■PAPER(1991〜)
(1) Mixing
(2) Two Phase Flow
(3) CFD
(4) Property
(5) Distillation
(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 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
5. 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
6. 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
7. 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
8. 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
9. 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
10. 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
11. Performance of a Shaking Vessel with Current Pole
Biochemical Engineering Jurnal 7, 143-151 (2001)
Yoshihito Kato, Seturo Hiraoka, Yutaka Tada,
and Toshio Nomura
12. 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
13. MODEL ANALYSIS OF MIXING TIME CORRELATION IN AN AGITATED VESSEL WITH PADDLE IMPELLER
J. Chem. Eng. Japan, to be published (2001)
Setsuro Hiraoka, Yutaka Tada, Yoshihito Kato, Akihiro Matsuura, Takao Yamaguchi,
and Young-Sei Lee
14. Solid-Liquid Mass Transfer in Gas-Liquid-Solid Agitated Vessel
J. Chem. Eng. Japan, to be published (2001)
Yoshihito Kato, Seturo Hiraoka, Yutaka Tada,
Junichiro Suzuki, Kimihito Hirose, Young-Sei Lee and Song-Tae Koh
15. Power Consumption and Mixing Time in an Agitated Vessel with Double Impellers
Trans. IChemE, to be published (2001)
S.Hiraoka, Y.Kato, Y.Tada, N.Ozaki, Y.Murakami and Y.S.Lee
(2)
Two Phase Flow
1. 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
(3)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. 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) Property
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) 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. 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
5. 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
6. Minimum Reflux Calculations of Heterogeneous Azeotropic Distillation
Processes.
Sekiyu Gakkaishi, 36(6),458-466(1993)
F.-Z.Liu, H.Mori, S.Hiraoka, I.Yamada
7. 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
8. 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
9. 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
10. 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
11. 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
12. 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
13. Simplified Heat and Mass Trasfer Model for Distillation Column Simulation.
J.Chem.Eng.Japan, 35(1), 100-106(2002)
H.Mori, C.Ito, K.Taguchi and T.Aragaki