Distinguished Professor, Ming-Yen Wey
 
National Chung Hsing University Department of Environmental Engineering Taichung, Taiwan, 40227 Republic of China
mywey@dragon.nchu.edu.tw
Tel: +886-4-22852455
Fax: +886-4-22862587
http://web.nchu.edu.tw/~mywey/
 
 
Education and Experiences
 
Distinguished Professor, Chung-Hsing University (2007-)
Professor, Chung-Hsing University (1996-)
Associate Professor, Chung Hsing University (1991-1996)
Ph.D., KUL, Leuven, Belgium (1988-1991)
Licenicé, UCL, Louvain-La-Neuve, Belgium (1987-1988)
B.C., Tamkang University, Taiwan (1979-1983)
 
 
RESEARCH INTERESTS
 
Waste Incineration Technology
Develop Novel Nanoporous Catalysts and its Application in Environmental Engineering.
CMS membranes for gas separation and air pollutants removal.
Recycling of Waste Materials and Energy
Air Pollution Control Technology
Process Simulation
 
 
Materials and Energy Recovery
   
   
 
 
Membrane Technology
   
   
 
Novel Nanoporous Catalyst
   
   
 
Service and graduate students supervised
 
Editorial Board, Journal of Solid Waste Technology and Management
Editorial Board,The Open Waste Management Journal
Coordinator, Environmental Engineering Program, Ministry of Science and Technology, ROC
Doctoral Thesis Supervised (29, one from India, one from Thailand), Masters Thesis Supervised  (96)
Doctoral students 4, Master Students 7
 
 
Selected Publications
 

     

    1.          Jing-Yi Li, David K. Wang, Yu-Ting Lin, Ming-Yen Wey* , Hui-Hsin Tseng* (2022) “ Homogeneous sub-nanophase network tailoring of dual organosilica membrane for enhancing CO2 gas separation” Journal of Membrane science Vol 644, p.120170(SCI)  IF:10.53

    2.          Jing-Yi Li, Yu-Ting Lin, David K. Wang Hui-Hsin Tseng*, Ming-Yen Wey* (2022)” Effect of heat diffusivity for driving chain stitching of dual-type hybrid organosilica-derived membranes “Separation and purification technology, Vol. 290, p.120848(SCI) IF:9.136

    3.          Wen-Hsiung Lai; David K. Wang; Hui-Hsin Tseng* and Ming-Yen Wey* (2022)” Photo-induced poly(styrene-[C1mim][Tf2N])-supported hollow fiber ionic liquid membranes to enhance CO2 separation ” Journal of CO2 Utilization, Vol. 53, p.101871 (SCI)  IF:8.321

    4.          Chung-En Tan , En-Chin Su* , Ming-Yen Wey*(2022) ” Development of physicochemically stable Z-scheme MIL-88A/g-C N heterojunction photocatalyst with excellent charge transfer for improving acid red 1 dye decomposition efficiency”, Applied Surface Science , Vol. 590, p.152924(SCI)  IF:7.392

    5.           Wei-Jing Li, Ting-Yu Li and Ming-Yen Wey*, (2021)“Preferred enhancement of Fast-SCR by Mn/CeSiOx catalyst: study on Ce/Si promotion and shape dependence” Chemical Engineering Journal, Vol. 403, 126317 IF:16.744

    6.          Lin, Yu-Ting; Li, Jing-Yi; Tseng, Hui-Hsin*; Wey, Ming-Yen* (2021)” Insight into the Role of Polymer Conformation on the Cut-Off size of Carbon Molecular   Sieving Membranes for Hydrogen Separation and Its Novel Pore Size Detection Technology” ACS Applied Materials & Interfaces Vol. 13, p.5165-5175 IF:9.441

    7.           Wen-Hsiung Lai; Ming-Yen Wey*; and Hui-Hsin Tseng*(2021) “High loading and high-selectivity H2 purification using SBC@ZIF based thin film composite hollow fiber membranes” Journal of Membrane science Vol 626, p.119191 IF:10.53   

    8.           Jing-Yi Li, David K. Wang, Hui-Hsin Tseng*, Ming-Yen Wey* (2021) “ Solvent effects on diffusion channel construction of organosilica membrane with excellent CO2 separation properties” Journal of Membrane science Vol 618, p.118758 IF:10.53

    9.           Wen-Hsiung Lai , David K. Wang , Ming-Yen Wey*, Hui-Hsin Tseng* (2020) “ Recycling waste plastics as hollow fiber substrates to improve the anti-wettability of supported ionic liquid membranes for CO2 separation” Journal of Cleaner Production Vol. 276 p.124194 IF:11.072

    10.       W.-J. Li and M.-Y. Wey*, (2020)“Sintering-resistant, highly thermally stable and well-dispersed Pd@CeO2/halloysite as an advanced three-way catalyst”, Science of the Total Environment Vol. 707. P.136137 IF:10.753

    11.       Ju-Ting Lee; Ming-Yen Wey* (2020)” PVA/Pt/N-TiO2/SrTiO3 porous films with adjustable pore size for hydrogen production under simulated sunlight” Journal of Colloid and Interface Science Vol. 573 p.158-164 IF:9.965

    12.       Ren-Xuan Yang, Kui-Hao Chuang, Shan-Luo Wu, Ming-Yen Wey* (2020) “Co-production of carbon nanotubes and hydrogen from waste plastic gasification in a two-stage fluidized catalytic bed" Renewable Energy Vol 45, P. 7290-7302(SCI)IF:8.634

    13.       Hui-Hsin Tseng; Zi-Yi Lin; Shih-Hsiung Chen; Wen-Hsiung Lai; Ming-Yen Wey* (2019)” Reuse of reclaimed tire rubber for gas-separation membranes prepared by hot-pressing” Journal of cleaner Production Vol. 237, 117739 IF:11.072

    14.       Ming-Yen Wey, Ching-Ting Wang, Yu-Ting Lin, Min-Der Lin, Petr Uchytil, Katka Setnickova, Hui-Hsin Tseng*(2019)” Interfacial interaction between CMS layer and substrate: Critical factors affecting membrane microstructure and H2 and CO2 separation performance from CH4” Journal of Membrane Science Vol.580, P.49-61 IF:10.53

    15.       Wei –Jing Li, Ming Yen Wey*(2019)”Core-shell design andwell-dispersed Pd particles for three-way catalysis:Effect of halloysite nanotubes functionalized with Schiff base” Science of the Total Environment Vol 675, P 397-407 IF:10.753

    16.       Wen-Hsiung Lai, Guo-Liang Zhuang, Hui-Hsin Tseng*, Ming-Yen Wey*(2019)”Creation of tiny defects in ZIF-8 by thermal annealing to improve the CO2/N2 separation of mixed matrix membranes” Journal of Membrane Science Vol.572, P.410-418 IF:10.53

    17.       Guo-Liang Zhuang, Hui-Hsin Tseng*, Petr Uchytil, Ming-Yen Wey*(2018)” Enhancing the CO2 plasticization resistance of PS mixed-matrix membrane by blunt zeolitic imidazolate framework” Journal of CO2 Utilization Vol 25 P.79-88 IF:8.321

    18.       Su, En-Chin; Huang, Bing-Shun, Ming-Yen Wey* (2017)” Green route for hydrogen evolution from real electroplating waste liquids induced by a solar light responsive photocatalyst ” ACS Sustainable Chemistry & Engineering,Vol 5, P. 2146-2153 IF:9.224

    19.       Chuang Kuo-liang, Ming-Yen Wey*, Hui-Hsin Tseng*(2017)” Effect of copolymer microphase-separated structures on the gas separation performance and aging properties of SBC-derived membranes” Journal of Membrane Science, Vol. 529 P.63-71 IF:10.53

    20.       Chuang Kuo-liang, Ming-Yen Wey*, Hui-Hsin Tseng* (2016)”A novel technique using reclaimed tire rubber for gas separation membranes” Journal of Membrane Science, Vol. 520 P.314-325 IF:10.53

    21.       Tzu-Huan Peng, Chiou-Liang Lin, and Wey, Ming-Yen*(2015) “Determination of the Pb, Cr, and Cd distribution patterns with various chlorine additives in the bottom ashes of a low-temperaturetwo-stage fluidized bed incinerator by chemical sequential extraction” Journal of Hazardous Materials Vol. 295, pp. 86-96 IF:14.224

    22.       Hui-HsinTseng, Kuo-Liang Chuang, Min-Der Lin, Ssu-Hsun Chang, Ming-YenWey* (2015)”The influence of matrix structure and thermal annealing-hydrophobic layer on the performance and durability of carbon molecular sieving membrane during physical aging” Journal of Membrane Science, Vol. 495 P. 294-304 IF:10.53

    23.       Hui-HsinTseng, Ssu-Hsun Chang, Ming-YenWey* (2014) “A carbon gutter layer-modified <alpha>-Al2O3 substrate for PPO membrane fabrication and CO2 separation” Journal of Membrane Science, Vol 454, P.51-61 IF:10.53

    24.       Bing-Shun Huang, En-Chin Su and Ming-Yen Wey* (2013) “Design of a Pt/TiO2-xNx/SrTiO3 triplejunction for effective photocatalytic H2 production under solar light irradiation”, Chemical Engineering Journal, Vol. 223 P.854-859 IF:16.744

    25.       Li Luen Hwang, Jyh Cherng Chen, Ming-Yen Wey* (2013)”The properties and filtration efficiency of activated carbon polymer composite membranes for the removal of humic acid” Desalination, Vol. 313 P.166–175 IF:11.211

    26.       Bing-Shun Huang,Hsin-Yi Chen, Jia-HongKuo, Kui-Hao Chuang and Ming-Yen Wey* (2012)”Catalytic upgrading of syngas from fluidized bed air gasification of sawdust” Bioresource Technology, Vol.110, 670–675  IF:11.889

    27.       Hui-Hsin Tseng; Kaimin Shih; Pei-Ting Shiu and Ming-Yen Wey* (2012) “Influence of support structure on the permeation behavior of polyetherimide-derived carbon molecular sieve composite membrane” Journal of Membrane Science, Vol. 405-406, p.250-260 IF:10.53

    28.       Tsu Hsiang Weng, Hui-Hsin Tseng and Ming-Yen Wey*(2011)”Effect of SBA-15 texture on the gas separation characteristics of SBA-15/polymer multilayer mixed matrix membrane” Journal of Membrane Science Vol. 369, pp. 550-559 IF:10.53

    29.       Rau, Jui-Yeh; Chen, Jyh-Cherng; Shih-Teng Huang; Wen-Tsung Hung and Wey, Ming-Yen*(2011) “Removals of Fly Ash and NO in a Fluidized-Bed Reactor with CuO/Activated Carbon Catalysts” Journal of Hazardous Materials Vol. 187, pp. 190-198 IF:14.224

    30.       Itta Arun Kumar, Hui-Hsin Tseng, Ming Yen Wey* (2011)”Fabrication and characterization of PPO/PVP blend carbon molecular sieve membranes for H2/N2 and H2/CH4 separation” Journal of Membrane Science Vol.372, pp. 387–395 IF:10.53

    31.       Hui-Hsin Tseng , Chi-Yuan Lu , Feng-Yim Chang, Ming-Yen Wey*, Han-Tsung Cheng(2011) “Catalytic Removal of NO and PAHs over AC-Supported Catalysts from Incineration Flue Gas: Bench-Scale and Pilot-Plant Tests” Chemical Engineering Journal Vol.169, pp.135–143 IF:16.744

    32.      Jui-Yeh  Rau; Hui-Hsin  Tseng; Bo-Chin  Chiang; Ming-Yen Wey*; Lin, Min-Der (2010), “Title: Evaluation of SO2 Oxidation and Fly Ash Filtration by an Activated Carbon Fluidized Bed Reactor: The Effects of Acid Modification, Copper Addition and Operating Condition”, Fuel, Vol 89, p. 732-742 IF:8.035

    33.      Feng-Yim Chang; Jyh-Cherng Chen; Ming-Yen Wey*,(2010) “Activity and characterization of Rh/Al2O3 and Rh-Na/Al2O3 catalysts for the SCR of NO with CO in the presence of SO2 and HCl” Fuel, Vol 89, p.1919-1927 IF:8.035

    34.      Chi-Yuan Lu, Hui-Hsin Tseng, Ming-Yen Wey*, Ling-Yi Liu, Jia-Hong Kuo, Kui-Hao Chuang(2009) “Al2O3-supported Cu-Co bimetallic catalysts prepared with polyol process for removal of BTEX and PAH in the incineration flue gas” Fuel 88, p.340-347 IF:8.035

    35.      Chi-Yuan Lu, Hui-Hsin Tseng, Ming-Yen Wey* and Ting-Weu Hsueh(2009) "The Comparison between the Polyol Process and the Impregnation Method for the Preparation of CNT-supported Nanoscale Cu Catalyst" Chemical Engineering Journal ,Vol. 145, 461-467 IF:16.744

    36.      Chou J.T., Wey M. Y*., and  Chang S. H. (2009) "Evaluation of the distribution patterns of Pb, Cu and Cd from MSWI  fly ash during thermal treatment by sequential extraction procedure" Journal of Hazardous Materials Vol 162, p.1000-1006 IF:14.224

    37.      Chi-Yuan Lu, Ming-Yen Wey*, Kui-Hao Chuang(2009) ”Catalytic treating of gas pollutants over cobalt catalyst supported on porous carbons derived from rice husk and carbon nanotube”, Applied Catalysis B:  Environmental, Vol 90, p.652-661 IF:21.41

    38.      Feng-Yim Chang, Jyh-Cherng Chen and Ming-Yen Wey*,(2009) “ The activity of Rh/Al2O3 and Rh-Na/Al2O3 catalysts for PAHs removal in the waste incineration processes: effects of particulates, heavy metals, and acid gases” Fuel, Vol. 88, 9, p.1563-1571 IF:8.035

    39.      Kuang-Yu Liu, Jui-Yeh Rau , Ming-Yen Wey*(2009) “Collection of SiO2, Al2O3 and Fe2O3 particles using a gas-solid fluidized bed ” J. of Hazardous Materials, 171, 102-110 IF:14.224

    40.      Ming-Yen Wey*, Kuang-Yu Liu, Wu-Jung Yu, Chiou-Liang Lin and Feng-Yim Chang(2008) “Influences of chlorine contents on emission of HCl and organic compounds in waste incineration using a Fluidized bed” Waste Management, Vol. 28, issue 2, p. 406-415 IF:8.816

    41.      Chou J.T., Wey M. Y.*, and Shih-Hsien Chang(2008) “Emission of Pb and PAHs from thermally co-treated MSWI fly ash and bottom ash process” Journal of Hazardous Materials, Vol 150/1 pp. 27-36 IF:14.224

    42.      J.H. Kuo, H.H. Tseng, P. Srinivasa Rao, and M.Y. Wey*(2008) "The prospect and development for municipal solid waste treatment and characteristics of their pollutants in Taiwan." Applied Thermal Engineering, vol 28, pp.2305-2314  IF:6.32

    43.      Feng-yim Chang, Ming-Yen Wey* and Jyh-Cherng Chen(2008) “Effects of sodium modification, different reductants and SO2 on NO reduction by Rh/Al2O3 catalysts at excess O2 conditions” Journal of Hazardous Materials, Vol 156/1-3 p. 348-355 IF:14.224

    44.      Chi-Yuan Lu, Ming-Yen Wey* ”( 2007) The performance of CNT as support on CO oxidation at low temperature” Fuel. Vol. 86 issue7-8 pp. 1153-1161 IF:8.035

    45.      Kuang-Yu Liu, M.Y. Wey*,(2007)Filtration of fly ash using fluidized bed at 300-500°C” Fuel, Vol 86, issue 1-2, pp. 161-168 IF:8.035

    46.      Kuang-Yu Liu, M.Y. Wey*,(2007) “Filtration of nano particle by a gas-solid fluidized bed ” J. of hazardous material,Vol 147, pp.618-624 IF:14.224 

    47.      F.Y. Chang, M.Y. Wey*,(2006) “Comparison of the characteristics of bottom and fly ashes generated from various incineration processes” J. of hazardous material, Vol. 138, PP. 594-603 IF:14.224

    48.      M.Y. Wey*, K.Y. Liu, T.H. Tsai, J.T. Chou(2006)” Thermal treatment of the fly ash from municipal solid waste incinerator with rotary Kiln” J. of Hazardous Material ,Vol 137/2 pp 981-989 IF:14.224

    49.      Wey, M Y*, Chen J. C, Wu H Y, YU W J, Tsai T. H.(2006) “Formations and Controls of HCl and PAHs by Different Additives during Waste Incineration" Fuel, Vol 85/5-6, pp 755-763. IF:8.035

    50.      H.H. Tseng, M.Y. Wey*, (2006) “Effects of acid treatments of activated carbon on its physiochemical structure as support for copper oxide in DeSO2 reaction catalysts” Chemosphere, Vol. 62, issue 5, Pages 756-766. IF:8.943

    51.      M.Y. Wey*, Chen K. H.Kuang-Yu Liu(2005) 'The effect of ash and filter media characteristics on particle filtration efficiency in fluidized bed” J. of hazardous material, B121, p.175-181. IF:14.224

    52.      Kuang-Yu Liu, M.Y. Wey*(2005) “Dynamic purification of coal ash by a gas solid fluidized bed” Chemosphere, Vol.60 pp.1341-1348. IF:8.943

    53.      Chiou-Liang Lin, Ming-Yen Wey*(2004) “ The effect of mineral compositions of waste on particle agglomeration/defluidization during incineration” Fuel, Vol 83/17-18  pp.2335-2343. IF:8.035

    54.      H.H. Tseng, M.Y. Wey*,(2004) 'Study of SO2 adsorption and Thermal regeneration over a spent actived Carbon-supported Copper Oxide Catalyst' Carbon, Vol 42/11 pp.2269-2278. IF:11.307

    55.      C. L. Lin, M. Y. Wey,*,H.T.Cheng(2004) “Relationship between pressure fluctuation and organic pollutants with different particle size distributions in a fluidized bed incinerator” Chemosphere, Vol. 56/10 pp. 911-922. IF:8.943

    56.      J.C.Chen, M. Y. Wey*, C, L.Yeh and Y.S.Liang(2004) ”Simultaneous treatment of organic compounds, CO and NOx in the incineration flue gas by three-way catalysts, Applied catalysis B: Environmental, Vol 48, Issue 1, pp.25-35. IF:21.41

    57.      C.L. Lin, M.Y. Wey* and S. D. You ,(2004)The effect of concentration of bed materials on combustion efficiency during incineration, Energy Vol.29 issue1, pp.125-136 IF:8.857

    58.      Tseng H.H., Wey M.Y. *, Fu C.H.,(2003) Carbon material as catalyst supports for SO2 Oxidation: Catalytic activity of CuoO/AC” Carbon, Vol. 41 pp.39-149. IF:11.307

    59.      H.H.Tseng, M.Y. Wey*, Cheng-Hao FU, Y.S.Liang, K.Hao Chen (2003) ”Catalytic treating of SO2, N,O HCl from incineration flue gas over activated carbon supported metal oxides, Carbon Vol. 41, 5, pp 1079-1085. IF:11.307

    60.      Chiang B. C., Wey M. Y*., C.L. Yeh (2003)Control of acid gases using a fluidized bed adsorber” J. of Hazardous Material, B101 pp.259-272. IF:14.224

    61.      M.Y. Wey*, C.H. Fu, H.H. Tseng, , K.H. Chen(2003) “Catalytic Oxidization of SO2 from incineration flue gas over bimetallic CU-Ce catalysts, Fuel, Vol.82,  pp.2285-2290, IF:8.035

    62.      H.H. Tseng, M.Y. Wey* , C.Chen , C. Y. LU,(2002)-“The adsorption of PAHs, BTEX and Heavy Metals on surfactant-modified desulfurization sorbents in a dry scrubber, Fuel, 81, pp.2407-2416. IF:8.035

    63.      Zhen-shu Liu, Ming-yen Wey*, C. L. Lin,(2002): Reaction characteric of ca(OH)2. HCl and SO2 at low temperature in a spray dryer integrated with a fabric filter” J. of hazardous material, Vol.95 Issue 3, pp.291-304. IF:14.224

    64.      Liu, Z. S.,Wey M. Y.* and Lin, C. L.(2002),"Simultaneous Control of Acid Gases and PAHsUsing a Spray Dryer Integrated with a Fabric Filter Using Different Additives", J. Hazardous Material, B91,pp.129-141. IF:14.224

    65.      Chiang, B. C. , Wey, Ming-Yen*and  Fan , Liu Mei(2001)," Heat treatment of incinerator retired sorbents containing heavy metals", The Science of total Environment, Vol. 273, No. 1-3, pp.83-92. IF:10.753

    66.      Wey, Ming-Yen* , Ou, W Y, Liu, Z. S., Tseng H. H., Yan W. Y. and Chiang, B. C. , (2001)" Pollutants in incineration flue gas" J. of Hazardous materials, B. 82, pp.247-262. IF:14.224

    67.      Wey, M. Y*., Chao, C. Y., Wei, M. C., Yu, L. J., and Liu Z. S.,(2000) "The Influence of Heavy Metals on Partitioning of PAHs during Incineration", J. of Hazardous Material, Vol. 77(1-3), October,2,p.77-87 IF:14.224

    68.      Wey, M. Y.*, Yan, M. H. and Chen, J. C. (2000) Treatment of hazardous sorbents generated from the adsorption of heavy metals during incineration, Journal of Hazardous Materials, B 73, PP.19-37. IF:14.224

    iconPHD Thesis

    1.              Development of Free-Standing Carbon Hollow Fiber Membrane for Hydrogen Purification and Carbon Capture (林鈺婷,2022)

    2.              Application of the metal/halloysite three-way catalyst for elimination of automotive exhaust (李維瀞, 2022)

    3.              Recycling of waste plastics to synthesize ionic liquid hollow fiber membranes for gas separation (賴文雄,2022)

    4.              Development and application of subnano porous organosilica membrane for molecular separation (李靜怡, 2022)

    5.              EMF analysis and reduction of eddy current loss of a double-circuit junction tower through cable sequencing and reconfiguration (江奕旋, 2021)

    6.              The synthesis of solar light-responsive photocatalyst blend polyvinyl alcohol film for photocatalytic hydrogen production (李如婷, 2020)

    7.              Application of core-shell catalyst on hydrogen generation from waste polyethylene using a two stage fluidized bed /(吳杉洛, 2020)

    8.              Feasibility of preparing gas separation membrane from polymeric waste (莊國良, 2017)

    9.              The conversion of waste plastics into carbon nanotubes and hydrogen using fluidized catalyst reactors (楊任軒, 2016)

    10.          The conversion of organics in wastewater to hydrogen using solar light responsive triple-junction photocatalyst (蘇恩沁, 2016)

    11.          Thermal treatment of soil co-contaminated with lube oil and heavy metals in a two-stage fluidized bed incinerator (Ukrit Samaksaman, Thailand, 2016)

    12.          Characterization of lightweight aggregates made from the bottom ash and fly ash of a fluidized-bed incinerator (呂建興, 2016)

    13.          Development of the low-temperature two-stage fluidized bed reactor for the waste incineration (彭子桓, 2015)

    14.          The preparation, structural properties and operation characteristics of activated carbon polymer composite membranes for water treatment (黃立倫, 2013)

    15.          Pt/TiO2-xNx/SrTiO3 光觸媒以提升太陽能光解水產氫速率/ Enhancement of solar light induced water splitting for hydrogen production over Pt/TiO2-xNx/SrTiO3 photocatalysts (黃柄舜, 2012)

    16.          Preparation and characterization of nano-carbon molecular sieving composite membrane for carbon capture and hydrogen separationArun (Kumar Itta, India, 2011)

    17.          Studies on the preparation of supported copper catalysts through microwave polyol process for clean power-generation technology (莊桂鶴, 2011)

    18.          Energy utilization and pollutant generation through fluidized bed operation: Effect of defluidization (郭家宏, 2010)

    19.          Dynamic variation and influence factors on the simultaneous removal of NO, SO2 and fly ash using a fluidized-bed catalytic reactor (饒瑞曄, 2010)

    20.          Preparation and characterization of polymer & multi-layer composite membranes for gas separation (翁子翔, 2010)

    21.          Application of the catalyst for the treatment of waste incineration pollutants (張鳳儀, 2009 )

    22.          A study on evaluation of pollutant emission and heavy metals species properties of MSWI fly ash during thermal treatment process (周經棟,2009)

    23.          Mesoporous materials as catalyst support for air pollution control (盧啟元, 2007)

    24.          Dynamic variation and influence factors of the particle filtration by a gas-solid fluidized bed (劉光宇, 2006)

    25.          The study of the effects of hydrodynamic behaviors on waste incineration (林秋良, 2004 )

    26.          Studies on the adsorption characteristics of sulfur dioxide by activated carbon-supported copper catalyst(曾惠馨, 2003)

    27.          Studies on the control of pollutants in incineration waste gas(劉禎淑, 2002

    28.          Control of Incinerator Pollutants by a Fluidized Bed Reactor(蔣博欽, 2002

    29.          The Control of Heavy Metals in the Incineration Process(陳志成, 1998

     

     

     

    iconMaster Thesis

     

    1.    The effect of photocatalyst films with different synthesis processes for azo dye decolonization under simulated sunlight (陸庭毅, 2022)

    2.    The carbonization of halloysite nanotube loaded with core@shell catalysts for three-way catalysis (王韻婷, 2022)

    3.    Synthesis of conducting polymer polyaniline composite photocatalyst films PS/PANI/Pt/N-TiO2 for photocatalytic hydrogen production (徐瑄鍹, 2022)

    4.    Post-combustion CO2 capture by IL/ZIF-8 mixed matrix hollow fiber membrane: the influence of SO2, HCl and particulate matter(郭泓鑫, 2021)

    5.    Synthesis of g-C3N4/ZnO photocatalyst by using ZIF-8 as a template for enhancing specific surface area and dye decolorization rate by two-step calcination process(李淑雯, 2021)

    6.    Synthesis of Mn/CeSiOx catalyst with different morphology for low-temperature selective catalytic reduction of NO with NH3 (李庭瑜, 2020)

    7.    Preparation of CuCo/Halloysite catalysts by ammonia-driven precipitation method for acid gas treatment (蔡樹, 2020)

    8.    Comparison of polymer-Pt/N-TiO2/SrTiO3 blend photocatalyst films with different polymer type for photocatalytic hydrogen production under simulated sunlight (張育甄, 2020)

    9.    A feasible way to synthesis hollow fiber membrane from reclaimed tire rubber for dye wastewater treatment (高凡雅, 2020)

    10.  Synthesis of Pt/g-C3N4/SrTiO3 Photocatalyst for Simultaneous Dye Decolorization and Hydrogen Production in Simulation Dye Wastewater (譚仲恩, 2019)

    11.  Synthesis of yolk-shell catalyst for hydrogen production from waste plastic gasification (梁紹嵐, 2019)

    12.  Bimetallic Co/Cu core-shell catalyst for hydrogen production from simulated waste plastics gasification syngas(吳佳龍, 2019)

    13.  The study of Ni/SiO2@Al2O3 core-shell catalyst for hydrogen production from simulated waste plastics gasification syngas(陳佳瑩, 2019)

    14.  Synthesis of  CuInS2 photocatalyst for photocatalytic decolorization of Acid red 1 under simulated sunlight irradiation (黃宥恩, 2019)

    15.  Fabrication of carbon molecular sieve hollow fiber membranes for H2/CO2 separation: Effect of hollow fiber module (陳偲涵, 2018)

    16.  Production of carbon nanotubes with controllable diameter by catalytic cracking of methane using Fe@Al2O3 core-shell catalyst (陳均銘, 2018)

    17.  Effect of modification method for Ni/MgAl2O4 catalysts in dry reforming of methane (呂彥霖, 2018)

    18.  Synthesis of Pt/g-C3N4/SrTiO3 photocatalyst for photocatalytic hydrogen production through water splitting under sunlight irradiation (陳雅如, 2018)

    19.  The study of the preparation of gas separation membrane by reusing waste tires by hot pressing technology (林姿宜, 2018)

    20.  Hydrogen production from dry reforming of methane using Ni/MgAl2O4 spinel catalyst via solution combustion method (賴沛晨, 2017)

    21.  Construction of a hydrophobic Si/carbon molecular sieve membrane reactor for water gas shift reaction (李靜怡,2017)

    22.  Reforming  of simulated syngas derived from biomass gasification using catalysts supported on spinels for hydrogen promotion(陳秉男, 2016)

    23.  Mixed matrix membrane consisting HIPS copolymer and porous ZIF-8 crystals for gas separation: Ammonia-assisted synthesis of ZIF-8 crystals in micro-aqueous solution (黃珮芳, 2016)

    24.  Catalytic carbon molecular sieve membrane reactor for H2 purification and CO2 capture in IGCC system (涂逸寧,2016)

    25.  The study of metal/OMMT catalyst for hydrogen production from simulated waste plastics gasification syngas (賴羿宏, 2016)

    26.  Evaluation of Ni/SiO2 core-shell catalysts for hydrogen and carbon material production from plastic wastes gasification (李維瀞, 2016)

    27.  Ni/SiO2 core-shell catalysts for catalytic hydrogen production from simulated mixed gas derived from the plastic waste gasification (徐麗茹, 2015)

    28.  Preparation and characterization of tubular carbon molecular sieving membrane by vacuum-assisted dip-coating method and their gas separation properties (鄭博育, 2015)

    29.  Photocatalytic degradation of AR1 dye using TiO2 photocatalyst prepared by polyol method(李文英, 2015)

    30.  Preparation and characterization of PDMS membrane by non-toxic solvent method for gas separation (吳肇峰, 2014 )

    31.  Study on SBA-15/PPO mixed substrate film for hydrogen purification and carbon dioxide capture: SBA-15 additive and carbon substrate effect (莊皓惟, 2014)

    32.  Improving the photocatalytic activity of CdS/SrTiO3 by surface modification with metal oxide for hydrogen evolution (葉佳敏, 2014)

    33.  Enhancing carbon production by Ni-Fe catalyst during waste plastic gasification (鄭 雋威, 2014)

    34.  Simultaneous hydrogen evolution and degradation of EDTA dissolved in the real wastewater over Pt/N-TiO2/SrTiO3 photocatalyst (龔怡禎, 2014)

    35.  Preparation of PPO/Silica mixed matrix membrane through in-situ sol-gel method for H2 purification and CO2 capture (莊國良, 2013)

    36.  Photocatalytic degradation of acid red 1 dye by using UV/TiO2 photocatalysts (黃筠雅, 2013)

    37.  Enhancement of hydrogen production by using bed-additives during biomass gasification process (林呈彥,2013)

    38.  Photocatalytic degradation of EDTA in waste water on hydrogen production via Pt/TiO2-AC and Pt/ TiO2-MWCNT photocatalysts (劉 昭彰,2013)

    39.  A study of NiO/NiAl2O4 oxygen carrier application for chemical looping combustion (林婉慈, 2013)

    40.  The study of manufacture of multilayer composite membrane and its application on CO2 separation (張斯巽,2012)

    41.  Adding metal oxides in Pt anode electrocatalysts for enhancing CO tolerance in proton exchange membrane fuel cells (郭蔓嬋, 2012)

    42.  Application of CMS membrane for gas separation and purification during hydrogen production from biomass (張筑暄, 2012)

    43.  Biomass catalytic gasification for hydrogen production (陳欣宜, 2011)

    44.  Effect the structure of supported layer of carbon molecular sieve membranes for gas separation (徐珮庭, 2011)

    45.  The effect of the ammonium salts on the removal efficiency of NO, SO2 and fly ash in simulated flue gas (洪文宗, 2011)

    46.  Effect of bed-additives on hydrogen production during fluidized bed biomass gasification process(陳緯政, 2011)

    47.  Modification of catalysts for simultaneous control of NO and fly ash in a fluidized-bed catalyst reactor (黃世騰, 2010)

    48.  Study on surface morphology and gas permeability of MFI films synthesized by secondary growth method (張馨方, 2010)

    49.  Enhancing the H2S Tolerance in Proton Membrane Fuel Cells (PMFC) by Modified Pt Electrocatalysts (林松茂, 2010)

    50.  A study of Cu/CeO2 catalysts prepared by polyol process for CO oxidation at low temperature: the effects of cerium support (張文棋, 2010)

    51.  Effects of operating conditions on gaseous products and organic pollutants during fluidized bed partial oxidative gasification of modified MSW (連益輝, 2010)

    52.  Modification of Pt electrocatalysts to improve the tolerance of CO in proton membrane fuel cells (林依杏, 2009)

    53.  Effect of preparation processes of carbon molecular sieve membranes (CMSMs) for gas separation (陳學裕, 2009)

    54.  Study on Separation Efficiency of Organic Wastewater by Pore Size of PEG-modified PEI/PPSU Membrane (黃立綸, 2009)

    55.  Study on the Application of Solid Catalyst in Biodiesel Transesterification (吳思佩, 2009)

    56.  Comparative analysis of power generation efficiency and CO2 emissions between waste incineration plants and thermal power plants (盧英名, 2009)

    57.  Study the Effect of Calcination Temperatures and Calcination Gases on Cobalt Catalyst for Toluene Conversion (陳俊寬, 2008)

    58.  Photocatalysis of volatile organic pollutants by visible light photocatalyst (黃柄橓, 2008)/

    59.  Preparation of SBA-15 as catalyst support for VOC oxidation (章育豪, 2008)

    60.  Study on the awareness of environmental protection provisions and influencing factors of semiconductor packaging factory staff (余正宗, 2008)

    61.  The Study on emission of copper metal during thermal treatment of copper sludge (謝易霖, 2008)

    62.  Preparation of titanium dioxide photocatalyst to remove VOC by impregnation method (陳佩君, 2007)

    63.  Preparation of alumina-supported CuCo catalysts by the polyol process for VOC oxidation (呂玲儀, 2007)

    64.  A Study on How Various Communities And Different Recycling Environment And Facilities Affect Sixth-grade Students'' Recycling Behaviors (廖文盛, 2007)

    65.  The study of the filtration of particle and VOC by a gas-solid fluidized bed (陳駿樑, 2007)

    66.  Removal of gaseous pollutants by carbon nanotube catalysts (薛丁維,2007)

    67.  The effect of precursors on copper nanocatalyst prepared with polyol process for VOC oxidation (傅瑛惠, 2007)

    68.  Supported metal oxide nanocatalysts prepared with polyol process for VOCs oxidation at low temperature (陳俐穎, 2006)

    69.  The Study of Environmental Impact Assessment for Municipal Waste Incineration Plant (潘志明, 2006)

    70.  A comparison study of the building and operation of public and private municipal waste incineration plants  (許俊清, 2006)

    71.  Catalytic NO reduction by activated carbon supporting transition (鄭翰聰, 2005)

    72.  Study on the effect of chlorine content and additives on incineration pollutants  (余武融, 2005)

    73.  Study on the sintering of fly ash from municipal waste incineration f (蔡宗勳, 2005)

    74.  Study on hydrogen chloride and chlorine-containing organic pollutants in the incineration process  (巫慧瑜, 2004)

    75.  Study on the kinetics of CO and NO removal in incineration flue gas(梁煜申, 2003

    76.  A Study on Filtration of Particulate Matter in Flue Gas by Fluidized Bed (陳科豪)/中華民國926

    77.  Study on Simultaneous Treatment of Organic Pollutants, CO and NOx in Waste Incineration with Three-Way Catalyst (葉家伶, 2002

    78.  Carbon-Support Catalyst/Sorbents Utilized in SO2 Adsorption in Flue Gas from Combustion (傅政豪, 2002

    79.  The study of heat transfer characteristics in bubbling fluidized bed incinerator (游世達, 2002

    80.  Catalytic oxidation of the organic pollutants present in the incineration flue gas by the fluidized palladium catallyst (黃新中, 2001

    81.  Study on the application of adsorbent/catalyst in dry scrubbing method to treat SO2 in incineration waste gas(盧啟元, 2001

    82.  Study on the application of surfactant additives in the treatment of acid gas with dry scrubbers in series with filter dust collectors(曾惠馨, 2000

    83.  Catalytic Oxidation of Organic Compounds from Incineration flue gas over Palladium Catalyst(楊文毅,2000

    84.  The Effects of the Operating Conditions of Spray Dryer System on the Removal Efficiency of Incineration Pollutants(吳欣益, 1999

    85.  The study of incineration pollutants in flue gas (歐文毓, 1999

    86.  The capture characteristics of organics heavy metals by the activated carbon adsorption bed during incineration (周孫有, 1998

    87.  The Effect of Different Additives on the performance of Semi- dryer during Incineration Process (彭成義, 1998

    88.  The Treatment of Hazardous Sorbent Generated from the Adsorption of Heavy Metals During Incineration(顏名宏, 1998

    89.  The effect of incineration operating conditions on the formation of heavy metal compounds(蘇政隆, 1997

    90.  The study of the adsorption of organics and heavy metals in flue gas during incineration processes(余利智, 1997

    91.  Determination of the Major Species of Heavy Metal in Water Cooling System and Spray Dryer System(楊家澤, 1997

    92.  Effects of heavy metals on PAH formation during incineration(趙嘉雍, 1996

    93.  Effects of pressure fluctuations on combustion efficiency and PAH during incineration(許見利, 1996

    94.  Study on the behavior of heavy metals chromium, lead and cadmium during incineration(黃建沆, 1995

    95.  The effect of organic and inorganic chloride on the formation of CO, HCI and organic compounds during incineration process (方天志, 1995)

    96.  The effect of secondary reactions on the product yields of the autothermal pyrolysis of mixed waste(黃獻欽, 1995

    97.  Autothermal pyrolysis of waste rubber(劉邦宏, 1994

    98.  Operating parameters of autothermal pyrolysis of plastic waste in a fluidized bed(駱呈欣, 1994

    99.  Kinetic Study of Polymeric Materials inncineration(張宗良, 1993

    100.Applying isotope technology for investigating migration of heavy metal in rock(吳俊宇, 1993

     

     

     
 

Main Instrument and devices in Energy and Materials recovery Lab.

 
Fourier Transform Infrared Spectroscopy (FTIR) 1
 Thermogravimetric Analyzer (TGA) / Differential Scanning Calorimetry (DSC) 1
Brunauer–Emmett–Teller (BET) 1
 Portable Gas Analyzer (PG-250) 4
Luminescence Spectrometer 1
Ultraviolet-Visible Spectrophotometry(UV/Vis) 1
Stirred Reactor System and Glass Vessel 1
Gas Pycnometer 1
Temperature Programmed Reduction System (TPR) 2
Gas Chromatography- Flame Ionization Detector(GC/FID) 2
Gas Chromatography -Thermal Conductivity Detector(GC/TCD) 1
Pilot Fluidized Bed Incinerator(including Air pollution control devices) 1
Pilot Fluidized Bed particulate filtering system(including Air pollution control devices) 1
Pilot Fluidized Bed catalyst Reactor (including Air pollution control devices) 1
Pilot Rotatory Reactor (including Air pollution control devices) 1
Fuel Cell Test facility 1
Photocatalyst Reactor 1
Catalyst fabrication facility 1
Membrane fabrication facility  
 
Available Instruments in Chung-Hsing University
中文 English
Abbreviation Full Name
低溫生物原子力顯微鏡 AFM Atomic Force Microscope)
元素分析儀 EA Elemental Analyzer
化學分析電子能譜儀 ESCA Electron Spectroscope for Chemical Analysis
場發射掃描式電子顯微鏡(農資院及工學院) FE-SEM Field Emission Scanning Electron Microscope
高解析度穿透式電子顯微鏡 HRTEM High-Resolution Transmission Electron Microscope
超導磁場核磁共振儀 NMR Nuclear Magnetic Resonance
穿透式電子顯微鏡 TEM Transmission Electron Microscope
高解析X光繞射儀 XRD X-ray Diffractometer
氣相層析質譜分析儀 GC-MS Gas Chromatography-Mass Spectrophotometer(GC-MS)
 
 

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