郭修伯 教授 / Hsiu-Po Kuo Professor

Index
郭修伯 教授
Hsiu-Po Kuo
電話:(02)3366-3066
傳真:(02)3366-1748
電子郵件:hsiupokuo@ntu.edu.tw
辦公室:化工一館209
研究室資料
粉體與流體操作實驗室
化工一館工221
(02)3366-9643
  • 學經歷

國立臺灣大學     化工學士    1995
英國伯明罕大學  化工博士    2001

長庚大學      工學院                      副院長          2018-2020
長庚大學      化工與材料工程學系     教授             2012-2020
長庚大學      化工與材料工程學系     系主任          2016-2019
長庚大學      化工與材料工程學系     副教授          2007-2012
長庚大學      創新育成中心              主任            2005-2010
長庚大學      化工與材料工程學系     助理教授       2002-2007

  • 研究主題

粉粒體技術
此研究主要著重於粉粒體物理特性分析,並結合工業程序上各種單元操作特徵,開發合適於不同操作特性單元之粉體。

流體化床工程
此研究主要探討流體化床中之流體/固體相互作用機制與其工業應用。目前研究題目包含生質物流體化床熱裂解操作、孔板設計及氣體汙染物於流體化床之物理化學處理。

多相流暨粒子流模擬技術
此主題之研究利用離散元素法及計算流體力學探討顆粒體在粒子流或多相流中的運動行為與其他相的相互作用機制,並進一步將模擬結果應用於工業製程之改善。

  • 最新研究

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
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
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
LLDPE反應器氣體分散板流態分析           台塑          NTD    850,000     03/01/2018-06/30/2019
熱水管週遭粒子運動分析                        台塑          NTD    850,000     04/01/2017-03/31/2018
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
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
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

  • 榮譽獎項
  1. Editor/Execute Editor, Advanced Powder Technology (2010- now)
  2. 科技部優秀年輕學者計畫 (2017)
  3. Guest Editor, Journal of Taiwan Institute of Chemical Engineers (2017)
  4. Chair, 7thAsian Particle Technology Symposium, 30 July-3 August, 2017, Taoyuan, Taiwan.
  5. 長庚大學2013, 2016, 2019優良教師獎
  1. H.P. Kuo, P.C. Knight, D.J. Parker, Y. Tsuji, M.J. Adams, and J.P.K. Seville*, 2002, “The Influence of DEM Simulation Parameters on the Particle Behaviour in a V-mixer”, Chemical Engineering Science, 57, pp. 3621 – 3638.
  2. H.P. Kuo*, P.Y. Shih and R.C. Hsu, 2006, “Coupled axial-radial segregation in rotating drums with high fill levels”, AIChE Journal, 52(7), pp. 2422-2427.
  3. H.P. Kuo* and C. Y. Cheng, 2006, “Investigation of the bed types and particle residence time in a staged fluidised bed”, Powder Technology, 169, pp. 1-9.
  4. H.P. Kuo*, H.Z. Zhang and R.C. Hsu, 2008, “CFD modelling of a countercurrent staged fluidised bed”, Chemical Engineering Journal, 137(3), pp.664-676.
  5. H.P. Kuo*, M.Y. Chung, and C.C. Lin, 2009, “Design correlations for the optical performance of the particle-diffusing bottom diffusers in the LCD backlight unit”, Powder Technology, 192(1), pp.116-121.
  6. H.P. Kuo*, C.T. Wu and R.C. Hsu, 2009, “Continuous reduction of toluene vapours from the contaminated gas stream in a fluidised bed photoreactor”, Powder Technology, 195(1), pp. 50-56.
  7. A.N. Huang and H.P. Kuo*, 2012, “A study of the three-dimensional particle size segregation structure in a rotating drum”, AIChE Journal, 58(4), pp. 1076-1083.
  8. C.T. Wu, H.P. Kuo*, H.A. Tsai and W.C. Pan, 2012, “Rapid dye-sensitized solar cell working electrode preparation using far infrared rapid thermal annealing”, Applied Energy, 100, pp. 138-143.
  9. H. Yang, S. Kudo, H.P. Kuo, K. Norinaga, A. Mori, O. Masek, J. Hayashi*, 2013, “Estimation of enthalpy of bio-oil vapor and heat required for pyrolysis of biomass”, Energy & Fuels, 27(5), pp. 2675-2686.
  10. H.P. Kuo* and C.T. Wu, 2014, “Speed up dye-sensitized solar cell fabrication by rapid dye solution droplets bombardment”, Solar Energy Materials and Solar Cells, 120(A), pp. 81-86.
  11. A.N. Huang and H.P. Kuo*, 2014, “Developments in the tools for the investigation of mixing in particulate systems – A review”, Advanced Powder Technology, 25, pp. 163-173.
  12. H.P. Kuo*, C.F. Yang, A.N. Huang, C.T. Wu and W.C Pan, 2014, “Preparation of the working electrode of dye-sensitized solar cells: effects of screen printing parameters”, Journal of the Taiwan Institute of Chemical Engineers, 45(5), pp. 2340-2345.
  13. 郭修伯、黃安婗,2015,“你是風兒我是沙─流體化床”,科學發展月刊,513 期,9月號,pp. 10–15。
  14. H.P. Kuo*, B.R. Hou and A.N. Huang, 2017, “The influences of the gas fluidization velocity on the properties of bio-oils from fluidized bed pyrolyzer with in-line distillation”, Applied Energy, 194, pp. 279–286.
  15. A.N. Huang and H.P. Kuo*, 2017, “CFD simulation of particle segregation in a rotating drum. Part I: Eulerian solid phase kinetic viscosity”, Advanced Powder Technology, 28(9), pp. 2094–2101.
  16. A.N. Huang, C.P. Hsu, B.R. Hou and H.P. Kuo*, 2018, “Production and separation of rice husk pyrolysis bio-oils from a fractional distillation column connected fluidized bed reactor”, Powder Technology, 323, pp. 588–593.
  17. A.N. Huang and H.P. Kuo*, 2018, “CFD simulation of particle segregation in a rotating drum. Part II: Effects of specularity coefficient”, Advanced Powder Technology, 29(12), pp. 3368–3374.
  18. C.Y. Lin, H.C. Wang, W.Y. Hsu, A.N. Huang* and H.P. Kuo*, 2019, “Stage-wise characterization of the high shear granulation process by impeller torque changing rate”, Advanced Powder Technology, 30(8), pp. 1513–1521.
  19. W.Y. Hsu, A.N. Huang*, and H.P. Kuo*, 2020, “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, 31(1), pp. 433–438.
  20. A.N. Huang, T.H. Cheng and H.P. Kuo*, 2020 “A study of the axial and radial competition segregation in a rotating drum with internal diameter changing”, AIChE Journal, in press.