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  • 著作

  1. Hsin-Wei Hsu, Emmanuel Binyet, Wei-Cheng Wang*, Penjit Srinophakun*, Rei-Yu Chein*, Rex Demafelis, Nutchapon Chiarasumran, Herman Saputro, Akhmad Faruq Alhikami, Netipon Sakulshah, Rusdan Aditya Aji Nugroho, “Toward Sustainability of Waste-to-Energy: An Overview: An Overview,” Energy Conversion and Management (2024) revision and resubmit

  2. Warit Abi Nurazaq, Wei-Cheng Wang*, Jhe-Kai Lin, “The Properties of Sustainable Aviation Fuel II: Laminar Flame Speed,” Energy 294 (2024) 130946.

  3. Viet Dung Duong*, Van Luc Nguyen, Van Tien Nguyen*, Pramudita Palar, Lavi Zuhal, Trung Ngo, Cong-Truong Dinh, Wei-Cheng Wang, “A Numerical Study on Dynamic Flows past Three Tandem Inclined Elliptic Cylinders Near Moving Wall,” Physics of Fluids 36 (2024) 023615.

  4. Viet Dung Duong*, Van Luc Nguyen, Van Tien Nguyen*, Pramudita Palar, Lavi Zuhal, Anh Le, Jhe-Kai Lin, Wei-Cheng Wang, “Near-Moving-Wall Flows past Three Tandem Elliptical Cylinders at Low Reynolds Number of 150,” Physics of Fluids 36 (2024) 013612.

  5. Herman Saputro*, Laila Fitriana, Aris Purwanto, Alan Firdaus, Riyadi Muslim, Fudhail Munir, Wei-Cheng Wang, “Modeling and experimental study condenser performance of fixed bed pyrolysis reactor: A case study of solid waste palm starch processing,” Cleaner Engineering and Technology 16 (2023) 100677.

  6. Jhe-Kai Lin, Warit Abi Nurazaq, Wei-Cheng Wang*, “The properties of sustainable aviation fuel I: Spray characteristics,” Energy 283 (2023) 129125.

  7. Rusdan Aditya Aji Nugroho, Wei-Cheng Wang*, Xinwei Cheng, Sivanjaneya Reddy Yelugoti, Hiew Mun Poon*, Jhe-Kai Lin, Cho-Yu Lee*, “The Combustion Examination of Waste Styrene-Butadiene Rubber (SBR) Oil Derived from Thermal Pyrolysis Process: Experiment and Numerical Simulation,” Fuel 353 (2023) 129200.

  8. Rusdan Aditya Aji Nugroho, Akhmad Faruq Alhikami, Wei-Cheng Wang*, “Vacuum pyrolysis of polypropylene plastic using an internal heating method: a process optimization study for fuel compositions,” Energy 277 (2023) 127707.

  9. Herman Saputro*, Laila Fitriana, Aris Purwanto, Fudhail Munir, Wei-Cheng Wang, “Double Chamber Meso Scale Vortex Combustor for Micro Scale Electric Generator Based on Thermo Electric Generator,” Energy Reports 9 (2023) 5015-5030.

  10.  Cho-Yu Lee, Jhe-Kai Lin, Wei-Cheng Wang*, Rong-Hong Chen, Kun-Mo Lin, Herman Saputro, Huynh Thanh Cong, Thong Duc Hong, Manida Tongroon, “The production of the hydro-processed renewable diesel (HRD) and its performances from a turbo-charged diesel engine” Energy 270 (2023) 126924.

  11. Wei-Cheng Wang, Jhe-Kai Lin, Bo-Han Huang, Xinwei Cheng*, Hiew Mun Poon*, Cho-Yu Lee*, “The study of Ignition and Emission Characteristics of Hydrogen-additive Hydro-Processed Renewable Diesel,” International Journal of Hydrogen Energy 48 (2023) 14418-14432.

  12. Yelugoti Sivanjaneya Reddy, Wei-Cheng Wang*, “The combustion performance of sustainable aviation fuel with hydrogen addition,” International Journal of Hydrogen Energy 48 (2023) 6130-6145.

  13. Herman Saputro*, Laila Fitriana, Aris Purwanto, Fudhail Munir, Wei-Cheng Wang, “A Development of Meso Scale Vortex Combustion for Micropower Generator Based on Thermoelectric Generator,” Fluids 7 (2022) 386.

  14. Yelugoti Sivanjaneya Reddy, Wei-Cheng Wang*, “The effect of ozone addition on the combustion characteristics of hydrogen-jet fuel,” Combustion and Flame 245 (2022) 112337.

  15. Hsin-Wei Hsu, Emmanuel Binyet, Yu-Hsuan Chang, Wei-Cheng Wang*, “Energy, Economic and Environmental (3E) Analysis for the Renewable Jet Fuel Production Process,” Sustainable Production and Consumption 33 (2022) 146-157.

  16. Wei-Cheng Wang*, Chia-En Yao, Akhmad Faruq Alhikami, “The Study of Ignition Delays at Low-to-intermediate Temperatures for Jet Fuels in a Rapid Compression Machine,” Fuel 324, Part C (2022) 124733.

  17. Akhmad Faruq Alhikami, Wei-Cheng Wang*, Rusdan Aditya Aji Nugroho, Hsiang-Chun Hsieh, “Experimental studies of soot formation for petro- and renewable diesels,” International Journal of Energy Research 46 (2022) 19109-19122.

  18. Ming-Chuan Chiu, Chih-Yuan Wen, Hsin-Wei Hsu*, Wei-Cheng Wang, “Key factors selection and prediction improvement for biogas production through hybrid machine learning methods,” Sustainable Energy Technologies and Assessments 52, Part C (2022) 102223.

  19. Cheng-Pao Lee, Wei-Cheng Wang*, “The Production of Hydro-processed Renewable Diesel with a Catalyst Regenerated Using Supercritical Carbon Dioxide (SCCO2),” Energy 246 (2022) 123402.

  20. Cho-Yu Lee, Xinwei Cheng*, Hiew Mun Poon*, Yelugoti Sivanjaneya Reddy, Wei-Cheng Wang*, “The spray ignition characteristics of ethanol blended with hydro-processed renewable diesel in a constant volume combustion chamber,” Fuel 314 (2022) 123089.

  21. Wei-Cheng Wang*, Yu-Cheng Liu, Rusdan Aditya Aji Nugroho, “Techno-Economic Analysis of Renewable Jet Fuel Production: the comparison between Fischer-Tropsch Synthesis and Pyrolysis,” Energy 239, Part A, (2022) 121970.

  22.  Elbert Halim, Cheng-Pao Lee, Wei-Cheng Wang*, Jhe-Kai Lin, Yu-Chuan Lin, “Production of Hydro-processed Renewable Jet Fuel over SAPO-11-based Catalyst,” International Journal of Energy Research (2021) 1-18.

  23. Hao Lee, Anurag Dahiya, Kuang C. Lin, Wei-Cheng Wang*, “Numerical Simulation of Ignition Delay Time for Petroleum and Renewable Fuels,” Fuel 304 (2021) 121345.

  24. Jhe-Kai Lin, Cheng-Pao Lee, Hong-Ping Lin, Elbert Halim, Wei-Cheng Wang*, “The Production of Hydro-processed Renewable Diesel (HRD) over the Non-sulfide Catalyst,” International Journal of Energy Research (2021) 1-19.

  25. Hsiang-Chun Hsieh, Xiang-Xin Chen, Akhmad Faruq Alhikami, Wei-Cheng Wang*, “A study of the sooting behavior of hydro-processed renewable jet and petroleum jet fuels in a laminar counter-flow flame,” Fuel 291 (2021) 120212.

  26. Hsin-Wei Hsu, Yu-Hsuan Chang, Wei-Cheng Wang*, “Techno-Economic Analysis of Used Cooking Oil to Jet Fuel Production under Uncertainty through Three-, Two-, and One-Step Conversion Processes,” Journal of Cleaner Production 289 (2021) 125778.

  27. Akhmad Faruq Alhikami, Wei-Cheng Wang*, “Experimental Study of Spray Ignition Characteristics for Hydro-processed Renewable Jet and Petroleum Jet fuels in a Constant Volume Combustion Chamber,” Fuel 283 (2021) 119286.

  28. Akhmad Faruq Alhikami, Chia-En Yao, Wei-Cheng Wang*, “The study of spray ignition characteristics of hydro-processed renewable diesel, petroleum diesel and biodiesel through constant volume combustion chamber,” Combustion and Flame 223 (2021) 55-64.

  29. Sia Sheng Qiang, Wei-Cheng Wang*, “Experimental and Techno-economic Studies of Upgrading Heavy Pyrolytic Oils from Wood Chips into Valuable Fuels,” Journal of Cleaner Production 277 (2020) 124136.

  30. Yu-Hsuan Chang, Hsin-Wei Hsu, Wei-Cheng Wang*, “Exergy Analysis of Renewable Jet Fuel Production through Hydro-conversion of Glyceride-based Oil,” Applied Thermal Engineering 182 (2021) 115934.

  31. Cheng-Han Lin, Wei-Cheng Wang*, “Direct Conversion of Glyceride-based Oil into Renewable Jet Fuels,” Renewable & Sustainable Energy Reviews 132 (2020) 110109.

  32. Rong-Hong Chen, Hwai Chyuan Ong, Wei-Cheng Wang*,”The optimal blendings of diesel, biodiesel and gasoline with various EGRs for reducing NOx and smoke emissions from diesel engine,” International Journal of Environmental Science and Technology 17 (2020) 4623-4654.

  33. Yu-Kai Chen, Chung-Hung Hsieh, Wei-Cheng Wang*, “The Production of Renewable Aviation Fuel from Waste Cooking Oil. Part II: Catalytic Hydro-cracking/isomerization of Hydro-processed Alkanes into Jet Fuel Range Products,” Renewable Energy 157 (2020) 731-740.

  34. Sz-Jia Tzeng, Xiang-Xin Chen, Wei-Cheng Wang*, “Numerical Studies of metal particle behaviors inside the Selective Laser Melting (SLM) Chamber through Computational Fluid Dynamics (CFD),” The International Journal of Advanced Manufacturing Technology 107 (2020) 4677-4686.

  35. Yu-Kai Chen, Cheng-Han Lin, Wei-Cheng Wang*, “The Conversion of Biomass into Renewable Jet Fuel,” Energy 201 (2020) 117655.

  36.  Sheng Qiang Sia, Wei-Cheng Wang*, “Numerical Simulations of Fluidized Bed Fast Pyrolysis of Biomass through Computational Fluid Dynamics,” Renewable Energy 155 (2020) 248-256.

  37. Xiang-Xin Chen, Wei-Cheng Wang*, “The Applications of Particle Image Velocimetry (PIV) to Experimentally Observe the Flow Behaviors inside the Selective Laser Melting (SLM) Working Chamber,” Flow Measurement and Instrumentation 73 (2020) 101738.

  38. Hsing-San Jan, Wei-Cheng Wang*, “Waste-water purification through a countercurrent system driven by supercritical carbon dioxide (SC-CO2). Part I: Experimental investigation and process evaluation,” Separation and Purification Technology 242 (2020) 116781.

  39. Hao-Jan Liu, Rong-Hong, Chen, Wei-Cheng Wang*, “The non-regulated emissions from a turbo-charged diesel engine under steady- state operation with hydro-processed renewable diesel (HRD),” Fuel 263 (2020) 116762.

  40. Xiang-Xin Chen, Sz-Jia Tzeng, Wei-Cheng Wang*, “Numerical and Experimental Observations of the Flow Field inside the Selective Laser Melting (SLM) Chamber through Computational Fluid Dynamics (CFD) and Particle Image Velocimetry (PIV),” Powder Technology 362 (2020) 450-461.

  41. Wei-Cheng Wang*, Chung-Hung Hsieh, “Hydro-processing of Biomass-derived Oil into Straight-chain Alkanes,” Chemical Engineering Research and Design 153 (2020) 63-74.

  42. Cheng-Han Lin, Yu-Kai Chen, Wei-Cheng Wang*, “The Production of Bio-jet Fuel from Palm Oil Derived Alkanes,” Fuel 260 (2020) 116345.

  43. Yu-Cheng Liu, Wei-Cheng Wang*, “Process design and evaluations for producing pyrolytic jet fuel,” Biofuels, Bioproducts & Biorefining 14 (2020) 249-264

  44. Wei-Cheng Wang*, “Techno-Economic Analysis for Evaluating the Potential Feedstocks for Producing Hydro-processed Renewable Jet Fuel in Taiwan,” Energy 179 (2019) 771-783.

  45. Pimpun Tongpun, Wei-Cheng Wang*, Penjit Srinophakun, “Techno-Economic Analysis of Renewable Aviation Fuel Production: From Farming to Refinery Processes,” Journal of Cleaner Production 226 (2019) 6-17.

  46. Ren-Sin Chen, Wei-Cheng Wang*, “The Production of Renewable Aviation Fuel from Waste Cooking Oil. Part I: Bio-Alkane Conversion through Hydro-Processing of Oil,” Renewable Energy 135 (2019) 819-835.

  47. Wei-Cheng Wang*, An-Cheng Lee, “The Study of Producing "Drop-in" Fuels from Agricultural Waste through Fast Pyrolysis and Catalytic Hydro-processing,” Renewable Energy 133 (2019) 1-10.

  48. Wei-Cheng Wang*, Jheng-Jie Wang, Wen Tong Chong, “The Effects of Unsteady Wind on the Performances of a Newly Developed Cross-Axis Wind Turbine: a Wind Tunnel Study,” Renewable Energy 131 (2019) 644-659.

  49. Keng-Hao Hsu, Wei-Cheng Wang*, Yu-Cheng Liu, “Experimental studies and Techno-Economic analysis of Hydro-processed Renewable Diesel production in Taiwan,” Energy 164 (2018) 99-111.

  50. Wei-Cheng Wang*, An-Cheng Lee, “Thermo-chemical Processing of Miscanthus through the Fluidized Bed Fast Pyrolysis: a Parametric Study,” Chemical Engineering & Technology 41 (2018) 1737-1745.

  51. Wei-Cheng Wang*, Jyun-Jhih Jan, “From Laboratory to Pilot: Design Concept and Techno-economic Analyses of the Fluidized Bed Fast Pyrolysis of Biomass,” Energy 155 (2018) 139-151.

  52. Kok Hoe Wong, Wen Tong Chong*, Nazatul Liana Sukiman, Yui-Chuin Shiah, Sin Chew Poh, Kamaruzaman Sopian, Wei-Cheng Wang, “Experimental and Simulation Investigation into the Effects of a Flat Plate Deflector on Vertical Axis Wind Turbine, “ Energy Conversion and Management 160 (2018) 109-125.

  53. Wei-Cheng Wang*, Wen Tong Chong, Tien-Hsin Chao, “Performance Analysis of a Cross-axis Wind Turbine from Wind Tunnel Experiments,” Journal of Wind Engineering & Industrial Aerodynamics 174 (2018) 312-329.

  54. Wei-Lin Wu, Wei-Cheng Wang*, Wei-Lo, “The Computational Analysis for Improving the Strip Flatness in Run-Out-Table during Laminar Cooling,” International Journal of Advanced Manufacturing Technology 95 (2018) 4419-4437.

  55. Ling Tao*, Anelia Milbrandt, Yanan Zhang, Wei-Cheng Wang, “Techno-economic and resource analysis of hydroprocessed renewable jet fuel,” Biotechnology for Biofuels, 10:261 (2017) doi.org/10.1186/s13068-017-0945-3.

  56. Wei-Cheng Wang*, Chia-Yao Chang, “Flow Analysis of the Laminated Manufacturing System with Laser Sintering of Metal Powder. Part I: Flow Uniformity inside the Working Chamber,” International Journal of Advanced Manufacturing Technology 92 (2017) 1299-1314.

  57. Sumit Mahajan, Wei-Cheng Wang*, Heng Yi Teah, “Life Cycle Assessment for Palm Derived Biodiesel in Taiwan,” Clean Technologies and Environmental Policy 19 (2017) 959-969.

  58. Wei-Cheng Wang*, Heng Yi Teah, “Life Cycle Assessment of Small-Scale Horizontal Axis Wind Turbines (HAWT) in Taiwan,” Journal of Cleaner Production 141 (2017) 492-501.

  59. Chi-Jeng Bai, Wei-Cheng Wang*, Po-Wei Chen, “Experimental and Numerical Studies on the performance and surface streamlines on the blades of a Horizontal-Axis Wind Turbine,” Clean Technologies and Environmental Policy 19 (2017) 471-481.

  60. Rong-Horng Chen, Wei-Cheng Wang*, You-Wei Chen, “Like-drop collisions of biodiesel and emulsion diesel,” European Journal of Mechanics - B/Fluids 60 (2016) 62-69.

  61. San-Yih Lin, Yang-You Lin, Chi-Jeng Bai, Wei-Cheng Wang*, “Performance Analysis of Vertical-Axis-Wind-Turbine Blade with Modified Trailing Edge through Computational Fluid Dynamics,” Renewable Energy 99 (2016) 654-662.

  62. Po-Wei Chen, Chi-Jeng Bai, Wei-Cheng Wang*, “Experimental and Numerical Studies of Low Aspect Ratio Wing at Critical Reynolds Number,” European Journal of Mechanics - B/Fluids 59 (2016) 161-168.

  63. Chi-Jeng Bai, Wei-Cheng Wang*, “Review of computational and experimental approaches to analysis of aerodynamic performance in horizontal-axis wind turbines (HAWTs),” Renewable and Sustainable Energy Reviews 63 (2016) 506-519.

  64. Chi-Jeng Bai, Wei-Cheng Wang*, Po-Wei Chen, “The Effects of Sinusoidal Leading Edge of the turbine blade on the power coefficient of Horizontal-Axis Wind Turbine (HAWT),“ International Journal of Green Energy 13 (2016) 1193-1200.

  65. Wei-Cheng Wang*, “Techno-Economic Analysis of a Bio-refinery Process for Producing Hydro-processed Renewable Jet Fuel from Jatropha,” Renewable Energy, 95 (2016) 63-73.

  66. Chi-Jeng Bai, Po-Wei Chen, Wei-Cheng Wang*, “Aerodynamic design and analysis of a 10 kW horizontal-axis wind turbine for Tainan, Taiwan,” Clean Technologies and Environmental Policy, 18 (2016) 1151-1166.

  67. Wei-Cheng Wang*, Chi-Jeng Bai, Chi-Tung Lin, Samay Prakash, “Alternative fuel produced from thermal pyrolysis of waste tires and its use in a DI diesel engine,” Applied Thermal Engineering, 93 (2016) 330-338.    (Highlighted as a Key Scientific Article on the Renewable Energy Global Innovations Series)

  68. Wei-Cheng Wang*, Ling Tao, “Bio-Jet Fuel Conversion Technologies,” Renewable and Sustainable Energy Reviews, 53 (2016) 801-822.

  69. Chi-Jeng Bai, Yang-You Lin, San-Yih Lin, Wei-Cheng Wang*, “CFD Analysis of the Vertical Axis Wind Turbine Blade with Tubercle Leading Edge,” Journal of Renewable and Sustainable Energy, 7 (2015) 033124-1-14.

  70. Wei-Cheng Wang*, Chi-Jeng Bai, Nirajan Thapaliya,” The production of renewable transportation fuel through fed-batch and continuous deoxygenation of biomass derived fatty acids over Pd/C catalyst”, International Journal of Energy Research, 39 (2015) 1083-1093.

  71. Robert H. Natelson*, Wei-Cheng Wang, William L. Roberts, Kelly D. Zering,” Technoeconomic analysis of jet fuel production from hydrolysis, decarboxylation, and reforming of camelina oil,” Biomass and Bioenergy, 75 (2015) 23–34.

  72. Chi-Jeng Bai, Wei-Cheng Wang*, Po-Wei Chen, Wen Tong Chong, “System Integration of the Horizontal-Axis Wind Turbine: The Design of Turbine Blades with an Axial-Flux Permanent Magnet Generator” Energies, 7 (2014) 7773-7793.

  73. Wei-Cheng Wang, Elle Allen, Andrew A. Campos, Rushyannah Killens Cade, Lisa Dean, Jeremy G. Immer, Stephanie Mixson, Soundarya Srirangan, Marie-Laure Sauer, Steven Schreck, Keyi Sun, Nirajan Thapaliya, Cameron Wilson, JoAnn Burkholder, Amy M. Grunden, Henry H. Lamb, Heike Sederoff, Larry F. Stikeleather, William L. Roberts*, “ASI: Dunaliella Marine Microalgae to Drop-In Replacement Liquid Transportation Fuel,” Environmental Progress and Sustainable Energy, 32 (2013) 916-925.

  74. Wei-Cheng Wang, Robert H. Natelson*, Larry F. Stikeleather, William L. Roberts, “Product sampling during transient continuous countercurrent hydrolysis of canola oil and development of a kinetic model,” Computers and Chemical Engineering, 58 (2013) 144-155.

  75. Pin-Chia Chen, Wei-Cheng Wang, William L. Roberts, Tiegang Fang*, “Spray and atomization of diesel fuel and its alternatives from a single-hole injector using a common rail fuel injection system”, Fuel, 103 (2013) 850-861.

  76. Wei-Cheng Wang*, William L. Roberts, Larry F. Stikeleather, “Hydrocarbon Fuels from Gas Phase Decarboxylation of Hydrolyzed Free Fatty Acid,” Journal of Energy Resource Technology, 134 (2012) 0322031-0322037.

  77. Wei-Cheng Wang, Timothy L. Turner, William L. Roberts, Larry F. Stikeleather*, “Direct Injection of Superheated Steam for Continuous Hydrolysis Reactions,” Chemical Engineering and Processing: Process Intensification, 59 (2012) 52-59.

  78. Wei-Cheng Wang, Timothy L. Turner, Larry F. Stikeleather*, William L. Roberts, “Exploration of Process Parameters for Continuous Hydrolysis of Canola Oil, Camelina Oil and Algal Oil,” Chemical Engineering and Processing: Process Intensification, 57-58 (2012) 51-58.

  79. Wei-Cheng Wang, Robert H. Natelson*, Larry F. Stikeleather, William L. Roberts,” CFD Simulation of Transient Stage of Continuous Countercurrent Hydrolysis of Canola Oil,” Computers & Chemical Engineering, 43 (2012) 108-119.

  80. Wei-Cheng Wang*, “Laboratory Investigation of Drying Rates of Illinois Coals,” Powder Technology, 225 (2012) 72-85.

  81. Wei-Cheng Wang, Wen-Her Lin*, Chun-Pao Kuo, Jenn-Yan Wu, “The relation between dioxin concentration from exhaust gas of diesel engine and chlorine content,” Journal of Analytical and Applied Pyrolysis, 94 (2012) 10-16.

  82. Wei-Cheng Wang*, N. Thapaliya, L.F. Stikeleather, W.L. Roberts,” Hydrocarbon Fuels from Vegetable Oils via Hydrolysis and Thermo-catalytic Decarboxylation,” FUEL, 95 (2012) 622-629.

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