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郭修伯 教授 (副系主任、產學合作總中心主任) / Hsiu-Po Kuo Professor

Hsiu-Po Kuo
PHONE. (02)3366-3066
FAX. (02)3366-1748
OFFICE. 化工一館209
LOCATION. 化工一館工221
PHONE. (02)3366-9643
    • Education Background
      • National Taiwan University  B.S. Ch.E., 1995
      • National Taiwan University Ph.D. Ch.E., 2001


    • Research Topic
      • Particle Technology
        Our interests focus on characterizing the physical properties of the particles and modify the corresponding properties for specific unit operations in industry.
      • Fluidization Engineering
        Our interest lies on the study of under-standing the solid-fluid interaction mechanisms in fluidization and develop new industrial applications based on fluidization. Current topics include bio-mass pyrolysis, perforated plate designs and gaseous pollutant treatments.
      • Simulation of Granular and Multi-phase Flows
        Discrete Element Method (DEM) and Computational Fluid Dynamics (CFD) are utilized to understand the funda-mentals of the granular and multiphase flows. These tools are also used for in-dustrial process designs and improveme.
      Recent Research Topic
      1. 具內聚性顆粒之粒子間作用力分析           科技部       NTD 3,719,000     08/01/2017-07/31/2020
      2. 流體化床生質物熱裂解爐之模擬              科技部       NTD 1,684,000     08/01/2019-07/31/2021
      3. 填充床料幾何形狀對壓力降之影響分析    台塑          NTD 1,400,000     05/01/2019-04/30/2020
      4. LLDPE反應器氣體分散板流態分析           台塑          NTD    850,000     03/01/2018-06/30/2019
      5. 熱水管週遭粒子運動分析                          台塑          NTD    850,000     04/01/2017-03/31/2018
      6. 粉末流動性鑑定與改善策略                     聚和國際    NTD    500,000     11/01/2016-05/31/2017
      7. 脫硫用石灰石與床質基本物性分析           台朔重工    NTD    150,000     08/01/2016-01/31/2017
      8. 二水石膏商業化基本設計                          台塑石化    NTD  8,050,000     09/01/2014-08/31/2015
      9. 製備具有微圖樣的聚電解質多層膜及其在細胞工程的應用 NT$ 970,000, 97-2628-E-002-028-MY2, 08/01/2009-07/31/2010
    1. 109學年度「陳芳燦講座」講座學者 (2020)
    2. Execute Editor, Advanced Powder Technology, the Society of Powder Technology, Japan (2018/01/01- now)
    3. Organizing Committee, the 7th International Conference on the Characterization and Control of Interfaces for High Quality Advanced Materials (ICCCI2022), 5-8 July, 2022 Fujiyoshida, Japan.
    4. Scientific Committee, the 10th International Symposium on Mixing in Industrial Processes (ISMIP10), 29 June-2 July, 2020, Kobe, Japan.
    5. Organizing Committee, the 6thInternational Conference on the Characterization and Control of Interfaces for High Quality Advanced Materials (ICCCI 2018) and the 54th Summer Symposium on Powder Technology, 9-12 July, 2018, Kurashiki, Japan.
    6. Chair, 7thAsian Particle Technology Symposium, 30 July-3 August, 2017, Taoyuan, Taiwan.
    7. 長庚大學2016, 2019優良教師獎
    8. 指導學生林琦昀同學,獲得2019年台灣化學工程學會66週年年會壁報論文競賽-佳作
    9. 指導學生王煦宸同學,獲得2019年台灣化學工程學會66週年年會壁報論文競賽-佳作
    10. 指導學生王煦宸同學,獲得2019 年台灣化學工程學會66 週年年會英語口頭報告競賽優勝
    11. 指導學生王煦宸同學,獲得2019年第十七屆台塑關係企業應用技術研討會壁報論文競賽-佳作
    12. 指導學生王萱同學,獲2018 年台灣化學工程學會65週年年會壁報論文競賽-佳作
    13. 指導學生鄭東欣同學,獲2017 年台灣化學工程學會64週年年會壁報論文競賽-傑出論文獎
    1. Kuo, H.P., et al., “CIGS Absorber Preparation by Non-vacuum Particle-based Screen Printing and RTA Densification.”Applied Energy, 2016. 164: p. 1003-1011.
    2. Kuo, H.P., W.T. Tseng, and A.N. Huang, “Controlling of Segregation in Rotating Drums by Independent End Wall Rotations.”KONA Powder and Particle Journal, 2016. 33: p. 239-248.
    3. Huang, A.N. and H.P. Kuo, “CFD Simulation of Particle Segregation in a Rotating Drum. Part I: Eulerian Solid Phase Kinetic Viscosity.”Advanced Powder Technology, 2017. 28(9): p. 2094-2101.
    4. Huang, A.N., et al., “Influence of a Laminarizer at the Inlet on the Classification Performance of a Cyclone Separator.”Separation and Purification Technology, 2017. 174: p. 408-416.
    5. Huang, A.N., et al., “Effect of Cold Air Stream Injection on Cyclone Performance at High Temperature.”Separation and Purification Technology, 2017. 183: p. 293-303.
    6. Kuo, H.P., B.R. Hou, and A.N. Huang, “The Influences of the Gas Fluidization Velocity on the Properties of Bio-oils from Fluidized Bed Pyrolyzer with In-line Distillation.”Applied energy, 2017. 194: p. 279-286.
    7. Kuo, H.P., et al., “Photocatalytic Degradation of Toluene in a Staged Fluidized Bed Reactor Using TiO2/silica Gel.”Korean Journal of Chemical Engineering, 2017. 34(1): p. 73-80.
    8. Fukasawa, T., et al., “Component Separation in a Vibrating Fluidized Bed Based on Differences in Agglomeration Properties of Particles.”Journal of Chemical Engineering of Japan, 2018. 51(7): p. 576-583.
    9. Hsu, W.Y., A.N. Huang, and H.P. Kuo, “Analysis of Interparticle Forces and Particle-Wall Interactions by Powder Bed Pressure Drops at Incipient Fluidization.”Powder Technology, 2018. 325: p. 64-68.
    10. Huang, A.N., et al., “Production and Separation of Rice Husk Pyrolysis Bio-oils from a Fractional Distillation Column Connected Fluidized Bed Reactor.”Powder Technology, 2018. 323: p. 588-593.
    11. Huang, A.N., et al., “Effects of Particle Mass Loading on the Hydrodynamics and Separation Efficiency of a Cyclone Separator.”Journal of the Taiwan Institute of Chemical Engineers, 2018. 90: p. 61-67.
    12. Huang, A.N., et al., “Classification Performance Analysis of a Novel Cyclone with a Slit on the Conical Part by CFD Simulation.”Separation and Purification Technology, 2018. 190: p. 25-32.
    13. Huang, A.N. and H.P. Kuo, “CFD Simulation of Particle Segregation in a Rotating Drum. Part II: Effects of Specularity Coefficient.”Advanced Powder Technology, 2018. 29(12): p. 3368-3374.
    14. Kuo, H.P., Y.N. Yang, and A.N. Huang, “A Kinetic Study of CFB Boiler Separated Bottom Ashes During the Steam Hydration Reaction.”Journal of the Taiwan Institute of Chemical Engineers, 2019. 94: p. 124-128.
    15. Lin, C.Y., et al., “Stage-wise Characterization of the High Shear Granulation Process by Impeller Torque Changing Rate.”Advanced Powder Technology, 2019. 30(8): p. 1513-1521.
    16. Hsu, W.Y., et al., “Approach the powder contact force, voidage, tensile stress, wall frictional stress and state diagram of powder bed by simple pressure drop monitoring.” Advanced Powder Technology, 2020. 31(1): p. 433-438.
    17. Huang, A.N., et al., “A study of the axial and radial competition segregation in a rotating drum with internal diameter changing.” AIChE Journal, 2020. 66(5):e16921..
    18. Huang, A.N., et al., “Transition from binder to matrix-forming: the effect of hydroxypropylmethylcellulose concentration on the properties of starch/hydroxypropylmethylcellulose granules prepared in a high shear granulator.” Journal of the Taiwan Institute of Chemical Engineers, 2020. 113: p. 46-55.
    19. Huang, A.N., et al., “DEM study of particle segregation in a rotating drum with internal diameter variations.” Powder Technology, 2021. 379(A): p. 430-440.