Hideki Mori, and Haruki Furukawa

(3) Membrane
1.Computational Chemistry Study on the Microscopic Interactions between Biomolecules and Hydrophilic Polymeric Materials
J. Chem. Eng. Japan, 46(7),421-423(2013)
Ryo Nagumo, Kazuki Akamatsu, Ryuji Miura, Ai Suzuki, Nozomu Hatakeyama, Hiromitsu Takaba and Akira Miyamoto

2.Simulated Process Evaluation of Synthetic Natural Gas Production Based on Biomass Gasification and Potential of C02 Capture Using Membrane Separation Technology
J. Japan Petroleum Institute, 56(6), 395-400 (2013)
Ryo NAGUMO, Shuichi IWATA, and Hideki MORI

3.Theoretical Screening of Antifouling Polymer Repeat Units by Molecular Dynamics Simulations
Polymer Journal, 46(10), 736-739 (2014)
Ryo Nagumo, Shohei Terao, Takaaki Miyake, Haruki Furukawa, Shuichi Iwata, Hideki Mori, and Hiromitsu Takaba

4. Potential of Carboxybetaine Polymer-Coated Siliceous Membranes in Desalination Processes: A Molecular Dynamics Simulation Study
J. Chem. Eng. Japan, 48(10), 805-808 (2015)
Ryo Nagumo, Takaaki Miyake, Haruki Furukawa, Shuichi Iwata, Hideki Mori, and Hiromitsu Takaba

5. Molecular Dynamics Simulations for Systematic Prediction of the CO2 Solubility of Physical Absorbents
J. Chem. Eng. Japan, 49(1), 1-5 (2016)
Ryo Nagumo, Yukihiro Muraki, Masaki Taniguchi, Haruki Furukawa, Shuichi Iwata, Hideki Mori, and Hiromitsu Takaba

6. Computational Chemistry Study of the Molecular Interactions in CO2-Loaded Diethylene Glycol, Triethylene Glycol, and Diethylene Glycol Dimethyl Ether
J. Japan Petroleum Institute, 59(5), 211-218 (2016)
Yukihiro Muraki, Ryo Nagumo, Hidetaka Yamada, Shuichi Iwata, and Hideki Mori

7. A Molecular Dynamics Simulation Study on CO2 Physical Absorption Mechanisms for Ethylene Glycol-Based Solvents using Free Energy Calculations
Ind. Eng. Chem. Res., 55(29), 8200-8206 (2016)
Ryo Nagumo, Yukihiro Muraki, Shuichi Iwata, Hideki Mori, Hiromitsu Takaba, and Hidetaka Yamada

8. Molecular Dynamics Study of the Correlation between the Solvation Structures and the Antifouling Properties of Three Types of Betaine Moieties
J. Chem. Eng. Japan, 50(5), 333-338 (2017)
Ryo Nagumo, Ryoya Suzuki, Takaaki Miyake, Haruki Furukawa, Shuichi Iwata, and Hideki Mori

9. Estimation of the Binding Strengths of the Ketone Groups of Vinyl Pyrrolidone Analogs to the Surrounding Solvent Based on Molecular Dynamics Simulations
J. Chem. Eng. Japan, 52(1), 1-7(2019)
Ryo Nagumo, Kenta Yamamoto, Shuichi Iwata, and Hideki Mori

10. Molecular Dynamics Study of the Molecular Mobilities and Side-Chain Terminal Affinities of 2-Methoxyethyl Acrylate and 2-Hydroxyethyl Methacrylate
Polymer Journal, in press.
Ryo Nagumo, Atsushi Shimizu, Shuichi Iwata, and Hideki Mori

11. Evaluation of permeation mechanisms of silylated ionic liquid-derived organosilica membranes for toluene/methane separation
J. Jpn. Petrol. Inst., 63(4), 213-220(2020)
Yuichiro Hirota, Takuto Nakai, Shohei Hayami, Fumiya Sasaki, Norikazu Nishiyama

12. Development of organosilica membranes with ionic liquid-like properties and application to organic vapor separation
J. Jpn. Petrol. Inst., 63(5), 248-257(2020)
Yuichiro Hirota

13. Interactions between Acrylate/Methacrylate Biomaterials and Organic Foulants Evaluated by Molecular Dynamics Simulations of Simplified Binary Mixtures
ACS Biomater. Sci. Eng., 7, 3709-3717(2021)
Ryo Nagumo, Takumi Matsuoka, and Shuichi Iwata

14. Development of Low-Fouling PVDF Membranes Blended with Poly(2-Methoxyethyl Acrylate) via NIPS Process
Sep. Purif. Technol., 276, 11931(2021)
Seiya Ohno, Ibuki Nakata, Ryo Nagumo, Kazuki Akamatsu, Xiao-lin Wang, and Shin-ichi Nakao

15. Correlation between the macroscopic diffusion rates and the microscopic interactions in ethylene glycol-based solvents
Ind. Eng. Chem. Res., 60, 13368-13376(2021)
Ryo Nagumo, Kohei Omori, Yukihiro Muraki, Shuichi Iwata, Hideki Mori, and Hidetaka Yamada

16. Effects of the Si?O?Si network structure on the permeation properties of silylated ionic liquid-derived membranes
J. Chem. Eng. Japan, 55(2), 105-112 (2022)
Yuichiro Hirota, Shohei Hayami, Fumiya Sasaki, Shotaro Matoba, Kazuki Yokoi, Norikazu Nishiyama



17. Molecular Dynamics Simulations of the Folding Structure of a Thermo-Responsive 2-Dimethylaminoethyl Methacrylate Oligomer in the Globule State
Polymer Journal, 55, 85-93(2023)
Ryo Nagumo, Kazuma Nishikawa, Ayaka Sato, Atsushi Ogita, and Shuichi Iwata

18. Influence of Molecular Structures of Organic Foulants on the Antifouling Properties of Poly(2-methoxyethyl acrylate) and Its Analogs: A Molecular Dynamics Study
ACS Biomater. Sci. Eng., 7, 4269-4276(2023)
Ryo Nagumo, Yui Suzuki, Ibuki Nakata, Takumi Matsuoka, and Shuichi Iwata

19. Pervaporation properties of silylated ionic liquid-derived organosilica membrane
Journal of Membrane Science, 694, 122392 (2024)
Yuichiro Hirota, Masaya Michiwaki, Ayumi Ikeda, Sadao Araki

(4)Catalyst
1. Catalytic performance of Zn-containing MFI zeolites in acetone-to-aromatics reactions
Micropor. Mesopor. Mater., 341, 112070 (2022)
Yuichiro Hirota, Risako Betsuno, Yuma Hotta, Xinyu Li, Koji Miyake, Norikazu Nishiyama

(5) Bioengineering
1. Production of Regenerated Plantlet using Shaking Vessel-Type Bioreactor
J. Chem. Eng. Japan, 30(1) 179-182 (1997)
Hiroyuki Honda, Toshiyuki Hattori, Nobuyuki Uozumi, Takeshi Kobayashi, Yoshihito Kato and Seturo Hiraoka

2. Measurement of Mass Transfer rate from free surface in shaking vessel Type Bioreactor
J. Chem. Eng. Japan, 30(2)362-365 (1997)
Yoshihito Kato, Seturo Hiraoka, Yutaka Tada, Kokichi Sato and Tsutomu Ohishi

3. Performance of a Shaking Vessel Type Bioreactor with Current Pole
J. Ferment. Bioeng. 84(1)65-69 (1997)
Yoshihito Kato, Hiroyuki Honda, Seturo Hiraoka, Yutaka Tada, Takeshi Kobayashi, Kokichi Sato, Tsutomu Saito, Toshio Nomura and Tsutomu Ohishi

4. Solid-Liquid Mass Transfer in a Shaking Vessel for a Bioreactor with Current pole
Canadian J. Chem. Eng, 76(June) 441-445 (1998)
Yoshihito Kato, Seturo Hiraoka, Yutaka Tada and Toshio Nomura

5. Performance of a Shaking Vessel with Current Pole
Biochemical Engineering Journal 7, 143-151 (2001)
Yoshihito Kato, Seturo Hiraoka, Yutaka Tada, and Toshio Nomura

6.Enhancement Anthocyanin Production from Grape Callus in an Air-Lift Type Bioreactor Using a Viscous-Additive Supplemented Medium
J. Biosci. Bioeng., 94(2), 135-139 (2002)
Hiroyuki Honda, Kousuke Hiraoka, Eiji Nagamori, Mariko Omote, Yoshihito KATO, Setsuro HIRAOKA, Takeshi Kobayashi

7.Mixing Performance of Reciprocally Shaking Vessel
J. Chem. Eng. Japan, 36(6), 663-667(2003)
Yoshihito KATO, Setsuro HIRAOKA, Yutaka TADA, Kimihito HIROSE and Jochen BUECHS

8. Solid-LIquid Mass Transfer and Critical Frequency for Complete Suspension in Reciprocally Shaking Vessel
J. Chem. Eng. Japan, 36(11), 1410-1414(2003)
Yoshihito KATO, Setsuro HIRAOKA, Yutaka TADA, Syoko WATANABE, Jochen BUECHS

9. Power Consumption and Heat Transfer Resistance in Large Rotary Shaking Vessels
Biochemical Engineering Journal, 21(1), 83-91 (2004)
Yoshihito Kato, Cyril Peter, Ali Akgun and Jochen Buechs

10.Effects of Liquid Film Formed on Flask Surface on Oxygen Transfer Rate in Shaking Flask and Development of Baffled Shaking Vessel by Optical Method Based on Sulfite Oxidation
J. Chem. Eng. Japan, 38(11),873-877 (2005)
Y.Kato, Y.Tada, E.Iwanaga, Y.Nagatsu, S.Iwata, Y.S Lee and S.T Koh

11.Mixing Condition and Solid-Liquid and Gas-Liquid Mass Transfer in a Shaking Vessel with Figure-Eight Motion
Kagaku Kogaku Ronbunshu, 31(6),394-398 (2005)
Y.Kato, Y.Tada, S.Watanabe, Y.Nagatsu, S.Iwata, Y.S Lee and S.T Koh

12. Comparison of torque method and temperature method for determination of power consumption in disposable shaken bioreactors
Biochemical Engineering Journal 34(3), 224-227(2007)
Keyur Raval, Yoshihito Kato and Jochen Buechs

13. Characterization of heat transfer of large orbitally shaken cylindrical bioreactors
Biochemical Engineering Journal, to be published(2014)
Keyur Raval, Yoshihito Kato, Jochen Buechs

(6)Two Phase Flow
1. Measurement of Liquid Velocity Distrubution near a Vertical Flat Plate Immersed in Bubble Flow
Kagaku Kogaku Ronbunshu, 18(2), 159-165(1992)
Akihiro MATSUURA, Hajime NAKAMURA, Yoichi IKEDA, Hideyuki Horihata, Seturo HIRAOKA, Tsutomu ARAGAKI and Ikuho Yamada

2. Numerical Calculation of Velocity Distribution near a Vertical Flat Plate Immersed in Bubble Flow
Kagaku Kogaku Ronbunshu, 18(2), 166-174(1992)
Akihiro MATSUURA, Hajime NAKAMURA, Hideyuki Horihata, Seturo HIRAOKA, Tsutomu ARAGAKI, Ikuho Yamada and Shinji ISODA

3. Numerical Calculation of Gas and Liquid Velocities along a Vertical Flat Plate Immersed in Turbulent Two-Phase Bubbly Flow
Kagaku Kogaku Ronbunshu, 19(6), 1209-1212(1993)
Akihiro MATSUURA, Hajime NAKAMURA, Seturo HIRAOKA, Yutaka TADA, Yoshihito KATO

4. Gas-liquid turbulent two phase flow along vertical flat plate with gas evolution
J. Chem. Eng. Japan, 28(3), 250-256 (1995)
Akihiro Matsuura, Hajime Nakamura, Setsuro Hiraoka, Yutaka Tada and Yoshihito Kato

5. New Correction Method of Mass Balance in Numerical Analysis for Gas-Liquid Two-Phase Flow
Kagaku Kogaku Ronbunshu, 29(1), 154-157(2003)
Akihiro Matsuura, Yoshihito Kato, Yutaka Tada, Setsuro Hiraoka, Kouji Yoshida

(7) Physical Properties and Physical Chemistry
1. Effects of ionic size difference on thermodynamic and transport properties of uniunivalent molten salt mixtures
Ind. Eng. Chem. Research, 31(8), 2010-2023 (1992)
Yutaka Tada, Setsuro Hiraoka, Yasuhiko Katsumura and Ikuho Yamada

2. Simplified equations for mixing properties of molten alkali halides based on the law of corresponding states
Ind. Eng. Chem. Research, 32(11), 2873-2880 (1993)
Yutaka Tada, Setsuro Hiraoka, Yasuhiko Katsumura and Chan-Young Park

3. Mixing properties of molten alkali nitrates based on the law of corresponding states
Ind. Eng. Chem. Research, 34(4), 1461-1470 (1995)
Yutaka Tada, Setsuro Hiraoka, Takashi Achiwa and Seung-Tae Koh

4. Mixing properties of unsymmetrical molten salts based on the law of corresponding states
Ind. Eng. Chem. Research, 36(5), 1908-1920 (1997)
Yutaka Tada, Setsuro Hiraoka, Yasushi Hibi and Takao Kimura

5. Mixing Molar Volume of Liquid n- and i-Alkanes Based on the Law of Corresponding States with Potential between Functional Groups
Ind. Eng. Chem. Research, 41(4), 871-881 (2002)
Yutaka Tada, Setsuro Hiraoka, N.Nishida, N.Tanuma and Y.S.Lee

6. Corresponding States Correlations with Potential between Functional Groups for Thermodynamic Properties of Liquid n- and i-Alkanes
Fluid Phase Equilibria, 201, 165-185 (2002)
Yutaka Tada, Setsuro Hiraoka, W.Murata, N.Nishida and N.Tanuma

7. Generalized Peng-Robinson equation of state with pair potential parameters for liquid n-alkanes
Fluid Phase Equilibria, 262,236-243 (2007)
Yutaka Tada, Akihiko Tamakoshi, Yoshihito Kato and Yuichiro Nagatsu

(8) Distillation
1. Calculation of Three-Phase Flash and Partial Condensation for Ternary Systems
J.Chem.Eng.Japan, 24(1), 132-134(1991)
F.-Z.Liu, I.Yamada, H.Mori, S.Hiraoka

2. A Method of Calculating Multistage Liquid-Liquid Extraction for Ternary Systems
J.Chem.Eng.Japan, 24(2), 261-264(1991)
F.-Z.Liu, I.Yamada, H.Mori, S.Hiraoka, T.Aragaki

3. A Modified Broyden-Householder Algorithm for Solving Multicomponent Distillation Probrems
J.Chem.Eng.Japan, 25(1), 97-100(1992)
F.-Z.Liu, F.Han, H. Ding, I.Yamada, H.Mori

4.
Kagaku Kogaku Ronbunshu,18(5),740-743(1992)
I.Yamada, Won Hi Hong, H.Mori, C.Nakao, F.-Z. Liu

5. Analysis of Heterogeneous Azeotropic Distillation Using Infinite Reflux Ratio Algorithms
Sekiyu Gakkaishi, 36(1), 8-14(1993)
F.-Z.Liu, I.Yamada, H.Mori, T.Aragaki, S.Hiraoka

6. Phase Equilibria and Simulation Method for Heterogeneous Azeotropic Distillation
J.Chem.Eng.Japan, 26(1), 41-47(1993)
F.-Z.Liu, H.Mori, S.Hiraoka, I.Yamada

7.
Kagaku Kogaku Ronbunshu, 19(2),526-529(1993)
F.-Z.Liu, I.Yamada, H.Mori, C.Nakao

8. Minimum Reflux Calculations of Heterogeneous Azeotropic Distillation Processes
Sekiyu Gakkaishi, 36(6),458-466(1993)
F.-Z.Liu, H.Mori, S.Hiraoka, I.Yamada

9. Accelerating Convergence in Successive Relaxation Algorithm for Multicomponent Distillation Calculation
J.Chem.Eng.Japan, 27(5), 699-701(1994)
H.Mori, S.T.Koh, Y.Kanayama, I.Yamada

10.
Kagaku Kogaku Ronbunshu, 21(5),956-959(1995)
I.Yamada, H.Mori, Y.Kanayama, F.-Z.Liu, C-K.Chan and S.T.Koh

11. A Stagewise Algorithm for Multicomponent Multistage Batch Distillation Calculation
J.Chem.Eng.Japan, 28(5), 576-581(1995)
H.Mori, H.Goto, Z.-C.Yang, T.Aragaki, S.-T.Koh, I.Akiba

12. Packed Column Distillation Simulation with A Rate-Based Method
J.Chem.Eng.Japan, 29(2), 307-314(1996)
H.Mori, A.Oda, Y.Kunimoto, T.Aragaki

13. Thermodynamic Factors Derived from Group Contribution Activity Coefficient Models
J.Chem.Eng.Japan, 29(2), 396-398(1996)
H.Mori, A.Oda, C.Ito, T.Aragaki, F.Z.Liu

14. Analysis of Packed Distillation Columns with a Rate-Based Model
Korean.J.Chem.Eng., 14(5), 321-324(1997)
Lee,Y.S., M.G.Kim, D.M.Ha, A.Oda, C.Ito, T.Aragaki and H.Mori

15. Total Reflux Simulation of Packed Column Distillation
J.Chem.Eng.Japan, 32(1), 65-72(1999)
H.Mori, C.Ito, A.Oda and T.Aragaki

16. Simplified Heat and Mass Transfer Model for Distillation Column Simulation
J.Chem.Eng.Japan, 35(1), 100-106(2002)
H.Mori, C.Ito, K.Taguchi and T.Aragaki

17. Practical Correlation of Excess Molar Volumes of Binary, Ternary and Quaternary Mixtures of Water, Methanol, Ethanol and 1-Propanol by an NRTL-Type Equation
J.Chem.Eng.Japan, 37(7), 850-857(2004)
H.Mori, S.Iwata, T.Kawachi, T.Matsubara, Y.Nobuoka and T.Aragaki

18. Three-component distillation using structured packings: Performance evaluation and model validation
Chemical Engineering Science, 61(6), 1760-1766(2006)
H. Mori, R. Ibuki, K. Taguchi, K. Futamura and Z. Olujic

19. Separation Characteristics of a Modified Petlyuk Process for Ternary Separations
J. Chem. Eng. Japan, 49(2), 79-83(2016)
Hideki MORI, Takanori NISHIOKA, Shuichi IWATA, Ryo NAGUMO and Joon Man LEE

(9)Dust Collection

1. Analysis of Pressure Drop in a Multi-Compartment Bag Filter
Kagaku Kogaku Ronbunshu, 28(3), 241-246(2002)
Hidenori Ikeno, Yutaka Tada, Setsuro Hiraoka and Yusuke Syuto

2. Estimation of Filtering Velocity and Pressure Drop Parameters from Total Pressure Drop in a Multi-Compartment Bag Filter
Kagaku Kogaku Ronbunshu, 29(5), 701-706(2003)
Hidenori Ikeno, Yutaka Tada, Setsuro Hiraoka and Yusuke Syuto

3.Effects of Filtering Velocity and Dust Concentration on Pressure Drop Parameters in a Bag Filter
Kagaku Kogaku Ronbunshu, 30(1), 7-13(2004)
Hidenori Ikeno, Yutaka Tada, Setsuro Hiraoka Masaki Ikei and Yusuke Syuto

4. Study of Pressure Drop in Bag Filter Based on Patched Cleaning Model
Kagaku Kogaku Ronbunshu, 30(1), 14-21(2004)
Hidenori Ikeno, Yutaka Tada, Setsuro Hiraoka, Masaki Ikei and Yusuke Syuto

5. Analysis of Pressure Drop in a Multi-Compartment Bag Filter Based on the Patched Cleaning Model
Kagaku Kogaku Ronbunshu, 30(4), 413-424(2004)
Hidenori Ikeno, Yutaka Tada, Setsuro Hiraoka Yusuke Syuto and Masaki Ikei

6. Effects of Pressure Drop and Filter Medium o the Collection Performance of Filter
Journal of the Society of Powder Technology, 46(8), 598-604(2009)
Hidenori Ikeno, Yutaka Tada, Tomomoto Ishino and Katsuhiko Watanabe

7. Optimum Design Method of Pulse Jet Type Bag Filter Using Cartridge Filter
Journal of the Society of Powder Technology, 48(12), 834-839(2011)
Hiroyuki Amano, Hiroaki Watanabe and Hidenori Ikeno

(10) Viscous Fingering

1. Effects of reactant concentrations on reactive miscible viscous fingering
AIChE Journal, 47, 1711-1720 (2001)
Y. Nagatsu and T. Ueda

2. Effects of Finger-growth Velocity on Reactive Miscible Viscous Fingering
AIChE Journal, 49(3), 789-792 (2003)
Y.Nagatsu and T.Ueda

3.Analytical Study on Effects of Finger-growth Velocity on Reaction Characteristics of Reactive Miscible Viscous Fingering by Using a Convection-diffusion-reaction Model
Chem. Eng. Sci., 59, 3817-3826 (2004)
Y.Nagatsu and T.Ueda

4.Experimental study on miscible viscous fingering involving viscosity changes induced by variations in chemical species concentrations due to chemical reactions
Journal of Fluid Mechanics, 571, 475-493(2007)
Yuichiro Nagatsu, Kenji Matsuda, Yoshihito Kato and Yutaka Tada

5.Miscible displacements with a chemical reaction in a capillary tube
AIChE Journal, 54(3), 601-613(2008)
Yuichiro Nagatsu, Yuji Hosokawa, Toshihisa Ueda, Yoshihito Kato, and Yutaka Tada

6. Miscible viscous fingering with a chemical reaction involving precipitation
Physical Review E, 77, 067302 (2008)
Yuichiro Nagatsu, Si-Kyun Bae, Yoshihito Kato, and Yutaka Tada

7. Spiral pattern in a radial displacement involving a reaction producing gel
Physical Review E, 78, 026307 (2008)
Yuichiro Nagatsu, Atsushi Hayashi, Mitsumasa Ban, Yoshihito Kato, and Yutaka Tada

8. Investigation of reacting flow fields in miscible viscous fingering by a novel experimental method
AIChE Journal, 55(3), 563-580(2009)
Yuichiro Nagatsu, Takashi Ogawa, Yoshihito Kato, and Yutaka Tada

9. Effects of moderate Damkehler number on miscible viscous fingering involving viscosity decrease due to a chemical reaction
Journal of Fluid Mechanics,625,97-124(2009)
Yuichiro Nagatsu, Yusuke Kondo, Yoshihito Kato, Yutaka Tada

10. An experimental study of non-isothermal miscible displacements in a Hele-Shaw cell
Experimental Thermal and Fluid Science,33, 695-705(2009)
Yuichiro Nagatsu, Norihito Fujita, Yoshihito Kato, and Yutaka Tada

11. Miscible viscous fingering involving viscosity changes of the displacing fluid by chemical reactions
Physics of Fluids, 22, 024101 (13pages) (2010)
Yuichiro Nagatsu, Chika Iguchi, Kenji Matsuda, Yoshihito Kato, and Yutaka Tada

12. Miscible viscous fingering involving viscosity increase by a chemical reaction with moderate Damkoehler number
Physics of Fluids, 23, 014109 (8pages) (2011)
Yuichiro Nagatsu, Yusuke Kondo, Yoshihito Kato, and Yutaka Tada

13. Viscous fingering of a miscible reactive A+B C interface for an infinitely fast chemical reaction : Nonlinear simulations
Physics of Fluids, 23:04310 (2011)
Y. Nagatsu and A. De Wit

14. Hydrodynamics Fingering Instability Induced by a Precipitation Reaction
Physical Review Letters, Vol.113, No.2, 024502-1-5(2014)
Y.Nagatsu, Y,Ishii, Y.Tada, and A. De Wit

(11) Sonorector
1. Effect of Ultrasonic Irradiation on Chemical Reaction in Iodine Solution Decolorization Experiment
J. Chem. Eng. Japan, 41(11),1055-1060(2008)
Jingsong ZHOU, Yutaka TADA, Yoshihito KATO,Yuichiro NAGATSU and Katsufumi YASUI

2.Effect of Reflection Plate on Ultrasonic Reaction in a Sonoreactor
J. Chem. Eng. Japan, 42(8),570-575(2009)
Jingsong ZHOU, Yutaka TADA, Yoshihito KATO, Yuichiro NAGATSU,Katsufumi YASUI, Yuya SAKAGUCHI, Ryo TAKEBAYASHI and Kyoichi IWATA

3.Enhancement of Sonochemical Reaction with the Addition of Aluminum Powder in a Sonoreactor
J. Chem. Eng. Japan, 43(4),389-393(2010)
Jingsong ZHOU, Yutaka TADA, Yoshihito KATO, Yuichiro NAGATSU, Kyoichi IWATA, Katsufumi YASUI, Yuya SAKAGUCHI Cand Ryo TAKEBAYASHI

4. Effect of Mixing on Sonochemical Rection in a Sonoreactor
J. Chem. Eng. Japan, 43(8),657-660(2010)
Zhou J. S., Y. Tada, Y. Kato, Y. Nagatsu, R. Takebayashi; K. Iwata, K. Yasui, and Y. Sakaguchi

(12)Others

1. Evaluation of Monomer Removal in a Polystyrene Devolatilizer
Kagaku Kogaku Ronbunshu, 17(5),909-915(1991)
Yasuhito Sakakibara, Nobuyasu Takami, Tsutomu Aragaki, Ikuho Yamada and Setsuro Hiraoka

2. Studies on Evaporators to Desalt Sea Water
Bull. Soc. Sea Water Sci. Japan,46(1). 3-21(1992)
S.Toyama, T. Aragaki, K. Murase, H.M.Salah

3.
Kagaku Kogaku Ronbunshu, 19(4), 684-687(1993)
I.Yamada, W.H.Hong, H.Mori, C.Nakao and F.Z.Li

4.
Sekiyu Gakkaishi, 39(5), 374-377(1996)
I.Yamada, H.Mori, A.Oda and S.Kawai

5.
Kagaku Kogaku Ronbunshu, 22(6), 1457-1460(1996)
I.Yamada, H.Mori, A.Oda and K.Kato

6.Effect of mixing condition of additives on the solidification of green body by gelcasting method
Journal of the Ceramic Sciety of Japan, 117(9),987-991(2009)
Tomoaki KATO, Takashi SHIRAI, Hideo WATANABE, Masayuki FUJII, Minoru TAKAHASHI, Yusuke YAMADA, Shuichi IWATA, Yoshihito KATO and Hideki MORI

7. Divalent/Monovalent Selectivities and Secondary Interactions of Multibasic Acids on Anion Exchange Resins
Industrial & Engineering Chemistry Research, 2013, 52, 16880-16886
Akihiro Inui, Chihiro Hama, Tomoaki Katsuragawa, Shuichi Iwata and Akio Yuchi