Dr. Amornchai Arpornwichanop




Contact

Department of Chemical Engineering, Floor 11, Building 4, Faculty of Engineering, Chulalongkorn University, Bangkok 10330, Thailand

Telephone 662.218.6999
Fax 662.218.6877
Email amornchai.a@chula.ac.th
Research Profile https://intranet.eng.chula.ac.th/?q=engprofile/view/274

Education

  • D.Eng. (Chemical Engineering), Chulalongkorn University, 2003

  • B.Eng. (2nd Class Honour), (Chemical Engineering), Chulalongkorn University, 1997


Research Interest


Process control and systems engineering, including process modeling and simulation, design and application of linear and nonlinear control techniques, and optimization of dynamic and static processes.
Current research projects focus on systems such as reactive distillation, solid oxide fuel cell, batch and semi-batch reactor, and continuous stirred-tank reactor

Publications

Im-orb, K., Visitdumrongkul, N., Saebea, D., Patcharavorachot, Y., Arpornwichanop, A. Flowsheet-based model and exergy analysis of solid oxide electrolysis cells for clean hydrogen production. 2018. Journal of Cleaner Production 170 , 1-13.

Simasatitkul, L., Kaewwisetkul, P., Arpornwichanop, A. Techno-economic assessment of extractive distillation for tert-butyl alcohol recovery in fuel additive production. 2017. Chemical Engineering and Processing: Process Intensification 122 , 161-171.

Jienkulsawad, P., Skogestad, S., Arpornwichanop, A. Control structure design of a solid oxide fuel cell and a molten carbonate fuel cell integrated system: Top-down analysis. 2017. Energy Conversion and Management 152 , 88-98.

Wongkaew, K., Mohdee, V., Pancharoen, U., Arpornwichanop, A., Lothongkum, A. Separation of platinum(IV) across hollow fiber supported liquid membrane using non-toxic diluents: Mass transfer and thermodynamics. 2017. Journal of Industrial and Engineering Chemistry 54 , 278-289.

Wongkaew, K., Mohdee, V., Soták, T., Hronec, M., Pancharoen, U., Arpornwichanop, A. The solubility of maleic acid in various inorganic salts and organic solvents: Thermodynamics model and parameters. 2017. Fluid Phase Equilibria 450 , 75-85.

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