Dr. Kasidit Nootong




Contact

Department of Chemical Engineering,
Floor 9, Building 4,
Faculty of Engineering, Chulalongkorn University,
Bangkok 10330, Thailand

Telephone 662.218.6864
Fax 662.218.6877
Email kasidit.n@chula.ac.th
Research Profile https://intranet.eng.chula.ac.th/?q=engprofile/view/276

Education

  • Ph.D., Chemical and Biomolecular Engineering, Univ. of Pennsylvania, Philadelphia PA, 2006.

  • M.S.E., Chemical Biomolecular Engineering, Univ. of Pennsylvania, Philadelphia PA,  2001.
  • B.S.E., Chemical Engineering, Univ. of Pennsylvania, Philadelphia PA, 2000.


Research Interest


Bioprocess Engineering - Energy and High-valued Chemicals
Aquacultural Engineering
Waste Treatment
Waste Utilization
Cleaner Technology

Publications

Pirom, T., Sunsandee, N., Wongsawa, T., Ramakul, P., Pancharoen, U., Nootong, K. The effect of temperature on mass transfer and thermodynamic parameters in the removal of amoxicillin via hollow fiber supported liquid membrane. 2015. Chemical Engineering Journal 265 , 75-83.

Wongkaew, K., Sunsandee, N., Pancharoen, U., Nootong, K., Ramakul, P. Purification of Sn(IV) and recovery of Pd(II) from flexible printed circuit board industry wastewater via HFSLM: Temperature effect investigation. 2015. Journal of Industrial and Engineering Chemistry 22 , 217-228.

Pirom, T., Sunsandee, N., Ramakul, P., Pancharoen, U., Nootong, K., Leepipatpiboon, N. Separation of amoxicillin using trioctylmethylammonium chloride via a hollow fiber supported liquid membrane: Modeling and experimental investigation. 2015. Journal of Industrial and Engineering Chemistry 23 , 109-118.

Wannachod, T., Mohdee, V., Suren, S., Ramakul, P., Pancharoen, U., Nootong, K. The separation of Nd(III) from mixed rare earth via hollow fiber supported liquid membrane and mass transfer analysis. 2015. Journal of Industrial and Engineering Chemistry 26 , 214-217.

Wannachod, T., Leepipatpiboon, N., Pancharoen, U., Nootong, K. Separation and mass transport of Nd(III) from mixed rare earths via hollow fiber supported liquid membrane: Experiment and modeling. 2014. Chemical Engineering Journal 248 , 158-167.

All Publications