Publications

Hydrogen Production

1. 1. Chen WH*, Jheng JG. 2007. Characterization of water gas shift reaction in association with carbon sequestration. Journal of Power Sources, Vol.172, pp.368-375, October (SCI).

   2. Chen WH*, Jheng JG, Yu AB. 2008. Hydrogen generation from a catalytic water gas shift reaction under microwave irradiation. International Journal of Hydrogen Energy, Vol.33, pp.4789-4797, September. (SCI)

   3. Chen WH*, Hsieh TC, Jiang TL. 2008. An experimental study on carbon monoxide conversion and hydrogen generation from water gas shift reaction. Energy Conversion and Management, Vol.49, pp.2801-2808, October. (SCI)

   4. Chen WH, Lin MR, Jiang TL*, Chen MH. 2008. Modeling and simulation of high-temperature and low-temperature water gas shift reactions. International Journal of Hydrogen Energy, Vol.33, pp.6644-6656, November. (SCI)

   5. Chen WH, Lin MR, Jiang TL, Chen MH. 2008. Modeling and simulation of hydrogen generation from high-temperature and low-temperature water gas shift reactions. International Journal of Hydrogen Energy, Vol.33, pp.6644-6656, November. (SCI, IF=4.939)

   6. Chen WH*, Chiu TW, Hung CI, Lin MR. 2009. Hysteresis and reaction characterization of methane catalytic partial oxidation on rhodium catalyst. Journal of Power Sources, Vol.194, pp.467-477, October. (SCI)

   7. Chen WH*, Lin BJ. 2010. Effect of microwave double absorption on hydrogen generation from methanol steam reforming. International Journal of Hydrogen Energy, Vol.35, pp.1987-1997, March. (SCI)

   8. Chen WH*, Chiu TW, Hung CI. 2010. Hysteresis loops of methane catalytic partial oxidation under the effects of varied Reynolds number and Damköhler number. International Journal of Hydrogen Energy, Vol.35, pp.6291-6302, June. (SCI)

   9. Chen WH*, Chiu TW, Hung CI. 2010. Enhancement effect of heat recovery on hydrogen production from catalytic partial oxidation of methane. International Journal of Hydrogen Energy, Vol.35, pp.7427-7440, July. (SCI)

   10. Chen WH*, Syu YJ. 2010. Hydrogen production from water gas shift reaction in a high gravity (Higee) environment using a rotating packed bed. International Journal of Hydrogen Energy, Vol.35, pp.10179-10189, October. (SCI)

   11. Chen WH*, Lin MR, Lu JJ, Chao Y, Leu TS. 2010. Thermodynamic analysis of hydrogen production from methane via autothermal reforming and partial oxidation followed by water gas shift reaction. International Journal of Hydrogen Energy, Vol.35, pp.11787-11797, November.

   12. Chen WH*, Cheng WY. 2010. Investigation of methane decomposition for hydrogen production using activated carbon. Combustion Quarterly, Vol.19, pp.29-37, November.

   13. Chen WH*, Chiu TW, Hung CI. 2010. Hydrogen production from methane under the interaction of catalytic partial oxidation, water gas shift reaction and heat recovery. International Journal of Hydrogen Energy, Vol.35, pp.12808-12820, December. (SCI)

   14. Chen WH*, Cheng TC, Hung CI. 2011. Modeling and simulation of microwave double absorption on methanol steam reforming for hydrogen production. International Journal of Hydrogen Energy, Vol.36, pp.333-344, January. (SCI)

   15. Chen WH*, Syu YJ. 2011. Thermal behavior and hydrogen production of methanol autothermal reforming with spiral preheating. International Journal of Hydrogen Energy, Vol.36, pp.3397-3408, March. (SCI)

   16. Chen WH*, Cheng TC, Hung CI. 2011. Numerical predictions on thermal characteristic and performance of methanol steam reforming with microwave-assisted heating. International Journal of Hydrogen Energy, Vol.36, pp.8279-8291, July. (SCI)

   17. Chen WH*, Lin MR, Leu TS, Du SW. 2011. An evaluation of hydrogen production from the perspective of using blast furnace gas and coke oven gas as feedstocks. International Journal of Hydrogen Energy, Vol.36, pp.11727-11737, September. (SCI)

   18. Chen WH*, Cheng YC, Hung CI. 2012. Transient reaction and exergy analysis of catalytic partial oxidation of methane in a Swiss-roll reactor for hydrogen production. International Journal of Hydrogen Energy, Vol.37, pp.6608-6619, April. (SCI)

   19. Chen WH*, Cheng YC, Hung CI. 2012. Entropy generation from hydrogen production of catalytic partial oxidation of methane with excess enthalpy recovery. International Journal of Hydrogen Energy, Vol.37, pp.14167-14177, October. (SCI)

   20. Chen WH*, Cheng TC, Hung CI, Lin BJ. 2012. Chemical reactions and kinetics of a low-temperature water gas shift reaction heated by microwaves. International Journal of Hydrogen Energy, Vol.37, pp.276-289, January. (SCI)

   21. Chen WH*, Lin BJ. 2013. Hydrogen and synthesis gas production from activated carbon and steam via reusing carbon dioxide. Applied Energy. Vol.101, pp.551-559, January. (SCI)

   22. Chen WH*, Lin BJ. 2013. Hydrogen production and thermal behavior of methanol autothermal reforming and steam reforming triggered by microwave heating. International Journal of Hydrogen Energy. Vol. 38, pp. 9973-9983, August. (SCI)

   23. Chen WH*, Cheng YC, Hung CI. 2013. Enhancement of heat recirculation on the hysteresis effect of catalytic partial oxidation of methane. International Journal of Hydrogen Energy. Vol. 38, pp. 10394-10406, August. (SCI)

   24. Chen WH*, Liou HJ , Hung CI. 2013. Kinetics development and numerical simulation of methane thermocatalytic decomposition at the early stage and steady state. International Journal of Hydrogen Energy, Vol.38, pp.5270-5284, October. (SCI)

   25. Chen WH*, Hsia MH, Lin YL, Chi YH, Yang CC. 2013. Hydrogen permeation and recovery from H₂-N₂ gas mixtures by Pd membranes with high permeance. International Journal of Hydrogen Energy. Vol.38, pp.14730-14742, November. (SCI)

   26. Chen WH*. 2014. CO₂ conversion for syngas production in methane catalytic partial oxidation. Journal of CO₂ Utilization. Vol.5, pp.1-9, March.

   27. Chen WH*, Lin SC. 2015. Reaction phenomena of catalytic partial oxidation of methane under the impact of carbon dioxide addition and heat recirculation. Energy. Vol. 82, pp. 206-217, March. (SCI, IF=4.844)

   28. Chen WH*, Shen CT, Lin BJ, Liu SC. 2015. Hydrogen production from methanol partial oxidation over Pt/Al₂O₃ catalyst with low Pt content. Energy. Vol. 88, pp.399-407, August. (SCI, IF=4.844)

   29. Chen WH*, Lin SC. 2016. Characterization of catalytic partial oxidation of methane with carbon dioxide utilization and excess enthalpy recovery. Applied Energy. Vol.162, pp.1141-1152, January. (SCI, IF=5.613)

   30. Chen CC, Tseng HH, Lin YL, Chen WH*. 2017. Hydrogen production and carbon dioxide enrichment from ethanol steam reforming followed by water gas shift reaction. Journal of Cleaner Production. Vol. 162, pp.1430-1441, September. (SCI, IF=7.246)

   31. Chen WH*, Lin SC. 2018. Biogas partial oxidation in a heat recirculation reactor for syngas production and CO₂ utilization. Applied Energy. Vol.217, pp.113-125, May. (SCI)

   32. Chen WH*, Guo YZ. 2018. Hydrogen production performance of methanol partial oxidation under sprays with ultra-low Pt and Pd contents in catalysts. Fuel. Vol. 222, pp.599-609, June. (SCI)

   33. Chein RY, Chen WH*. 2018. Hydrogen production from coal-derived syngas undergoing high-temperature water gas shift reaction in a membrane reactor. International Journal of Energy Research. Vol. 42, pp.2940-2952, July. (SCI)

   34. Chen WH*, Guo YZ, Chen CC. 2018. Methanol partial oxidation accompanied by heat recirculation in a Swiss-roll reactor. Applied Energy. Vol. 232, pp.79-88, December. (SCI)

   35. Sikander U, Samsudin MF, Sufian S, KuShaari K, Kait CF, Naqvi SR*, Chen WH. 2019. Tailored hydrotalcite-based Mg-Ni-Al catalyst for hydrogen production via methane decomposition: Effect of nickel concentration and spinel-like structures. International Journal of Hydrogen Energy. Vol. 44, pp.14424-14433, May. (SCI)

   36. Chen WH*, Chen CY. 2020. Water gas shift reaction for hydrogen production and carbon dioxide capture: A review. Applied Energy. Vol. 258, 114078, January. (SCI)

   37. Chen WH*, Chen KH, Lin BJ, Guo YZ.. 2020. Catalyst combination strategy for hydrogen production from methanol partial oxidation with sprays. Energy. Vol.206, 118180, September. (SCI, IF=6.082)

   38. Chih YK, Chen WH*, Tran KQ. 2020. Hydrogen production from methanol partial oxidation through the catalyst prepared using torrefaction liquid products. Fuel. Vol.279, 118419, November. (SCI, IF=5.578)

   39. Chen WH*, Lu CY, Tran KQ, Lin YL, Naqvi SR. 2020. A new design of catalytic tube reactor for hydrogen production from ethanol steam reforming. Fuel. Vol.281, 118746, December. (SCI, IF=5.578)

   40. Lui J, Chen WH, Tsang DCW, You S*. 2020. A critical review on the principles, applications, and challenges of waste-to-hydrogen technologies. Renewable and Sustainable Energy Reviews. Vol.134, 110365, December. (SCI, IF=12.110)

Hydrogen Separation and Purification

1. 41. Chen WH*, Chiu IH. 2009. Transient dynamic of hydrogen permeation through a palladium membrane. International Journal of Hydrogen Energy, Vol.34, pp. 2440-2448, March. (SCI)

   42. Chen WH*, Chiu IH. 2010. Modeling of unsteady hydrogen permeation process across a palladium membrane. Applied Energy, Vol.87, pp.1023-1032, March. (SCI)

   43. Chen WH*, Hsu BJ, Lin BJ. 2010. Hydrogen permeation dynamics across a palladium membrane in a varying pressure environment. International Journal of Hydrogen Energy, Vol.35, pp.5410-5418, June. (SCI)

   44. Chen WH*, Hsu BJ. 2011. Hydrogen permeation measurements of Pd and Pd-Cu alloy membranes using dynamic pressure difference method. International Journal of Hydrogen Energy, Vol. 36, pp.9355-9366, July. (SCI)

   45. Chen WH*, Syu WZ, Hung CI. 2011. Numerical characterization on concentration polarization of hydrogen permeation in a Pd-based membrane tube. International Journal of Hydrogen Energy, Vol.36, pp.14734-14744, November. (SCI)

   46. Chen WH*, Lu JJ. 2012. Hydrogen production from water gas shift reactions in association with separation using a palladium membrane tube. International Journal of Energy Research, Vol.36, pp.346-354, March. (SCI)

   47. Chen WH*, Syu WZ, Hung CI, Lin YL, Yang CC. 2012. A numerical approach of conjugate hydrogen permeation and polarization in a Pd membrane tube. International Journal of Hydrogen Energy. Vol.37, pp.12666-12679, September. (SCI)

   48. Chen WH*, Syu WZ, Hung CI, Lin YL, Yang CC. 2013. Influences of geometry and flow pattern on hydrogen separation in a Pd-based membrane tube. International Journal of Hydrogen Energy. Vol.38, pp.1145-1156, January. (SCI)

   49. Chen WH*, Liou HJ, Hung CI. 2013. A numerical approach of interaction of methane thermocatalytic decomposition and microwave irradiation. International Journal of Hydrogen Energy. Vol.38, pp.13260-13271, October. (SCI)

   50. Chen WH*, Hsia MH, Chi YH, Lin YL, Yang CC. 2014. Polarization phenomena of hydrogen-rich gas in high-permeance Pd and Pd-Cu membranes. Applied Energy. Vol.113, pp.41-50, January. (SCI)

   51. Chen WH*, Lin CH, Lin YL. 2014. Flow-field design for improving hydrogen recovery in a palladium membrane tube. Journal of Membrane Science. Vol.472, pp. 45-54, December. (SCI)

   52. Chen WH*, Lin CH, Lin YL, Tsai CW, Chein RY, Yu CT. 2016. Interfacial permeation phenomena of hydrogen purification and carbon dioxide separation in a non-isothermal palladium membrane tube. Chemical Engineering Journal. Vol. 305, pp.156-168, December. (SCI, IF=10.652)

   53. Chen WH*, Tsai CW, Lin YL. 2017. Numerical studies of the influences of bypass on hydrogen separation in a multichannel Pd membrane system. Renewable Energy. Vol. 104, pp.259-270, April. (SCI, IF=6.274)

   54. Chen WH*, Tsai CW, Lin YL, Yu CT. 2017. Reaction phenomena of high-temperature water gas shift reaction in a membrane reactor. Fuel. Vol. 199, pp.358-371, July. (SCI, IF=5.578)

   55. Chen WH*, Lin CN, Chi YH, Lin YL. 2017. Permeation characteristics of hydrogen through palladium membranes in binary and ternary gas mixtures. International Journal of Energy Research. Vol. 41, pp.1579-1595, September. (SCI, IF=3.741)

   56. Chen WH*, Kuo PC, Chein RY, Lin YL. 2018. Hydrogen recovery and CO₂ enrichment in single and dual Pd membrane tube systems. Fuel. Vol. 219, pp.182-195, May. (SCI)

   57. Chen WH*, Lin SW, Chen CY, Chi YH, Lin YL. 2019. Impact of vacuum operation on hydrogen permeation through a palladium membrane tube. International Journal of Hydrogen Energy. Vol. 44, pp. 14434-14444, May. (SCI, IF=4.939)

   58. Chen WH*, Kuo PC, Lin YL. 2018. Evolutionary computation for maximizing CO₂ and H₂ separation in multiple-tube palladium-membrane systems. Applied Energy. Vol. 235, pp.299-310, February. (SCI)

   59. Chen WH*, Escalante J, Chi YH, Lin YL. 2020. Hydrogen permeation enhancement in a Pd membrane tube system under various vacuum degrees. International Journal of Hydrogen Energy. Vol.45, pp. 7401-7411, March. (SCI)

   60. Chen WH*, Escalante J. 2020. Influence of vacuum degree on hydrogen permeation through a Pd membrane in different H₂/N₂ gas mixtures. Renewable Energy. Vol.155, pp. 1245-1263, August. (SCI)

Bioenergy

1. 61. Chen WH*, Wu JS. 2009. An evaluation on rice husk and pulverized coal blends using a drop tube furnace and a thermogravimetric analyzer for application to a blast furnace. Energy, Vol.34, pp.1458-1466, October. (SCI)

   62. Chen WH*, Tu YJ, Sheen HK. 2010. Impact of dilute acid pretreatment on the structure of bagasse for producing bioethanol. International Journal of Energy Research, Vol.34, pp.265-274, March. (SCI)

   63. Chen WH*, Kuo PC. 2010. A study on torrefaction of various biomass materials and its impact on lignocellulosic structure simulated by a thermogravimetry. Energy, Vol.35, pp.2580-2586, June. (SCI)

   64. Chen WH*, Kuo PC. 2011. Torrefaction and co-torrefaction characterization of hemicellulose, cellulose and lignin as well as torrefaction of some basic constituents in biomass. Energy, Vol.36, pp.803-811, February. (SCI)

   65. Chen WH*, Tu YJ, Sheng HK. 2011. Microwave disruption of lignocellulosic structure of bagasse by means of dilute acid pretreatment for bioethanol production. Applied Energy, Vol.88, pp. 2726-2734, August. (SCI)

   66. Chen WH*, Cheng WY, Lu KM, Huang YP. 2011. An evaluation on improvement of pulverized biomass property for solid fuel through torrefaction. Applied Energy, Vol.88, pp.3636-3644, November. (SCI)

   67. Lee WJ, Liu IC, Mwangi FK, Fukushima Y, Chen WH*, Liao CN, Wang LC. 2011. Assessment of energy performance and air pollutant emissions in a diesel engine generator fueled with water-containing ethanol-biodiesel-diesel blend of fuel. Energy, Vol.36, pp.5591-5599, November. (SCI, IF= 6.082)

   68. Chen WH*, Kuo PC. 2011. Isothermal torrefaction kinetics of hemicellulose, cellulose, lignin and xylan using thermogravimetric analysis. Energy, Vol.36, pp.6451-6450, November. (SCI)

   69. Chen WH*, Hsu HC, Lu KM, Lee WC, Lin DC. 2011. Thermal pretreatment of wood (Lauan) block by torrefaction and its influence on the properties of the biomass. Energy, Vol.36, pp.3012-3021, May. (SCI)

   70. Chen WH, Lee HM. 2012. Pretreatment and gasification technologies of biomass. Chemical Engineering, Vol.59, pp.3-13, February.

   71. Chen WH*, Ye SC, Sheng HK. 2012. Hydrolysis characteristics of sugarcane bagasse pretreated by a dilute acid solution in a microwave irradiation environment. Applied Energy, Vol.93, pp.237-244, May. (SCI)

   72. Chen WH*, Du SW, Tsai CH, Wang ZY. 2012. Torrefied biomasses in a drop tube furnace to evaluate their utility in blast furnaces. Bioresource Technology, Vol.111, pp.433-438, May. (SCI)

   73. Chen WH*, Ye SC, Sheng HK. 2012. Hydrothermal carbonization of sugarcane bagasse via wet torrefaction in association with microwave heating. Bioresource Technology, Vol.118, pp.195-203, August. (SCI)

   74. Lu KM, Lee WJ, Chen WH*, Liu SH, Lin TC. 2012. Torrefaction and low temperature carbonization of oil palm fiber and eucalyptus under nitrogen and air atmospheres. Bioresource Technology. Vol.123, pp.98-105, November. (SCI)

   75. Chen WH*, Lu KM, Tsai CM. 2012. An experimental analysis on property and structure variations of agricultural wastes undergoing torrefaction. Applied Energy. Vol.100, pp.318-325, December. (SCI)

   76. Lu KM, Lee WJ, Chen WH*, Lin TC. 2013. Thermogravimetric analysis and kinetics of co-pyrolysis of torrefied wood and coal blends. Applied Energy. (SCI)

   77. Lu KM, Liu SH, Chen WH*, Lee WJ. 2013. Effect of oxidative atmospheres on the torrefaction of biomass. Mining & Metallurgy. Vol.57, pp.48-59, September.

   78. Chen WH*, Lu KM, Liu SH, Tsai CM, Lee WJ, Lin TC. 2013. Biomass torrefaction characteristics in inert and oxidative atmospheres at various superficial velocities. Bioresource Technology. Vol.146, pp.152-160, October. (SCI)

   79. Lu JJ, Chen WH*. 2014. Product yields and characteristics of corncob waste under various torrefaction atmospheres. Energies. Vol.7, pp.13-27, January. (SCI)

   80. Chen WH*, Lu KM, Lee WJ, Liu SH, Lin TC. 2014. Non-oxidative and oxidative torrefaction characterization and SEM observation of fibrous and ligneous biomass. Applied Energy. Vol.114, pp.104-113, February. (SCI)

   81. Chen WH*, Wu ZY, Chang JS. 2014. Isothermal and non-isothermal torrefaction characteristics and kinetics of microalga Scenedesmus obliquus CNW-N. Bioresource Technology. Vol.155, pp.245-251, March. (SCI)

   82. Du SW, Chen WH*, Lucas JA. 2014. Pretreatment of biomass by torrefaction and carbonization for coal blend used in pulverized coal injection. Bioresource Technology. Vol.161, pp.333-339, June. (SCI)

   83. Chen WH*, Kuo PC, Liu SH, Wu W. 2014. Thermal characterization of oil palm fiber and eucalyptus in torrefaction. Energy. Vol.71, pp.40-48, July. (SCI)

   84. Chen WH*, Huang MY, Chang JS, Chen CY. 2014. Thermal decomposition dynamics and severity of microalgae residues in torrefaction. Bioresource Technology. Vol.169, pp.258-264, October. (SCI)

   85. Chen WH*, Liu SH, Juang TT, Tsai CM, Zhuang YQ. 2015. Characterization of solid and liquid products from bamboo torrefaction. Applied Energy DOI:10.1016/j.apenergy.2015.03.022. (SCI)

   86. Mwangi JK, Lee WJ, Whang LM, Wu TS, Chen WH, Chang JS, Chen CY, Chen CL. 2015. Microalgae oil: algae cultivation and harvest, algae residue torrefaction and diesel engine emission test. Aerosol and Air Quality Research. Vol.15, pp.81-98, February. (SCI, IF=2.094).

   87. Chen WH, Peng JH, Bi XT. 2015. A state-of-the-art review of biomass torrefaction, densification and applications. Renewable and Sustainable Energy Reviews. Vol. 44, pp. 847-866, April. (SCI, IF=5.901)

   88. Chen WH*, Lin BJ, Huang MY, Chang JS. 2015. Thermochemical conversion of microalgal biomass into biofuels: A review. Bioresource Technology. Vol. 184, pp. 314-327, May. (SCI, IF=4.494)

   89. Chen WH*, Huang MY, Chang JS, Chen CY, Lee WJ. 2015. An energy analysis of torrefaction for upgrading microalga residue as a solid fuel. Bioresource Technology. Vol. 185, pp. 285-293, June. (SCI, IF=4.494)

   90. Lin BJ, Chen WH*. 2015. Sugarcane bagasse pyrolysis in a carbon dioxide atmosphere with conventional and microwave-assisted heating. Frontiers in Energy Research. Vol. 3, Article 4, pp. 1-9, February. (SCI, IF=2.746).

   91. Chen WH*, Huang MY, Chang JS, Chen CY. 2015. Torrefaction operation and optimization of microalga residue for energy densification and utilization. Applied Energy. Vol.154, pp.622-630, September. (SCI, IF=5.613)

   92. Lu JJ, Chen WH*. 2015. Investigation on the ignition and burnout temperatures of bamboo and sugarcane bagasse by thermogravimetric analysis. Applied Energy. Vol.160, pp.49-57, December. (SCI, IF=5.613)

   93. Chen WH*, Liu SH, Juang TT, Tsai CM, Zhuang YQ. 2015. Characterization of solid and liquid products from bamboo torrefaction. Applied Energy. Vol.160, pp.829-835, December. (SCI, IF=5.613)

   94. Chen WH*, Zhuang YQ, Liu SH, Juang TT, Tsai CM. 2016. Product characteristics from the torrefaction of oil palm fiber pellets in inert and oxidative atmospheres. Bioresource Technology. Vol.199, pp.367-374, January. (SCI, IF=4.494)

   95. Chen WH*, Lin BJ. 2016. Characteristics of products from the pyrolyses of oil palm fiber and its pellets in nitrogen and carbon dioxide atmospheres. Energy. Vol.94, pp.569-578, January. (SCI, IF=4.844)

   96. Bui HH, KQ Tran, Chen WH. 2016. Pyrolysis of microalgae residues - A kinetic study. Bioresource Technology. Vol.199, pp.362-366, January. (SCI, IF=4.494)

   97. Lin BJ, Chen WH*, Budzianowski WA, Hsieh CT, Lin PH. 2016. Emulsification analysis of bio-oil and diesel under various combinations of emulsifiers. Applied Energy. Vol. 178, pp.746-757, September. (SCI, IF=8.848)

   98. 153. Chen YC, Chen WH*, Lin BJ, Chang JS. Ong HC. 2016. Impact of torrefaction on the composition, structure and reactivity of a microalga residue. Applied Energy. Vol. 181, pp.110-119, November. (SCI, IF=8.848)

   99. Nurfahmi, Ong HC*, Jan BM, Tong CW, Fauzi H, Chen WH. 2016. Effects of organosolv pretreatment and acid hydrolysis on palm empty fruit bunch (PEFB) as bioethanol feedstock. Biomass and Bioenergy. Vol.95, pp.78-83, December. (SCI, IF=3.551)

   100. Chen WH*, Shen CT. 2016. Partial oxidation of methanol over a Pt/Al₂O₃ catalyst enhanced by sprays. Energy. Vol.106, pp.1-12, July. (SCI, IF=6.082)

   101. Tran KQ*, Bui HH, Chen WH, 2016. Distributed activation energy modelling for thermal decomposition of microalgae residues. Chemical Engineering Transactions. Vol. 50, pp.175-180, June

   102. Bach QV, Chen WH*, Chu YS, Lin YSC, Skreiberg Ø. 2016. Predictions of biochar yield and elemental composition during torrefaction of forest residues. Bioresource Technology. Vol. 215, pp.239-246, September. (SCI, IF=7.539)

   103. Bach QV, Chen WH*. 2017. A comprehensive study on pyrolysis kinetics of microalgal biomass. Energy Conversion and Management. Vol. 131, pp.109-116, January. (SCI, IF=8.208)

   104. Kumar G, Shobana S, Chen WH*, Bach QV, Kim SH, Atabani AE, Chang JS. 2017. A review of thermochemical conversion of microalgal biomass for biofuels: Chemistry and processes. Green Chemistry. Vol. 19, pp. 44-67, January. (SCI, IF=9.480)

   105. Hsieh TH, Chuang HY, Chang YC, Kang WC, Huang TW, Wang CW, Chen WH*. 2017. Trial of biomass pyrolysis process stability. Combustion Quarterly, Vol.26, No.1, pp.95-104, February

   106. Chen YC, Chen WH*, Lin BJ, Chang JS. Ong HC. 2017. Fuel property variation of biomass undergoing torrefaciton. Energy Procedia. Vol. 105, pp. 108-112, May. (EI)

   107. Bach QV, Chen WH*, Lin SC, Sheen HK, Chang JS. 2017. Effect of wet torrefaction on thermal decomposition behavior of microalga Chlorella vulgaris ESP-31. Energy Procedia. Vol. 105, pp. 206-211, May. (EI)

   108. Chen TC, Hung HC, Chen CH, Liu HC, Kuo TC, Chen WH*. 2017. Hydrothermal Liquefaction from Biomass. Combustion Quarterly. Vol. 26, pp.24-33, May.

   109. Bach QV, Chen WH*, Lin SC, Sheen HK, Chang JS. 2017. Wet torrefaction of microalga Chlorella vulgaris ESP-31 with microwave-assisted heating. Energy Conversion and Management. Vol. 141, pp.163-170, June. (SCI, IF=8.208)

   110. Chen WH*, Chu YS, Lee WJ. 2017. Influence of bio-solution pretreatment on the structure, reactivity and torrefaction of bamboo. Energy Conversion and Management. Vol. 141, pp.244-253, June. (SCI, IF=8.208)

   111. Amini A, Ilham Z, Ong HC*, Mazaheri H, Chen WH. 2017. State of the art and prospective of lipase-catalyzed transesterification reaction for biodiesel production. Energy Conversion and Management. Vol. 141, pp.339-353, June. (SCI, IF=8.208)

   112. Pillejera MK, Chen WH*, de Luna MD. 2017. Bamboo torrefaction in a high gravity (Higee) environment using a rotating packed bed. ACS Sustainable Chemistry & Engineering. Vol. 5, pp.7052-7062, August. (SCI, IF=7.632)

   113. Cheng CL, Hang CW, Chen WH*, Hsieh TH. 2017. Effect of torrefaction pretreatment on the pyrolysis of rubber wood. Combustion Quarterly. Vol. 26, No.3, pp.44-53, August.

   114. Yu KL, Show PL, Ong HC, Ling TC, Lan JCW, Chen WH, Chang JS*. 2017. Microalgae from wastewater treatment to biochar: Feedstock preparation and conversion technologies. Energy Conversion and Management. Vol. 150, pp. 1-13, October. (SCI, IF=8.208)

   115. Bach QV, Chen WH*, Sheen HK, Chang JS. 2017. Gasification kinetics of raw and wet-torrefied microalgae Chlorella vulgaris ESP-31 in carbon dioxide. Bioresource Technology. Vol. 244, pp.1393-1399, November. (SCI, IF=7.539)

   116. Yu KL, Lau BF, Show PL, Ong HC, Ling TC, Chen WH, Poh NE, Chang JS*. 2017. Recent developments on algal biochar production and characterization. Bioresource Technology. Vol. 246, pp.2-11, December. (SCI, IF=7.539)

   117. Chen WH*, Hsu HJ, Kumar G, Budzianowski WM, Ong HC. 2017. Predictions of biochar production and torrefaction performance from sugarcane bagasse using interpolation and regression analysis. Bioresource Technology. Vol. 246, pp.12-19, December. (SCI, IF=7.539)

   118. Teh YY, Kee KT, Chen WH*, Lin SC, Sheen HK, Inn ST. 2017. Dilute sulfuric acid hydrolysis of red macroalgae Eucheuma denticulatum with microwave-assisted heating for biochar production and sugar recovery. Bioresource Technology. Vol. 246, pp.20-27, December. (SCI, IF=7.539)

   119. Bach QV, Chen WH*. 2017. Pyrolysis characteristics and kinetics of microalgae via thermogravimetric analysis (TGA): A state-of-the-art review. Bioresource Technology. Vol. 246, pp.88-100, December. (SCI, IF=7.539, Bioresource Technology Highly Cited Review Article Award)

   120. De Luna MDG, Cruz LAD, Chen WH*, Lin BJ, Hsieh TH. 2017. Improving the stability of diesel emulsions with high pyrolysis bio-oil content by alcohol co-surfactants and high shear mixing strategies. Energy. Vol. 141, pp.1416-1428, December. (SCI, IF=6.082)

   121. Yang HY, Wang CY, Liu ZC, Liang D, Liu F, Zhang WB, Di X, Wang CY*, Ho SH*, Chen WH. 2017. Enhanced thermal conductivity of waste sawdust-based composite phase change materials with expanded graphite for thermal energy storage. Bioresources and Bioprocessing. Vol.4:52, December.

   122. Chen WH*, Lin SC, Chen TC. 2017. Biogas partial oxidation in a heat recirculation reactor for syngas production. Energy Procedia. Vol. 142, pp.125-130. December.

   123. Chen WH*, Pillejera MK, de Luna MD. 2017. Influence of reactor rotating speed on bamboo torrefaction. Energy Procedia. Vol. 142, pp.131-135. December.

   124. Milano J, Ong HC*, Masjuki HH, Silitonga AS, Chen WH, Kusumo F, Dharma S, Sebayang AH. 2018. Optimization of biodiesel production by microwave irradiation-assisted transesterification for waste cooking oil- Calophyllum inophyllum oil via response surface methodology. Energy Conversion and Management. Vol. 158, pp.400-415, February. (SCI)

   125. Chen WH*, Chu YS, Liu JL, Chang JS. 2018. Thermal degradation of carbohydrates, proteins and lipids in microalgae analyzed by evolutionary computation. Energy Conversion and Management. Vol.160, pp.209-219. March. (SCI)

   126. Lin BJ, Colin B, Chen WH*, Pétrissans A*, Rousset P, Pétrissans M. 2018. Thermal degradation and compositional change of wood treated in a semi-industrial scale reactor in vacuum. Journal of Analytical and Applied Pyrolysis. Vol.130, pp.8-18. March. (SCI)

   127. Kajina W, P. Rousset P*, Chen WH, Sornpitak T, Commandré JM^. 2018. Coupled effect of torrefaction and blending on chemical and energy properties for combustion of major open burned agriculture residues in Thailand. Renewable Energy. Vol.118, pp.113-121, April. (SCI)

   128. Zhang CY, Ho SH*, Chen WH*, Xie YP, Liu ZQ, Chang JS. 2018. Torrefaction performance and energy usage of biomass wastes and their correlations with torrefaction severity index. Applied Energy. Vol.220, pp.598-604, June. (SCI)

   129. Gan YY, Ong HC*, Show PL, Ling TC, Chen WH, Yu KL, Abdullah R. 2018. Torrefaction of microalgal biochar as potential coal fuel and application as bio-adsorbent. Energy Conversion and Management. Vol. 165, pp.152-162, June. (SCI)

   130. Chen WH*, Wang CW, Kumar G, Rousset P, Hsieh ZH. 2018. Effect of torrefaction pretreatment on the pyrolysis of rubber wood sawdust analyzed by Py-GC/MS. Bioresource Technology. Vol. 259, pp.1469-1473, July. (SCI)

   131. Ho SH, Zhang CY, Chen WH*, Shen Y, Chang JS. 2018. Characterization of biomass waste torrefaction under conventional and microwave heating. Bioresource Technology. Vol. 264, pp.7-16. September. (SCI)

   132. Silitonga AS*, Masjuki HH, Ong HC, Sebayang AH, Dharma S, Kusumo F, Siswantoro J, Milano J, Daud K, Mahlia TMI, Chen WH, Sugiyanto B. 2018. Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine. Energy. Vol. 159, pp.1075-1087, September.(SCI)

   133. Phwan CK, Ong HC*, Chen WH, Ling TC, Ng EP, Show PL*. 2018. Overview: Comparison of pretreatment technologies and fermentation processes of bioethanol from microalgae. Energy Conversion and Management. Vol. 173, pp.81-94, October. (SCI)

   134. Längauer D, Lin YY, Chen WH*, Wang CW, Šafář M, Čablík V. 2018. Simultaneous extraction and emulsification of heat treatment food waste liquefaction bio-oil. Energies. Vol.11, 3031, November. (SCI, IF: 2.702)

   135. Yu KL, Show PL, Ong HC*, Ling TC, Chen WH, Salleh MAM. 2018. Biochar production from microalgae cultivation through pyrolysis as a sustainable carbon sequestration and biorefinery approach. Clean Technologies and Environmental Policy. Vol. 20, pp.2047-2055, November. (SCI)

   136. Silveira EA, Lin BJ, Colin B, Chaouch M, Pétrissans A*, Rousset P, Chen WH*, Pétrissans M. 2018. Heat treatment kinetics using three stage approach for sustainable wood material production. Industrial Crops and Products. Vol. 124, pp.563-571, November. (SCI)

   137. Lee XJ, Show PL, Katsuda T, Chen WH, Chang JS*. 2018. Surface grafting techniques on the improvement of membrane bioreactor: State-of-the-art advances. Bioresource Technology. Vol. 269, pp.489-502, December.(SCI)

   138. Chen WH*, Lin BJ, Colin B, Chang JS*, Pétrissans A, Bi XT, Pétrissans M. 2019. Hygroscopic transformation of woody biomass torrefaction for carbon storage. Applied Energy. Vol. 231, pp.768-776, December. (SCI)

   139. Safar M, Lin BJ, Chen WH*, Langauer D, Chang JS*, Raclavska H, Pétrissans A, Rousset P, Pétrissans M. 2019. Catalytic effects of potassium on biomass pyrolysis, combustion and torrefaction. Applied Energy. Vol. 235, pp.346-355, February. (SCI)

   140. Zhang CY, Ho SH*, Chen WH*, Fu Y, Chang JS, Bi XT. 2018. Oxidative torrefaction of biomass nutshells: Evaluations of energy efficiency as well as biochar transportation and storage. Applied Energy. Vol. 235, pp.428-411, February. (SCI)

   141. Naqvi SR*, Tariq R, Hameed Z, Ali I, Naqvi M, Chen WH, Ceylan S. 2019. Pyrolysis of high ash sewage sludge: kinetics and thermodynamic analysis using Coats-Redfern method. Renewable Energy. Vol. 131, pp.854-860, February. (SCI)

   142. Chen WH*, Lin BJ, Colin B, Pétrissans A, Pétrissans M. 2019. A study of hygroscopic property of biomass pretreated by torrefaction. Energy Procedia. Vol. 158, pp.32-36, February.

   143. Safar M, Lin BJ, Chen WH*, Langauer D, Raclavska H, Pétrissans A, Pétrissans M. 2019. Effects of impregnated potassium on biomass torrefaction. Energy Procedia. Vol. 158, pp.55-60, February.

   144. Chen WH*, Lin YY, Liu HC, Chen TC, Hung HC, Chen CH. 2019. Analysis of physicochemical properties of liquefaction bio-oil from food waste. Energy Procedia. Vol. 158, pp.61-66, February.

   145. Lin BJ, Silveira EA, Colin B, Chen WH*, Pétrissans A, Rousset P, Pétrissans M. 2019. Prediction of higher heating values (HHVs) and energy yield during torrefaction via kinetics. Energy Procedia. Vol. 158, pp.111-116, February.

   146. Felix C, Ubando A, Madrazo C, Sutanto S, Tran-Nguyen PL, Go AW, Ju YH, Culaba A*, Chang JS, Chen WH. Investigation of direct biodiesel production from wet microalgae under subcritical conditions using definitive screening design. Energy Procedia. Vol. 158, pp.1349-1154, February.

   147. Gan YY, Ong HC*, Ling TC, Chen WH, Chong CT. 2019. Torrefaction of de-oiled Jatropha seed kernel biomass for solid fuel production. Energy. Vol. 170, pp.367-374, March. (SCI)

   148. Chen WH*, Lin YY, Liu HC, Chen TC, Hung CH, Chen CH, Ong HC. 2019. A comprehensive analysis of liquefaction bio-oil from food waste. Applied Energy. Vol. 237, pp.283-291, April. (SCI)

   149. Ashokkumar V, Chen WH*, Krishna LS, Agila E, Ani FN. 2019. Integrated biorefinery approach on wastewater treatment and liquid biofuels production from indigenous Synechocystis sp. grown in open raceway pond. Energy Conversion and Management. Vol. 186, pp.188-199, April. (SCI)

   150. Ubando AT, Chen WH*, Ong HC. 2019. Iron oxide reduction by graphite and torrefied biomass analyzed by TG-FTIR for mitigating CO₂ emissions. Energy. Vol. 180, pp.968-977, August. (SCI, IF=6.082)

   151. Felix C, Ubando A, Madrazo C, Gue IH, Sutanto S, Tran-Nguyen PL, Go AW, Ju YH, Culaba A*, Chang JS, Chen WH. 2019. Non-catalytic in-situ (trans) esterification of lipids in wet microalgae Chlorella vulgaris under subcritical conditions for the synthesis of fatty acid methyl esters. Applied Energy. Vol. 248, pp.526-537, August. (SCI, IF=8.848)

   152. Phoon BL, Lai CW, Juan JC*, Show PL*, Chen WH*. 2019. A review of synthesis and morphology of SrTiO3 for energy and other applications. International Journal of Energy Research. Vol.43, pp.5151-5174, August. (SCI, IF=3.741, Top Download Paper of 2018-2019)

   153. Tan CH, Show PL*, Ling TC, Nagarajan D, Lee DJ, Chen WH, Chang JS. 2019. Exploring the potency of integrating semi-batch operation into lipid yield performance of Chlamydomonas sp. Tai-03. Bioresource Technology. Vol. 285, pp.121331, August. (SCI, IF=7.539)

   154. Bach QV, Chen WH*, Eng CF, Wang CW, Liang KC, Kuo JY. 2019. Pyrolysis characteristics and non-isothermal torrefaction kinetics of industrial solid wastes. Fuel. Vol. 251, pp.118-125, September. (SCI, IF=5.578)

   155. Chen WH*, Cheng CL, Show PL, Ong HC. 2019. Torrefaction performance prediction approached by torrefaction severity factor. Fuel. Vol. 251, pp.126-135, September. (SCI, IF=5.578)

   156. Lin BJ, Silveira EA, Colin B, Chen WH*, Lin YY, Pétrissans A*, Rousset P, Pétrissans M. 2019. Modeling and prediction of devolatilization and elemental composition of wood during mild pyrolysis in a pilot-scale reactor. Industrial Crops and Products. Vol. 131, pp.357-370, May. (SCI)

   157. Itliong JN*, Villagracia ARC, Moreno JLV, Rojas KIM, Bernardo GPO, David MY, Manrique RB, Ubando AT, Culaba AB, Padama AAB, Ong HL, Chang JS, Chen WH, Kasai H, Arboleda NB. 2019. Investigation of reverse ionic diffusion in forward-osmosis-aided dewatering of microalgae: A molecular dynamics study. Bioresource Technology. Vol. 279, pp.181-188, May. (SCI)

   158. Lin BJ, Chen WH*, Hsieh TH, Ong HC, Show PL, Naqvi SR. 2019. Oxidative reaction interaction and synergistic index of emulsified pyrolysis bio-oil/diesel fuels. Renewable Energy. Vol. 136, pp.223-234, June. (SCI)

   159. Zhang CY, Wang CY, Cao GL, Chen WH*, Ho SH*. 2019. Comparison and characterization of property variation of microalgal biomass with non-oxidative and oxidative torrefaction. Fuel. Vol. 246, pp.375-385, June. (SCI)

   160. Ooi XY, Gao W, Ong HC*, Lee HV, Juan JC, Chen WH, Lee KT. 2019. Overview on catalytic deoxygenation for biofuel synthesis using metal oxide supported catalysts. Renewable and Sustainable Energy Reviews. Vol. 112, pp.834-852, September. (SCI, IF=12.110)

   161. Ashokkumar V, Chen WH, Al-Muhtaseb AH*, Kumar G, Sathishkumar P, Pandian S, Ani FN, Ngamcharussrivichai C. 2019. Bioenergy production and metallic iron (Fe) conversion from Botryococcus sp. cultivated in domestic wastewater: Algal biorefinery concept. Energy Conversion and Management. Vol. 196, pp.1326-1334, September. (SCI, IF=8.208)

   162. Hassan NA, Supramani S, Sohedein MNA, Usuldin SRA, Klaus A, Ilham Z, Chen WH, Wan Wan-Mohtar WAQI. 2019. Efficient biomass-exopolysaccharide production from an identified wild-Serbian Ganoderma lucidum strain BGF4A1 mycelium in a controlled submerged fermentation. Biocatalysis and Agricultural Biotechnology. Vol. 21, 101305, September.

   163. Ong HC, Chen WH*, Farooq A, Gan YY, Lee KT, Ashokkumar V. 2019. Catalytic thermochemical conversion of biomass for biofuel production: A comprehensive review. Renewable and Sustainable Energy Reviews. Vol. 113, 109266, October. (SCI, IF=12.110)

   164. Chih YK, Chen WH*, Ong HC, Show PL. 2019. Product characteristics of torrefied wood sawdust in normal and vacuum environments. Energies. Vol. 12 (20), 3844, October. (SCI, IF=2.702)

   165. Yew GY, Chew KW, Malek MA, Ho YC, Chen WH, Ling TC, Show PL*. 2019. Hybrid liquid biphasic system for cell disruption and simultaneous lipid extraction from microalgae Chlorella Sorokiniana CY-1 for biofuel production. Biotechnology for Biofuels. Vol. 12, 252, October. (SCI, IF=4.815)

   166. Ubando AT, Rivera DRT, Chen WH*. Culaba AB. 2019. A comprehensive review of life cycle assessment (LCA) of microalgal and lignocellulosic bioenergy products from thermochemical processes. Bioresource Technology. Vol. 291, 121837, November. (SCI, IF=7.539)

   167. Ubando AT, Chen WH*. Ashokkumar V, Chang JS, 2019. Iron oxide reduction by torrefied microalgae for CO₂ capture and abatement in chemical-looping combustion. Energy. Vol. 186, 115903, November. (SCI, IF=6.082)

   168. Why ESK, Ong HC*, Lee HV, Gan YY, Chen WH, Chong CT. 2019. Renewable aviation fuel by advanced hydroprocessing of biomass: Challenges and perspective. Energy Conversion and Management. Vol. 199, 112015, November. (SCI, IF=8.208)

   169. Chen WH*, Wang CW, Ong CH, Show PL, Hsieh ZH. 2019. Torrefaction, pyrolysis and two-stage thermodegradation of hemicellulose, cellulose and lignin. Fuel. Vol. 258, 116168, December. (SCI, IF=5.578)

   170. Ashokkumar V, Chen WH, Kamyab H, Kumar G, Al-Muhtaseb AH, Ngamcharussrivichai C*. 2019. Cultivation of microalgae Chlorella sp. in municipal sewage for biofuel production and utilization of biochar derived from residue for the conversion of hematite iron ore (Fe₂O₃) to iron (Fe) – Integrated algal biorefinery. Energy. Vol. 189, 116128, December. (SCI, IF=6.082

   171. Hoe BGH, Ong HC*, Cheah MY, Chen WH, Yu KL, Mahlia TMI. Sustainability of direct biodiesel synthesis from microalgae biomass: A critical review. Renewable and Sustainable Energy Reviews. Vol. 107, pp.59-74, June. (SCI)

   172. Mokhta ZM, Ong MY, Salman B, Nomanbhay S*, Salleh SF, Chew KW, Show PL*, Chen WH*. 2020. Simulation studies on microwave-assisted pyrolysis of biomass for bioenergy production with special attention on waveguide number and location. Energy. Vol. 190, 116474, January. (SCI)

   173. Chia WY, Khoo KS, Chia SR, Chew KW, Ho YC*, Show PL*, Chen WH*. 2020. Factors affecting the performance of membrane osmotic processes for bioenergy process development. Energies. Vol. 13, 481, January. (SCI)

   174. Sankaran R, Cruz RAP, Pakalaptti H, Show PL, Ling TC, Chen WH*. Tao Y. 2020. Recent advances in the pretreatment of microalgal and lignocellulosic biomass: A comprehensive review. Bioresource Technology. Vol.298, 122476, February. (SCI)

   175. Khoo KS, Chia WY, Tang DYY, Show PL, Chew KW, Chen WH*. 2020. Nanomaterials Utilization in Biomass for Biofuel and Bioenergy Production. Energies. Vol.13, 892, February. (SCI)

   176. Goh BHH, Ong HC*, Chong CT, Chen WH, Leong KY, Tan SX, Lee XJ. 2020. Ultrasonic assisted oil extraction and biodiesel synthesis of spent coffee ground. Fuel. Vol.261, 116121, February. (SCI)

   177. Ubando AT, Felix CB, Chen WH*. 2020. Biorefineries in circular bioeconomy: A comprehensive review. Bioresource Technology. Vol.299, 122585, March. (SCI)

   178. Nomanbhay S, Ong MY, Chew KW, Show PL, Lam MK, Chen WH*. 2020. Organic Carbonate Production Utilizing Crude Glycerol Derived as By-Product of Biodiesel Production: A Review. Energies. Vol.13, 1483, March. (SCI)

   179. Lin BJ, Chen WH*, Lin YY, Chang JS, Farooq A, Singh Y, Ong HC, Show PL. 2020. An evaluation of thermal characteristics of bacterium Actinobacillus succinogenes for energy use and circular bioeconomy. Bioresource Technology. Vol.301, 122774, April. (SCI)

   180. Ong HC, Chen WH*, Singh Y, Gan YY, Chen JY, Show PL. 2020. A state-of-the-art review on thermochemical conversion of biomass for biofuel production: A TG-FTIR approach. Energy Conversion and Management. Vol.209, 112634, April. (SCI)

   181. Lee XJ, Ong HC*, Gan YY, Chen WH, Indra T. 2020. State of art review on conventional and advanced pyrolysis of macroalgae and microalgae for biochar, bio-oil and bio-syngas production. Energy Conversion and Management. Vol.210, 112707, April. (SCI)

   182. Chen WH*, Lin YY, Liu HC, Baroutian S. 2020. Optimization of food waste hydrothermal liquefaction by a two-step process in association with a double analysis. Energy. Vol.199, 117438, May. (SCI)

   183. Khoo KS, Chew KW, Yew GY, Leong WH, Chai YH, Show PL, Chen WH*. 2020. Recent advances in downstream processing of microalgae lipid recovery for biofuel production. Bioresource Technology. Vol.304, 122996, May. (SCI)

   184. Wong WY, Lim S*, Pang YL, Chen WH, Lee KT. 2020. Synthesis of renewable heterogeneous acid catalyst from oil palm empty fruit bunch for glycerol-free biodiesel production. Science of the Total Environment. Vol.727, 138534, July. (SCI)

   185. Sharma A, Singh Y*, Singh NK, Singla A, Ong HC, Chen WH. 2020. Effective utilization of tobacco (nicotiana tabaccum) for biodiesel production and its application on diesel engine using response surface methodology approach. Fuel. Vol.273, 117793, August. (SCI)

   186. Lin YY, Chen WH*, Liu HC 2020. Aging and emulsification analyses of hydrothermal liquefaction bio-oil derived from sewage sludge and swine leather residue. Journal of Cleaner Production. Vol. 266, pp. 122050. September. (SCI)

   187. Mahari WAW, Nam WL, Sonne C, Peng W, Phang XY, Liew RK, Yek PNY, Lee XY, Wen OW, Show PL, Chen WH, Chang JS, Lam SS*. Applying microwave vacuum pyrolysis to design moisture retention and pH neutralizing palm kernel shell biochar for mushroom production. Bioresource Technology. Vol.312, 123572, September. (SCI)

   188. Aron NSM, Khoo KS, Chew, KW, Show. PL*, Chen WH, Nguyen THP. 2020. Sustainability of the four generations of biofuels – A review. International Journal of Energy Research. DOI:10.1002/er.5557. (SCI)

   189. Chen WH*, Eng CF, Lin YY, Bach QV. 2020. Independent parallel pyrolysis kinetics of cellulose, hemicelluloses and lignin at various heating rates analyzed by evolutionary computation. Energy Conversion and Management. (SCI)

   190. Naqvi SR*, Ali I, Nasir S, Taqvi SA, Atabani AE, Chen WH. 2020. Assessment of agro-industrial residues for bioenergy potential by investigating thermo-kinetic behavior in a slow pyrolysis process. Fuel. (SCI)

   191. Mahari WAW, Peng W, Nam WL, Yang H, Lee XY, Lee YK, Liew RK, Ma NL, Mohammad A, Sonne C, Le QV, Show PL, Chen WH, Lam SS*. A review on Valorization of oyster mushroom and waste generated in the mushroom cultivation industry. Journal of Hazardous Materials. (SCI)

   192. Wu Y, Ge S, Xia C, Cai L, Mei C, Sonne C, Park YK, Chen WH, Chang JS, Lam SS*. Using low carbon footprint high-pressure carbon dioxide in bioconversion of aspen branch waste for sustainable bioethanol production. Bioresource Technology. (SCI)

   193. Gan YY, Ong HC*, Chen WH*, Sheen HK, Chang JS, Chong CT, Ling TC. 2020. Microwave-assisted wet torrefaction of microalgae under various acids for coproduction of biochar and sugar. Journal of Cleaner Production. Vol.253, 119944, April. (SCI)

   194. Ubando AT, Chen WH*. Ashokkumar V, Chang JS. 2020. Kinetics and thermodynamics dataset of iron oxide reduction using torrefied microalgal biomass as reducing agents. Data in Brief. Vol.29, 105261, April. (SCI)

   195. Yu KL, Chen WH*, Sheen HK, Chang JS, Lin CS, Ong HC*, Show PL, Ng EP, Ling TC. 2020. Production of microalgal biochar and reducing sugar using wet torrefaction with microwave-assisted heating and acid hydrolysis pretreatment. Renewable Energy. Vol.156, pp. 349-360, August. (SCI)

   196. Ho SH*, Zhang CY, Tao F, Chen WH*. 2020. Microalgal torrefaction for solid fuel production. Trends in Biotechnology. (SCI)

   197. Chen CY, Chen WH*. 2020. Co-torrefaction followed by co-combustion of intermediate waste epoxy resins and woody biomass in the form of min-pellet. International Journal of Energy Research. DOI: 10.1002/er.4886. (SCI)

   198. Chen CY, Chen WH*, Ilham Z. 2020. Effects of torrefaction and water washing on the properties and combustion reactivity of various wastes. International Journal of Energy Research. (SCI)

   199. Arriola E, Chen WH*, Chih YK, De Luna MD, Show PL. 2020. Impact of post-torrefaction process on biochar formation from wood pellets and self-heating phenomena for production safety. Energy. Vol.207, 118324, September. (SCI, IF=6.082)

   200. Yu KL, Chen WH*, Sheen HK, Chang JS, Lin CS, Ong HC*, Show PL, Ling TC. 2020. Bioethanol production from acid pretreated microalgal hydrolysate using microwave-assisted heating wet torrefaction. Fuel. Vol.279, 118435, November. (SCI, IF=5.578)

   201. Gan YY, Chen WH*, Ong HC*, Sheen HK, Chang JS, Hsieh TH, Ling TC. 2020. Effects of dry and wet torrefaction pretreatment on microalgae pyrolysis analyzed by TG-FTIR and double-shot Py-GC/MS. Energy. Vol.210, 118579, November. (SCI, IF=6.082)

   202. Ubando AT, Rivera DRT, Chen WH*. Culaba AB. 2020. Life cycle assessment of torrefied microalgal biomass using torrefaction severity index with the consideration of up-scaling production. Renewable Energy. Vol.162, pp. 1113-1124, December. (SCI, IF=6.274)

   203. Culaba AB, Ubando AT*, Ching PML, Chen WH, Chang JS. 2021. Biofuel from Microalgae: Sustainable Pathways. Sustainability. Vol.12, 8009, October. (SCI, IF=2.576)

   204. Chen CY, Chen WH*, Hung CH. 2021. Combustion performance and emissions from torrefied and water washed biomass using a kg-scale burner. Journal of Hazardous Materials. Vol.402, 123468, January. (SCI, IF=9.038

   205. Ubando AT, Africa ADM, Maniquiz-Redillas MC, Culaba AB, Chen WH*, Chang JS. 2021. Microalgal biosorption of heavy metals: A comprehensive bibliometric review. Journal of Hazardous Materials. Vol.402, 123431, January. (SCI, IF=9.038)

   206. Arpia AA, Chen WH*, Lam SS, Rousset P, De Luna MDG.. 2021. Sustainable biofuel and bioenergy production from biomass waste residues using microwave-assisted heating: A comprehensive review. Chemical Engineering Journal. Vol.403, 126233, January. (SCI, IF=10.652)

   207. Lin YY, Chen WH*, Lin BJ, Colin B, François L, Pétrissans A, Rousset P, Pétrissans M. 2021. Pyrolysis kinetics of potassium-impregnated rubberwood analyzed by evolutionary computation. Bioresource Technology. Vol 319, 124145, January. (SCI, IF=7.539)

Carbon Capture

1. 208. Chen WH*, Hou YL, Hung CI. 2011. A theoretical analysis of the capture of greenhouse gases by single water droplet at atmospheric and elevated pressures. Applied Energy, Vol.88, pp.5120-5130, December. (SCI)

   209. Chen WH*, Hou YL, Hung CI. 2012. A study of influence of acoustic excitation on carbon dioxide capture by a droplet. Energy, Vol.37, pp.311-321, January. (SCI)

   210. Chen WH*, Hou YL, Hung CI. 2012. Influence of droplet mutual interaction on carbon dioxide capture process in sprays. Applied Energy, Vol.92, pp.185-193, April. (SCI)

   211. Chen WH*, Tsai MH, Hung CI. 2013. Numerical prediction of CO₂ capture process by a single droplet in alkaline spray. Applied Energy. Vol.109, pp.125-134, September. (SCI)

Droplet Combustion

1. 212. Chen WH, Jiang TL*, Chiu HH. 1993. Computational investigation of single droplet evaporation in a convective flow. Journal CSME, Vol.14, No.1. (SCI)

   213. Jiang TL*, Liu CC, Chen WH. 1994. Convective fuel droplet burning accompanied by an oxidizer droplet. Combustion Science and Technology, Vol.97, pp.271-301. (SCI)

   214. Jiang TL*, Chen WH, Tsai MJ, Chiu HH. 1994. Double flame and multiple solution computations for a wetted porous sphere vaporizing in reactive flows. Combustion Science and Technology, Vol.102, pp.115-143. (SCI)

   215. Jiang TL*, Chen WH, Tsai MJ, Chiu HH. 1995. A numerical investigation of multiple flame configurations in convective droplet gasification. Combustion and Flame, Vol.103, pp.221-238. (SCI)

   216. Chen WH*, Liu CC, Jiang TL. 1998. Hysteresis effects of two interactive droplets burning in convective flows. Proceedings of the Combustion Institute, Vol.27, pp.1923-1932. (SCI)

   217. Chen WH*, Jiang TL. 2000. Double, triple, and tetra-brachial flame structures around a pair of droplets in tandem. Combustion Science and Technology, Vol.151, pp.105-132. (SCI)

   218. Chen WH*. 2000. Combustion hysteresis and vaporization interaction of two burning droplets with different sizes. Combustion Science and Technology, Vol.154, pp.229-257. (SCI)

   219. Chen WH*. 2000. Partially premixed flame structure and stability of twin droplets in flows. Journal of Heat Transfer-Transactions of the ASME, Vol.122, pp.730-740. (SCI)

   220. Chen WH*. 2001. Tri-brachial flames around two interactive droplets in flows with fuel vapor. International Communications in Heat and Mass Transfer, Vol.28, pp.545-554, May. (SCI)

   221. Chen WH*. 2002. Brachial burning and gasification split of a two-droplet system. Atomization and Sprays, Vol.12, pp.29-47, January. (SCI)

   222. Liu CC, Chen WH*, Jiang TL. 2004. Model of unsteady n-octane droplet burning in high-temperature streams. Combustion Science and Technology, Vol.176, pp.183-213, February. (SCI)

Aerosol and Droplet Absorption

1. 223. Chen WH*. 2001. Unsteady absorption of sulfur dioxide by an atmospheric water droplet with internal circulation. Atmospheric Environment, Vol.35, No.13, pp.2375-2393, May. (SCI)

   224. Chen WH*. 2001. Dynamics of sulfur dioxide absorption in a raindrop falling at terminal velocity. Atmospheric Environment, Vol.35, No.28, pp.4777-4790, October. (SCI)

   225. Chen WH*. 2002. An analysis of gas absorption by a liquid aerosol in a stationary environment. Atmospheric Environment, Vol.36, No.22, pp.3671-3683, August. (SCI)

   226. Chen WH*. 2003. Carbon dioxide absorption by a cloud aerosol with solid nucleus. Journal of Aerosol Science, Vol.34, S339-S340. (SCI)

   227. Chen WH*, Lu JJ. 2003. Internal flow and modeling of sulfur dioxide uptake by a moving water aerosol. Journal of Aerosol Science, Vol.34, S865-S866. (SCI)

   228. Chen WH*, Chung YC. 2003. Transient mass transfer and vortex bifurcation of an aerosol droplet in motion. Aerosol Science and Technology, Vol.37, pp.639-657, August. (SCI)

   229. Chen WH*, Lu JJ. 2003. Microphysics of atmospheric carbon dioxide uptake by a cloud droplet containing a solid nucleus. Journal of Geophysical Research - Atmospheres, Vol.108, No.D15, pp.4470-4478, August. (SCI)

   230. Chen WH*. 2004. Atmospheric ammonia scavenging mechanisms around a liquid droplet in convective flow. Atmospheric Environment, Vol.38, No.8, pp.1107-1116, March. (SCI)

   231. Chen WH*, Hong CY. 2004. Mass transfer of a moving liquid aerosol with deceleration. Journal of Aerosol Science, Vol.35. S993-S994. (SCI)

   232. Chen WH*, Liu CC. 2005. Numerical simulation on air pollutant uptake by a single droplet with deceleration. Transactions of the Aeronautical and Astronautical Society of the Republic of China, Vol.37, No.2, pp. 163-170, June. (EI)

   233. Chen WH*. 2006. Air pollutant absorption by single moving droplets with drag force at moderate Reynolds numbers. Chemical Engineering Science, Vol.61, pp.449-458, January. (SCI)

   234. Chen WH*. 2006. Scavenging waves and influence distances of gas absorption around single liquid aerosols in clouds. Atmospheric Environment, Vol.40 (Suppl. 2), pp.500-511. (SCI)

   235. Chen WH*, Chen YY, Hung CI. 2011. A simplified model of predicting SO₂ absorption by single atmospheric raindrops with chemical dissociation and internal circulation. Aerosol and Air Quality Research, Vol.11, pp.860-872, December. (SCI)

   236. Chen WH*, Chen YY, Hung CI. 2012. Transient SO₂ uptake dynamics by an atmospheric water droplet with internal circulation and chemical dissociation. Journal of Atmospheric and Solar-Terrestrial Physics, Vol.67, pp.67-77, March. (SCI)

   237. Chen WH*, Chen SM, Hung CI. 2013. A theoretical approach of absorption processes of air pollutants in sprays under droplet-droplet interaction. Science of the Total Environment. Vol.444, pp.336-346, Feburary. (SCI)

   238. Chen WH*, Chen SM, Hung CI. 2013. Carbon dioxide capture by single droplet using Selexol, Rectisol and water as absorbents: A theoretical approach. Applied Energy. Vol.111, pp.731-741, November. (SCI)

   239. Chen WH*, Tsai MH, Hung CI. 2014. Characterization of transient CO₂ transport in two convecting aerosol droplets in tandem. Aerosol and Air Quality Research. Vol.14, pp.207-219, February. (SCI)

   240. Chen WH*, Lee KH, Mutuku JK, Hwang CJ. 2018. Flow dynamics and PM_2.5 deposition in healthy and asthmatic airways at different inhalation statuses. Aerosol and Air Quality Research. Vol. 18, pp.866-883, April. (SCI)

   241. Mutuku JK, Chen WH*. 2018. Flow characterization in healthy airways and airways with chronic obstructive pulmonary disease (COPD) during different inhalation conditions. Aerosol and Air Quality Research. Vol. 18, pp.2680-2694, September. (SCI)

   242. Mutuku JK, Hou WC*, Chen WH*. 2020. Two-phase flow dynamics and PM2.5 deposition in healthy and obstructed human airways during inhalation. Aerosol and Air Quality Research. Vol.20, pp.1094-1110, May (SCI)

   243. Mutuku JK, Hou WC*, Chen WH*. 2020. An overview of experiments and numerical simulations on airflow and aerosols deposition in human airways. Aerosol and Air Quality Research. (SCI)

Thermoelectric Generation and Cooling

1. 244. Chen WH*, Liao CY, Hung CI. 2012. A numerical study on the performance of miniature thermoelectric cooler affected by Thomson Effect. Applied Energy, Vol.89, pp.464-473, January. (SCI)

   245. Wang CC, Hung CI, Chen WH*. 2012. Design of heat sink for improving the performance of thermoelectric generator using two-stage optimization. Energy, Vol.39, pp.236-245, March. (SCI)

   246. Chen WH*, Liao CY, Hung CI, Haung WL. 2012. Experimental study on thermoelectric modules for power generation at various operating conditions. Energy, Vol.45, pp.874-881, September. (SCI)

   247. Chen WH*, Wang CC, Hung CI, Yang CC, Juang RC. 2014. Modeling and simulation for the design of thermal-concentrated solar thermoelectric generator. Energy. Vol.64, pp.287-297, January. (SCI)

   248. Chen WH*, Wang CC, Hung CI. 2014. Geometric effect on cooling power and performance of an integrated thermoelectric generation-cooling system. Energy Conversion and Management. Vol.87, pp. 566-575, November. (SCI)

   249. Chen WH*, Wu PH, Lin YL. 2018. Performance optimization of thermoelectric generators designed by multiobjective genetic algorithm. Applied Energy. Vol. 209, pp.211-223, January. (SCI)

   250. Gao YW, Meng JH, Liu HB, Chen WH, Wang XD*. 2018. Transient supercooling behaviors of a novel two-stage Peltier cooler. Applied Thermal Engineering. Vol. 143, pp.248-256, October. (SCI)

   251. Liu HB, Meng JH, Wang XD*, Chen WH. 2019. A new design of solar thermoelectric generator with combination of segmented materials and asymmetrical legs. Energy Conversion and Management. Vol. 175, pp.11-20, November. (SCI)

   252. Chen WH*, Lin YX. 2019. Performance comparison of thermoelectric generators using different materials. Energy Procedia. Vol. 158, pp.1388-1393, February.

   253. Chen WH*, Lin YX, Wang XD, Lin YL. 2019. A comprehensive analysis on the performance of thermoelectric generators with constant and variable properties. Applied Energy. Vol. 241, pp.11-24, May. (SCI)

   254. Chen WH*, Liao CY, Wang CC, Hung CI. 2015. Evaluation of power generation from thermoelectric cooler at normal and low-temperature cooling conditions. Energy for Sustainable Development. Vol. 25, pp. 8-16, April. (SCI, IF=1.993)

   255. Chen WH*, Huang SR, Lin YL. 2015. Performance analysis and optimal operation of a thermoelectric generator by Taguchi method. Applied Energy. Vol.158, pp.44-54, November. (SCI, IF=5.613)

   256. Meng JH, Wang XD*, Chen WH. 2016. Performance investigation and design optimization of a thermoelectric generator applied in automobile exhaust waste heat recovery. Energy Conversion and Management. Vol. 120, pp. 71-80, July. (SCI, IF=8.208)

   257. Chen WH*, Wu PH, Wang XD, Lin YL. 2016. Power output and efficiency of a thermoelectric generator under temperature control. Energy Conversion and Management. Vol.127, pp.404-415, November. (SCI, IF=8.208)

   258. Chen WH*, Huang SR, Wang XD, Wu PH, Lin YL. 2017. Performance of a thermoelectric generator intensified by temperature oscillation. Energy. Vol. 133, pp.257-269, August. (SCI, IF=6.082)

   259. Lin L, Zhang YF, Liu HB, Meng JH, Chen WH, Wang XD*, 2019. A new configuration design of thermoelectric cooler driven by thermoelectric generator. Applied Thermal Engineering. Vol. 160, 114087, September. (SCI, IF=4.725)

   260. Chen WH*, Lee KT, Chi YK, Eng CF, Lin HP, Qiu YB, Cheng CL, Lin XY, Chang JS. 2020. A novel renewable double-E system for activated biochar production and thermoelectric generation from waste heat. Energy & Fuels. Vol.34, pp.3383-3393, March. (SCI)

   261. Chen WH*, Lin YX, Chiou YB, Lin YL, Wang XD. 2020. A computational fluid dynamics (CFD) approach of thermoelectric generator (TEG) for power generation. Applied Thermal Engineering. Vol.173, 115203, June. (SCI)

   262. Liu HB, Wang SL, Yang YR, Chen WH, Wang XD*, 2020. Theoretical analysis of performance of variable cross-section thermoelectric generators: Effects of shape factor and thermal boundary conditions. Energy. Vol.201, 117660, August. (SCI)

   263. Chen WH*, Chiou YB. 2020. Geometry design for maximizing output power of segmented skutterudite thermoelectric generator by evolutionary computation. Applied Energy. (SCI)

Pulverized Coal Injection, Gasification and Iron-making Process

1. 264. Du SW, Chen WH*. 2006. Numerical simulation and practical improvement of pulverized coal combustion in blast furnace. International Communications in Heat and Mass Transfer, Vol.33, No.3, pp. 327-334, March. (SCI)

   265. Chen WH*. 2007. A simplified model of predicting coal gasification performance in a drop tube furnace. International Communications in Heat and Mass Transfer, Vol.34, pp.623-629, May. (SCI)

   266. Chen WH*, Chen JC, Tsai CD, Jiang TL. 2007. Transient gasification and syngas formation for coal particles in a fixed-bed reactor. International Journal of Energy Research, Vol.31(9), pp.895-911, July. (SCI)

   267. Chen WH*, Du SW, Yang JH. 2007. Volatile release and particle formation characteristics of injected pulverized coal in blast furnace. Energy Conversion and Management, Vol.48, pp.2025-2033, July (SCI).

   268. Du SW, Chen WH*, Lucas J. 2007. Performances of pulverized coal injection in blowpipe and tuyere at various operational conditions. Energy Conversion and Management, Vol.48, pp.2069-2076, July. (SCI)

   269. Chen WH*, Chen JC, Tsai CD, Du SW. 2007. Experimental study of coal pyrolysis and gasification in association with syngas combustion. Journal of Mechanics, Vol.23, pp.319-327, December. (SCI)

   270. Chen WH*, Du SW, Yang HH, Wu JS. 2008. Formation characteristics of aerosol particles from pulverized coal pyrolysis in high-temperature environments. Journal of the Air & Waste Management Association, Vol.58, pp.702-710, May. (SCI)

   271. Du SW, Chen WH*, Lucas JA. 2010. Pulverized coal burnout in blast furnace simulated by a drop tube furnace. Energy, Vol.35, pp.576-581, February. (SCI)

   272. Shen CH, Chen WH*, Hsu HW, Sheu JY, Hsieh TH. 2012. Co-gasification performance of coal and petroleum coke blends in a pressurized entrained flow gasifier. International Journal of Energy Research, Vol.36, pp.499-508, April. (SCI)

   273. Chen WH*, Lin MR, Yu AB, Du SW, Leu TS. 2012. Hydrogen production from steam reforming of coke oven gas and its utility for indirect reduction of iron oxides in blast furnace. International Journal of Hydrogen Energy, Vol.37, pp.11748-11758, August. (SCI)

   274. Chen WH*, Chen CJ, Hung CI,. 2012. Numerical investigation on performance of coal gasification under various injection patterns in an entrained flow gasifier. Applied Energy. Vol.100, pp.218-228, December. (SCI)

   275. Chen WH*, Chen CJ, Hung CI. 2013. Taguchi approach for co-gasification optimization of torrefied biomass and coal. Bioresource Technology. Vol.144, pp.615-622, September. (SCI)

   276. Chen WH*, Chen CJ, Hung CI. 2013. A comparison of gasification phenomena among raw biomass, torrefied biomass and coal in an entrained-flow reactor. Applied Energy. Vol.112, pp.421-430, December. (SCI)

   277. Kuo PC, Wu W, Chen WH*. 2014. Gasification performances of raw and torrefied biomass in a downdraft fixed bed gasifier using thermodynamic analysis. Fuel. Vol. 117, pp.1231-1241, January. (SCI)

   278. Du SW, Yeh CP, Chen WH*, Tsai CH, Lucas JA. 2015. Burning characteristics of pulverized coal within blast furnace raceway at various injection operations and ways of enriched oxygen. Fuel. Vol.143, pp. 98-106, March. (SCI)

   279. Chen WH*, Hsu CL, Du SW. 2015. Thermodynamic analysis of the partial oxidation of coke oven gas for indirect reduction of iron oxides in a blast furnace. Energy. Vol.86, pp.758-771, June. (SCI, IF=4.844)

   280. Du SW, Yeh CP, Chen WH*, Tsai CH, Lucas JA. 2015. Burning characteristics of pulverized coal within blast furnace raceway at various injection operations and ways of enriched oxygen. Fuel. Vol.143, pp. 98-106, March. (SCI, IF=3.52)

   281. Ubando AT, Chen WH*. 2020. Kinetic and thermodynamic analysis of the reduction of iron oxides via graphite using Coats-Redfern and distributed activation energy models. International Journal of Energy Research. Vol.44, pp. 3865-3882, April. (SCI)

   282. Ubando AT, Chen WH*. Tan RR, Naqvi SR. 2020. Optimal integration of a biomass-based polygeneration system in an iron production plant for negative carbon emissions. International Journal of Energy Research. DOI: 10.1002/er.4902. (SCI)

Hot Strip Mill and Incineration

1. 283. Chen WH*, Yau WC. 1995. Method of promoting traditional hot strip mill's yield and quality. SEAISI Quarterly Journal, Vol.24.4, pp.14-25. (EI)

   284. Chen WH*, Chen JC. 2001. Combustion characteristics and energy recovery of a small mass burn incinerator. International Communications in Heat and Mass Transfer, Vol.28, pp.299-310, April. (SCI)

   285. Chen WH*. 2003. Waste burning and heat recovery characteristics of a mass burn incineration system. Journal of the Air & Waste Management Association, Vol.53, No.2, pp.136-142, February. (SCI)

   286. Chen WH*, Chung YC, Liu JL. 2005. Energy consumption analysis of reheating furnace in a hot strip mill. International Communications in Heat and Mass Transfer, Vol.32, No.5, pp. 695-706, April. (SCI)

   287. Chen JC, Chen WH, Chang NB*, Devila E, Tsai CH. 2005. Interactive analysis of waste recycling and energy recovery program in a small-scale incinerator. Journal of the Air & Waste Management Association, Vol.55, pp.1356-1366, September. (SCI)

   288. Chen JC*, Chen WH. 2008. Diagnostic analysis of a small-scale incinerator by the Garson index. Information Sciences, Vol.178, pp.4560-4570, December. (SCI)

   289. Chen WH*, Lin MR, Leu TS. 2010. Optimal heating and energy management for slabs in a reheating furnace. Journal of Marine Science and Technology, Vol.18, pp.24-31, February. (SCI)

Others

1. 290. Liu JL*, Chen WH. 2002. Aerodynamic and noise computations of high-speed train and tunnel wall inference. Transactions of the Aeronautical and Astronautical Society of the Republic of China, Vol.34, No.2, pp.229-238. (EI)

   291. Wang HY, Chen WH, Law CK*. 2007. Extinction of counterflow diffusion flames with radiation heat loss and nonunity Lewis numbers. Combustion and Flame, Vol.148, pp.100-116, February. (SCI)

   292. Lee JS, Liu HC, Chen WH*, Chen HP, Weng LC. 2007. A numerical study on reaction characteristics of propane detonation. Combustion Quarterly, Vol.16(2), pp.35-42, May.

   293. Yang SY, Li YY, Jeng JL, Chen WH*. 2008. Spatial measurement of simultaneous CH^* and C₂^* chemiluminescence on Bunsen flame structure. Combustion Quarterly, Vol.17, No.1, pp.2-14, February.

   294. Chen WH*, Lin BJ, Lee HM, Huang MH. 2012. One-step synthesis of dimethyl ether from the gas mixture containing CO₂ with high space velocity. Applied Energy, Vol.98, pp.92-101, October. (SCI)

   295. Chen JC, Chen WH*. 2014. Planning of methane emission control from hoggery using an inexact two-stage optimization model. Journal of the Air & Waste Management Association. Vol.64, pp.1140-1153, October. (SCI)

   296. Wu W, Lin MH, Chen WH. 2014. Exergy analysis of an EFC/PV/Battery based hybrid power generation system. International Journal of Energy Research Vol. 39, pp. 406-417, March. (SCI)

   297. Chang CC, Huang, SY, Chen WH*, 2019. Thermal and solid electrolyte interphase characterization of lithium-ion battery. Energy. Vol. 174, pp.999-1011, May. (SCI)

   298. Huang MH, Lee HM,, Liang CC, Tzeng CC, Chen WH*. 2015. An experimental study on single-step dimethyl ether (DME) synthesis from hydrogen and carbon monoxide under various catalysts. International Journal of Hydrogen Energy. Vol.40, pp.13583-13593, October. (SCI, IF=3.313)

   299. Chen WH*, Hsu CL. 2016. Thermodynamic approach and comparison of two-step and single step DME (dimethyl ether) syntheses with carbon dioxide utilization. Energy. Vol.109, pp.326-340, August. (SCI, IF=6.082)

   300. Chen WH*, Chen CY, Huang CY, Hwang CJ. 2017. Power output analysis and optimization of two straight-bladed vertical-axis wind turbines. Applied Energy. Vol. 185, pp.223-232, January. (SCI, IF=8.848)

   301. Sedaghat A*, Hassanzadeh A, Jamali J, Mostafaeipour A, Chen WH. 2017. Determination of rated wind speed for maximum annual energy production of variable speed wind turbines. Applied Energy. Vol. 205, pp. 781-789, November. (SCI, IF=8.848)

   302. Singh Y*, Sharma A, Singh NK, Chen WH. 2020. Development of bio-based lubricant from modified desert date oil (balanites aegyptiaca) with copper nanoparticles addition and their tribological analysis. Fuel. Vol. 259, 116259, January. (SCI)

   303. Najari S, Gróf G; Saeidi S*, Bihari P, Chen WH. 2020. Modeling and statistical analysis of the three-side membrane reactor for the optimization of hydrocarbon production from CO2 hydrogenation. Energy Conversion and Management. Vol.207, 112481, March. (SCI)

   304. Augusto GL*, Culaba AB, Chen WH. 2020. Performance output prediction for LM wind turbine blade using blade element momentum theory and GH Bladed software. IOP Conference Series: Earth and Environmental Science. Vol. 268 (SCI)

   305. Ang TN, Young BR, Taylor M, Burrell R, Aroua MK, Chen WH, Baroutian S*. 2020. Enrichment of surface oxygen functionalities on activated carbon for adsorptive removal of sevoflurane. Chemosphere. Vol.260, 127496, December. (SCI, IF=5.778)

   306. Ubando AT, Africa ADM, Maniquiz-Redillas MC, Culaba AB, Chen WH*. 2021. Reduction of particulate matter and volatile organic compounds in biorefineries: A state-of-the-art review. Journal of Hazardous Materials. Vol.403, 123955, Feburary. (SCI, IF=9.038)

   307. Augusto GL*, Culaba AB, Chen WH. 2021. Airfoil performance characteristics for LM wind turbine blade using blade element momentum theory and GH Bladed software. International Journal of Energy Research. (SCI, IF=3.741)

   308. Arriola ER, Ubando AT*, Chen WH. 2021. A bibliometric review on the application of fuzzy optimization to sustainable energy technologies. International Journal of Energy Research. DOI: 10.1002/er.5729. (SCI, IF=3.741)

   309. Chen WH*, Tsai ZL, Chang MH, Hsu TH, Kuo PC. 2021. Flow field simulation and pressure drop modeling by a porous medium in PEM fuel cells. International Journal of Energy Research. DOI: 10.1002/er.6047. (SCI, IF=3.741)

   310.