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Personal Profile
Education

Ph.D., Chemical Engineering, National Taiwan University of Science and Technology, 1995.

M.S., Chemical Engineering, National Taiwan University of Science and Technology, 1990.

B.S., Chemical Engineering, Feng Chia University, 1988.

Experience

Professor, Department of Chemical Engineering, National Yunlin University of Science and Technology, Yunlin County, Taiwan, 2000

Visiting Scholar, Department of Chemical Engineering, University of California, Los Angeles, USA, 2004

Department Head, Department of Chemical and Materials Engineering, National Yunlin University of Science and Technology, Yunlin County, Taiwan, 2005

Visiting Scholar, Department of Chemical Engineering, University of Delaware, USA, 2009

Professor, Department of Chemical Engineering, National Cheng Kung University, Tainan, Taiwan, 2011

Visiting Scholar, Department of Chemical Engineering, Texas A&M University, USA, 2015

Research
 
A. Referred Papers
  1. Xinggui Zhou, Yi-Fan Wang, Wei Wu*, 2017, “Development of a stand-alone fuel cell power generation system coupled with an ammonia fuel processing unit”, International Journal of Energy Research (in press)
  2. B. Shi, W. Wu*, L.-X. Yan, 2017, “Size optimization of stand-alone PV/wind/diesel hybrid power generation systems using multi-objective line-up competition algorithms, ”Journal of the Taiwan Institute of Chemical Engineers (in press)
  3. W. Wu*, S.-C. Chen, P.-C Kuo, S.-A. Chen, 2017, “Design and optimization of stand-alone triple combined cycle systems using calcium looping technology,” Journal of Cleaner Production, Vol. 140, pp. 1049-1059.
  4. Wei Ru Chang, Jenn-Jiang Hwang*, Wei Wu, 2017, “Environmental impact and sustainability study on biofuels for transportation applications”, Renewable and Sustainable Energy Reviews, Vol. 67, 277-288.
  5. Wei Wu*, Han Yu Chen, Felicia Wijayanti, 2016, “Economic evaluation of a kinetic-based copper-chlorine (Cu-Cl) thermochemical cycle plant,” International Journal of Hydrogen Energy , Vol. 41, 16604-16612.
  6. W. Wu*, S.-A. Chen, and Y.-C. Chiu, 2016, “Design and control of a SOFC/GT hybrid power generation system with low carbon emissions,” Industrial & Engineering Chemistry Research, Vol. 55(5), pp. 1281-1291.
  7.  P.-C. Kuo, W. Wu*, 2016, “Design and thermodynamic analysis of a hybrid power plant using torrefied biomass and coal blends”, Energy Conversion and Management, Vol. 111, pp. 15-26.
  8. P.-C. Kuo, W. Wu*, 2016, “Thermodynamic analysis of a combined heat and power system with CO2 utilization based on co-gasification of biomass and coal”, Chemical Engineering Science, Vol. 142, pp. 201-214.
  9. W. Wu*, B. Shao, X. Zhou*, 2015, “Dynamic control of a selective hydrogenation process with undesired MAPD impurities in the C3-cut streams,”Journal of the Taiwan Institute of Chemical Engineers, Vol. 54, pp. 28-36.
  10. W. Wu*, H.-T. Chen, 2015, “Identification and control of a fuel cell system in the presence of time-varying disturbances,” Industrial & Engineering Chemistry Research, Vol. 54, pp. 7141−7147.
  11. W. Wu*, P.-C. Kuo, 2015, “Conceptual designs of hydrogen production, purification, compression and carbon dioxide capture,” Energy Conversion and Management, Vol. 103, pp. 73–81.
  12. 邱英銓、陳信安、吳煒*, 2015, “消耗溫室氣體的混合式發電系統,”化工, Vol. 65,  (invited paper).
  13. W. Wu*, V. I. Christiana, S.-A. Chen, and J.-J. Hwang, 2015, “Design and techno-economic optimization of a stand-alone PV/FC/battery hybrid power system connected to a wastewater-to-hydrogen processor,” Energy, Vol. 84, pp. 462-472.
  14. W. Wu*, Ya-Yan Zhou, and Yi-Shun Chiu, 2015, “Operational feasibility analysis of stand-alone methanol fuel processors with flexible waste heat recovery schemes,” Industrial & Engineering Chemistry Research, Vol. 54, pp. 2129-2135.
  15. P.-C. Kuo, W. Wu*, 2015, “Design, optimization and energetic efficiency of producing hydrogen-rich gas from biomass steam gasification,” Energies, Vol. 8, pp. 94-110.
  16. J.-J Hwang*, C.-C. Cho, W. Wu, C.-H. Chiu, K.-C. Chiu, C.-H. Lin, 2015, “Numerical and experimental investigation into passive hydrogen recovery scheme using vacuum ejector,” J. Power Sources, Vol. 275, pp. 539-546.
  17. W. Wu*, M.-H. Lin and W.-H. Chen, 2015, “Exergy analysis of a EFC/PV/Battery based hybrid power generation system,” International Journal of Energy Research, Vol. 39, pp. 406-417. (Subject category: Nuclear science & technology; Ranking 1/33 = 3%)
  18. H.-T. Chen, W. Wu*, 2015, “ Efficiency enhancement of pressurized oxy-coal power plant with heat integration,” International Journal of Energy Research , Vol. 39 (2), pp. 256–264.
  19. W. Wu*, C.-Y. Wang, and J.-J. Hwang, 2015, “Scenario-oriented design of a MFC/PV/Battery based hybrid power generation system,” International Journal of Electrical Power and Energy Systems, Vol. 65 (2), pp. 34-40. (Subject category:Engineering, electrical & electronic; Ranking 14/243 =5.7%)
  20. W. Wu*, H.-T. Yang, J.-J. Hwang, 2015, “Dynamic control of a stand-alone syngas production system with near-zero CO2 emissions,” Energy Conversion and Management, Vol. 89, pp. 24-33. (Subject category: Thermodynamics; Ranking 2/58 = 3%)
  21. W. Felicia and W. Wu*, 2014, “Heat integration and optimization of a clean hydrogen production system using copper-chlorine thermochemical cycle,” Journal of Chemical Engineering Research Studies Vol. 1(2): 1-7.
  22. Po-Chih Kuo, Hou-Tsen Chen, Wei Wu*, 2014, “Heat Integration of Biomass Co-firing in Coal Power Plant,” Energy Procedia, Vol. 61, 1756 – 175.
  23. Wei Wu* and Veni Indah Christiana, 2014, “Scenario-oriented Design of a Stand-alone Hybrid Power Generation System Using Ammonia/Urine,” Energy Procedia, Vol. 61, 1707 – 1712.
  24. Yijuan Di, Minrui Fei, Ling Wang and Wei Wu, 2014, “ Multi-objective optimization for economic emission dispatch using an improved multi-objective binary differential evolution algorithm,” Energy Procedia, Vol. 61, 2016 – 2021.
  25. W. Wu*, H.-T. Yang, J.-J. Hwang, 2014, “Conceptual design of syngas production systems with almost net-zero CO2 emissions,” Energy, Vol. 74, pp. 753-761. 
  26. W.-H. Chen*, P.-C. Kuo, S.-H. Liu, W. Wu, 2014, “Thermal characterization of oil palm fiber and eucalyptus in torrefaction,” Energy, Vol. 71, pp. 40-48.
  27. W. Wu*, Y.-T. Hsu, and P.-C. Kuo, 2014, “ Scenario analysis of a bioethanol fueled hybrid power generation system,” Sustainable Chemical Processes,Vol. 2, doi:10.1186/2043-7129-2-5.
  28. P.-C. Kuo, W. Wu*, W.-H. Chen*, 2014, “Gasification performances of raw and torrefied biomass in a downdraft fixed bed gasifier using thermodynamic analysis,” Fuel, Vol. 117, pp. 1231-1241. 
  29. W. Wu*, Y.-C. Liou, H.-T. Yang, 2013, “Design and evaluation of a heat-integrated hydrogen production system by reforming methane and carbon dioxide,”Journal of the Taiwan Institute of Chemical Engineers, Vol. 44, pp. 929-935. 
  30. W. Wu*, C.-Y. Wang, 2013, “Design and control of stand-alone hydrogen production systems with maximum waste heat recovery,” Ind. Eng. Chem. Res., Vol. 52, pp. 14601-14612. 
  31. W. Wu*, S.-Y. Lai, M.-F. Jang, Y.-S. Chou, 2013, “Optimal adaptive control schemes for PHB production in fed-batch fermentation of R. eutropha,” Journal of Process Control, Vol. 23, pp.1159-1168.
  32. W. Wu*, Y.-Y. Zhou, M.-H. Lin, and J.-J. Hwang, 2013, “Modeling, design and analysis of a stand-alone hybrid power generation system using solar/urine,” Energy Conversion and Management, Vol. 74, pp. 344-352. 
  33. B. Shi, L.-X. Yan, W. Wu*, 2013, “Multi-objective optimization for combined heat and power economic dispatch with power transmission loss and emission reduction,” Energy, Vol. 56, pp. 135-143. 
  34. W. Wu*, H.-T. Yang, D.-W Jhao, 2013, “Nonlinear dynamic modeling of fuel cell systems using wavelet network-based Hammerstein models,” J. Chem. Eng. Japan, Vol. 46, No. 9, pp. 625–630.
  35. S.-Y. Lai, P.-C. Kuo, W. Wu*, M.-F. Jang, Y.-S. Chou, 2013, “Biopolymer production in a fed-batch reactor using optimal feeding strategies,” Journal of Chemical Technology and Biotechnology, Vol. 88, No.11, pp. 2045-2061.
  36. J.-J. Hwang*, J.-K. Kuo, W. Wu, W.-R. Chang, C.-H. Lin, S.-E. Wang, 2013, “Lifecycle performance assessment of fuel cell/battery electric vehicles,” International Journal of Hydrogen Energy, Vol. 38, pp. 3433-3446
  1. Shi, B., Yan, L.-X. and Wu*, W., 2012, “Rule-based scheduling of single-stage multi-product batch plants with parallel units,” Ind. Eng. Chem. Res, Vol. 51, pp. 8535-8549.
  2. J. -J. Hwang*, W. R. Chang, J. K. Kao, W. Wu, 2012, “Experimental study on performance of a planar membrane humidifier for a proton exchange membrane fuel cell stack, ”Journal of Power Sources , Vol. 215, pp. 69-76.
  3. Wu*, W., Tungpanututh, C., and Yang, H.-T. 2012, “A conceptual design of a stand-alone hydrogen production system with low carbon dioxide emissions,” International Journal of Hydrogen Energy, Vol. 37, pp. 10145-10155.
  4. Wu*, W., Liou, Y.-C. and Zhou, Y.-C., 2012, “Multi-objective Optimization of a Hydrogen Production System with Low CO2 Emissions,” Ind. Eng. Chem. Res., Vol. 51, 2644-2651.
  5. Wu*, W. and Jhao, D.-W., 2012, “Control of a direct internal reforming molten carbonate fuel cell system using wavelet network-based Hammerstein models,”Journal of Process Control, Vol. 22, 653-658.
  6. Wu*, W., and Peng, J. J., 2012, “Removal of Cr(VI) from wastewaters in the electrochemical tubular reactor: simulation and control approach,” Trends in Chemical Engineering, Vol. 14, pp. 21-28 (invited paper)
  7. Wu*, W., and Peng, J. J., 2011, “Linear control of electrochemical tubular reactor system–removal of CR(VI) from wastewaters,” Journal of the Taiwan Institute of Chemical Engineers, Vol. 42, 498-505.
  8. Wu*, W., and Maa, C. Y., 2011, “Double EWMA controller using neural network-based tuning algorithm for MIMO non-squared systems,” Journal of Process Control, Vol. 21, 564-572.
  9. Wu*, W., Li, Y. L., Chen, W. S., Lai, C. C., 2011, “Kinetic studies and operating strategies for an industrial selective hydrogenation process,” Ind. Eng. Chem. Res., Vol. 50, 1264-1271.
  10. Wu*, W., and Li, Y. L., 2011, “Selective hydrogenation of methylacetylene and propadiene in an industrial process: a multi-objective optimization approach,” Ind. Eng. Chem. Res. Vol. 50, 1453-1459.
  11. Wu*, W., and Lin, Y. T., 2010, “Fuzzy-based multi-objective optimization of DMFC system efficiencies,”International Journal of Hydrogen Energy, Vol. 35, pp. 9701-9708.
  12. Hwang*, J. J., Zou, M. L., Chang, W. R., Su, A., Weng, F. B., Wu, W., 2010, “Implementation of a heat recovery unit in a proton exchange membrane fuel cell system,” International Journal of Hydrogen Energy, Vol. 35, pp. 8644-8653.
  13. Wu*, W., and Luo, J. J., 2010, “Nonlinear feedback control of a preheater-integrated molten carbonate fuel cell system,” Journal of Process Control, Vol. 20, pp. 860–868.
  14. Wu*, W., and Lin, Y. T., 2010, “Feasible input manipulation for a nonisothermal direct methanol fuel cell system,” Ind. Eng. Chem. Res., Vol. 49, pp. 5725–5733.
  15. Wu*, W., Luo, J. J. and Hwang, J. J., 2010, “Optimum start-up strategies for direct internal reforming molten carbonate fuel cell systems,” Journal of Power Sources, Vol. 195, pp. 6732–6739 (NSC98-2622-E-224-025-CC3)
  16. Hwang*, J. J., Lai, L. K., Wu, W., Chang, W. R., 2009, “Dynamic modeling of a photovoltaic hydrogen fuel cell hybrid system,” International Journal of Hydrogen Energy, Vol. 39, pp. 9531-9542.  
  17. Wu*, W., and Pai, C. C., 2009, “Modeling and control of a PEM fuel cell system with alternative fuel sources,” Ind. Eng. Chem. Res., Vol. 48, pp 8999–9005. (NSC97-2221-E-224-018)  
  18. Wu*, W., and Chen, C. W., 2009, “Reference-based model predictive control scheme for fed-batch bioprocess optimization,” J. Chem. Eng. Japan, Vol. 42, No. 9, pp. 691–699. (NSC95-2221-E-224-041)  
  19. Wu*, W., and Pai, C. C., 2009, “Control of a heat-integrated proton exchange membrane fuel cell system with methanol reforming,” Journal of Power Sources, Vol. 194, pp. 920-930. (NSC97-2221-E-224-018)  
  20. Wu*, W., Xu, J. P. and Hwang, J. J., 2009, “Multi-Loop Nonlinear Predictive Control Scheme for a Simplistic Hybrid Energy System,” International Journal of Hydrogen Energy, Vol. 34, pp. 3953-3964. (NSC97-2221-E-224-018)  
  21. Wu*, W., 2009, “Finite Difference-based Output Feedback Control for a Class of Nonlinear Systems with Sampling Time-delay,” J. Process Control, Vol. 19, pp. 906–913 (NSC95-2221-E-224-088)  

 

B. Conference Papers
  1. W. Wu*, C.-Y. Wang, 2013, “Design and control of stand-alone autothermal reforming systems using methanol”, 2013 AIChE Annual Meeting, San Francisco, USA
  2. W. Wu*, H.-T. Yang, 2013, “Conceptual design of a stand-alone syngas production system with very low greenhouse gas emissions”, The 5th World Hydrogen Technologies Convention, Shanghai, China
  3. S.-Y. Lai, M.-F. Jang, Y.-S. Chou, W. Wu*, 2012, “Dynamic modeling of a mixed culture cultivation process for polyhy-droxybutyrate (PHB) production in a fed-batch reactor”, 5th International Conference on Industrial Bioprocesses, Taipei, Taiwan.
  4. W. Wu*, C. Tungpanututh, Y-C. Liou, 2012, “Optimization and Heat Integration of a Methane Reforming-based Hydrogen Production System with Low CO2 Emissions”, 2012 International Symposium on Advanced Control of Chemical Processes, Singapore.
  5. W. Wu*, D.-W. Jhao, 2012, “Identification and Control of a Fuel Cell System Using Wavelet Network-based Hammerstein Models”, 2012 International Symposium on Advanced Control of Chemical Processes, Singapore.
  6. W. Wu* and Y. C. Liou, 2011, “Multi-objective Optimization of a New Hydrogen Production System”, 2011 International Renewable Energy & Environment Conference, 2011/06/24-2011/06/26, Kuala Lumpur, Malaysia.
  7. Wu*, W., and J. J. Luo, 2010, “Process Operation of an Internal Reforming Molten Carbonate Fuel Cell System”, 2nd International Symposium on Sustainable Chemical Product and Process Engineering, Hangzhou, China.
  8. W. Wu* and Y.-T. Lin, 2010, “A study on efficiency of a direct methanol fuel cell system”, The 5th International Symposium on Design, Operation and Control of Chemical Processes, Singapore.
  9. Wu, W. and Pai, C. C., 2009, Modeling and Control of PEM Fuel Cell System with Heat Integration, Hydrogen + Fuel Cells 2009, 2009/05/31-2009/06/03, Vancouver.
  10. Wu, W. and Ding, S. Y., 2008, Neural Predictive Control Strategies for Continuous Bioreactor Systems, 12th APCChE Congress, 2008/08/04-06, Dalian.
  11. Wu, W., 2008, Discrete-Time Nonlinear Output Feedback Control for a Class of Nonlinear Systems Using Finite Difference Approaches, 2008 American Control Conference, 2008/06/11-13, Seattle.
  12. Wu, W. and Chen, C. W.,, 2007, Optimization and Control of Chemical Tubular Reactors in the Presence of Hot Spots and Disturbances, PSE ASIA Conference, 2007/08/15-18, 西安. (NSC-94-2214-E-224-007)
  13. Wu, W., and Hsu, W. C.,, 2006, Robust Neural-Network Predictive Control of Nonlinear Systems Exhibiting Input Multiplicities, Asian Control Conference, 2006/07/18-21, Bali. (NSC92-2214-E-224-002)
  14. Wu, W., and Hsu, W. C., 2006, Adaptive Neural-network Predictive Control for Nonminimum-phase Systems, 2006 American Control Conference, 2006/06/14-16, Minneapolis.
  15. Wu, W., and Chang, H. Y, 2005, Nonlinear PI configuration for self-oscillating bioreactors using cell population balance models, 7th World Congress of Chemical Engineering, 2005/07/12-16, Glasgow.
  16. Wu, W., and Chang, J. X., 2004, Neural Predictive Control Design for Uncertain Nonlinear Systems, 7th IFAC Symposium on DYCOPS, 2004/07/04-08, Cambridge.
  17. Wu, W., 2004, Nonlinear PI/PID Controllers for a High-order Reactor System, American Control Conference, 2004/06/30-2004/07/02, Boston.
  18. Wu, W., and Huang, M. Y., 2004, Flexible Output Regulation Designs for Nonlinear Bioreactors, 8th International Symposium on Process Systems Engineering, 2004/01/10-15, Kunming.
  19. Wu, W., and Chang, J. X., 2003, Neural Predictive Control Strategies for a Class of Nonlinear Systems, 2003 Symposium on Process Systems Engineering, 2003/12/05, Taipei.
  20. Wu, W., and Huang, M. Y., 2002, Nonlinear Output Regulation Design for Continuous Fermenters, 2002 Taiwan-Korea-Japan Chemical Engineering Conference, 2002/11/30, Taipei.
  21. Wu, W., 2002, Output Regulation of General Nonlinear Systems with Discrete Measurements, 2002 PSE Asia, 2002/11/29, Taipei.
  22. Wu, W., 2002, Output Regulation of Reactor Systems with Actuator Constraints, 15th World Congress of Automatic Control, 2002/07/16-21, Barcelona.
  23. Wu, W., 2001, Output Regulation of an Exothermic Tubular Reactor, to appear in 6th IFAC Symposium on DYCOPS, Cheju Island, pp. 204-209.
  24. Wu, W., 2001, Adaptive-like Control of a Catalytic Continuous Stirred Tank Reactor, 6th World Congress of Chemical Engineering, Melbourne.
  25. Wu, W. and Liou, C. T., 2000, Output Regulation of Nonlinear PDE Systems, 2000 American Control Conference, Chicago, pp. 3773-3777.
  26. Wu, W., 1999, Lyapunov-based Design Procedures for a State-delay Chemical Process, 14th World Congress of IFAC, Beijing, pp. 127-132.
  27. Wu, W., 1998, Feedback Linearizable control for a Nonisothermal CSTR with Input Constraints, Symposium on Computer Process Control, Taipei, pp. 279-287.
  28. Chou, Y. S. and Wu, W., 1995, Robust Control Synthesis for Uncertain Nonlinear Time-Varying Systems with Time Delays, Proc. American Control Conf, Seattle,WA, pp. 3183-3187.
  29. Chou, Y. S. and Wu, W., 1995, A Robust Delay Compensator Synthesis for Nonlinear Time Delay Systems, National Symposium on Automatic Control, Taichung, pp. 125-130.
  30. Wu, W. and Chou, Y. S., 1994, Disturbance Compensation for Nonlinear Chemical Processes, Proc. 3rd IEEE Conf. Control Appl, Glasgow,UK, pp. 33-38.
  31. Wu, W. and Chou, Y. S., 1994, A High-Gain Controller Synthesis for Uncertain Nonlinear Systems with Time Delays, Proc. 33rd IEEE Conf. Design and Control, Orlando,FL, pp. 1615-1620.
  32. Wu, W. and Chou, Y. S., 1994, A Dynamic High-Gain Design for Uncertain Nonlinear Systems with Slightly Non-minimum Phase, Proc. Asian Control Conf, Tokyo, pp. 877-880.
Teaching

(1) Process Control

(2) Process Design

(3) Process Simulation and Its Application

Services


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