อ. ดร.นรรฏธวรรณ ประสงค์ธรรม

สาขาฟิสิกส์ คณะวิทยาศาสตร์ มหาวิทยาลัยขอนแก่น

 



ประวัติการศึกษา

  • 2549 วท.บ. (เคมี) (เกียรตินิยมอันดับหนึ่ง) มหาวิทยาลัยอุบลราชธานี
  • 2556 วท.ม. (ปิโตรเคมีและวิทยาศาสตร์พอลิเมอร์) จุฬาลงกรณ์มหาวิทยาลัย
  • 2560 วท.ด. (ปิโตรเคมี) จุฬาลงกรณ์มหาวิทยาลัย

 

ห้องทำงาน อาคารวิทยวิภาส ชั้น 5 คณะวิทยาศาสตร์ มหาวิทยาลัยขอนแก่น

E-mail: natpra@kku.ac.th

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งานวิจัยที่สนใจ

  1. Heterogeneous catalyst development
  2. CO2 capture technologies: absorption and adsorption
  3. CO2 conversion via thermochemical and electrochemical processes
  4. Renewable energy: bioenergy, biofuels and hydrogen
  5. Carbon-based material

ผลงานวิจัย

  1. Prasongthum, N., Xiao, R., Zhang, H., Tsubaki, N., Natewong, P., and Reubroycheroen P., Highly Active and Stable Ni Supported on CNTs-SiO2 Fiber Catalysts for Steam Reforming of Ethanol. Fuel processing technology, 160, 185-195. (2017)
  2. Prasongthum, N., Chaiya, C., Samart, C., Guan, G., Natewong, P., and Reubroycheroen P., Co-production of hydrogen and carbon nanotube-silica fiber composites from ethanol steam reforming over an Ni-silica fiber catalyst. Monatshefte fur Chemie-Chemical Monthly, 148, 1311-1321. (2017)
  3. Natewong, P., Prasongthum, N., and Reubroycharoen, P., Fibrous Platelet Carbon Nanofibers-Silica Fiber Composite Supports for a Co-based Catalyst in the Steam Reforming of Acetic Acid, Applied Catalysis A, 560, 215-224. (2018)
  4. Mhadmhan, S., Natewong, P., Prasongthum, N., Samart, C., and Reubroycheroen, P., Investigation of Ni/SiO2 Fiber Catalysts Prepared by Different Methods on Hydrogen production from Ethanol Steam Reforming. Catalysts, 8, 319. (2018)
  5. Prasongthum, N., Natewong, P., Reubroycharoen, P., and Idem, R., Solvent Regeneration of a CO2-Loaded BEA-AMP Bi-blend Amine Solvent with the aid of a Solid Brønsted Ce(SO4)2/ZrO2 Super-Acid Catalyst, Energy Fuels, 33, 1334-1343. (2019)
  6. Natewong, P., Prasongthum, N., Reubroycharoen, P., and Idem, R., Synthesis of carbon nanotubes (CNTs) over Ni/MgO Catalyst from CH4/CO2 and its application for CO2 Absorption in BEA-AMP Bi-solvent Blend, CleanEnergy, 3, 251-262. (2019)
  7. Natewong, P., Prasongthum, N., Reubroycharoen, P., and Idem, R., Evaluating the CO2 capture performance using a BEA-AMP bi-blend amine solvent with novel high-performing absorber and desorber catalysts in a bench-scale CO2 capture pilot plant, Energy Fuels, 33, 3390-3402. (2019)
  8. Attanatho, L., Lao-ubol, S., Suemanotham, A., Prasongthum, N., Khowattana, P., Laosombut, T., Duangwongsa, N., Larpkiattaworn, S., and Thanmongkhon, Y., Jet fuel range hydrocarbon synthesis through ethylene oligomerization over platelet Ni‑AlSBA‑15 catalyst. SN Applied Sciences, 2, 971. (2022)
  9. Xiang, H., Xin, R., Prasongthum, N., Natewong, P., Sooknoi, T., Wang, J., Reubroycharoen, P., and Fan, X., Catalytic conversion of bioethanol to value-added chemicals and fuels: A review, Resources Chemicals and Materials, 1, 47-68. (2022)
  10. Prasongthum, N., Duangwongsa, N., Khowattana, P., Suemanotham, A., Wongharn, P., Thanmongkhon, Y., Reubroycharoen, P., and Attanatho, L., Influence of torrefaction on yields and characteristics of densified solid biofuel, Journal of Physics: Conference Series, 2175. (2022)
  11. Suemanotham, A., Attanatho, L., Prasongthum, N., Sisuthog, W., Laosombut, T., and Thanmongkhon, Y., Upgrading of palm empty fruit bunch for solid biofuel production through hydrothermal carbonization, Journal of Physics: Conference Series, 2175. (2022)
  12. Le-Mai, T.H., Mhadmhan, S., Trieu, T.Q., Prasongthum, N., Suriya, P., Reubroycharoen, P., Hydrogen production by steam reforming of fusel oil over Ni-based fiber catalyst, Materials Today: Proceedings, 53, 1147-1153. (2022)
  13. Prasongthum, N., Suemanotham, A., Sisuthog, W., Thanmongkhon, Y., Reubroycharoen, P., and Attanatho, L., Production of Bio-paraffin from Solvent-free Deoxygenation of Palm Biodiesel over ZrO2-supported Nickel Phosphide Catalysts, Applied Catalyst A, General, 648, 118917. (2022)
  14. Prasongthum, N., Suemanotham, A., Sisuthog, W., Thanmongkhon, Y, Chaiya, C., and Attanatho, L., Hydrothermal carbonization of oil palm trunk: Hydrochar properties and combustion behaviors. Energy Report, 9, 380-386. (2023)
  15. Suriya, P., Prasongthum, N., Natewong, P., Wasanapiarnpon, T., Gao, X., Zhao, T., Tian, J., Mhadmhan, S., Hong, T.L.M., and Reubroycharoen, P., Hydrogen production by steam reforming of fusel oil over nickel deposited on pyrolyzed rice husk supports, Energy Report, 9, 462-469. (2023)
  16. Prasongthum, N., Suemanotham, A., Thanmongkhon, Y., Khowattana, P., Butniam, P., Khoduangklang, N., Samart, C., and Attanatho, L.,  Carbon dioxide Conversion to Carbon Nanotube via Molten Salt Electrolysis, Journal of Physics: Conference Series, 2602, 012002. (2023)
  17. Attanatho, L., Prasongthum, N., Suemanotham, A., Khamachiangpin, M., Wannikul, M., Butniam, P. Khowattana, P., Reubroycharoen, P., and Thanmongkhon, Y., Valorization of Oil Palm Trunk Waste: A Path to Green Catalyst for Bioethylene Synthesis via Diluted Ethanol Dehydration, Waste and Biomass Valorization, 15, 3031-3044. (2024)
  18. Attanatho, L., Suemanotham, A., Prasongtham, N., Junsod, A., Czegeny, Z., and Thanmongkhon, Y., The thermal behavior during the co-combustion of bituminous coal and oil palm trunk hydrochars, Energy Sources Part A: Recovery, Utilization, and Environmental Effects, 46, 706-718. (2024)
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สิทธิบัตร/อนุสิทธิบัตร

  1. เครื่องผลิตถ่านชีวมวล เลขที่คำขออนุสิทธิบัตร 2101004139 วันยื่นคำขอ 13 กรกฎาคม 2564

รางวัล

  1. นักศึกษาผู้มีผลการเรียนยอดเยี่ยม คณะวิทยาศาสตร์ มหาวิทยาลัยอุบลราชธานี ประจำปี 2549, 2550, 2551, 2552
  2. University of Regina International Global Visiting Program ประเทศ Canada ปี 2560 – 2561
  3. เป็นตัวแทนประเทศไทย เข้าร่วมงาน International Conference on Productivity and Green Growth: New Interlocking Paradigms 14th –16th June 2023, Chennai, India, สนับสนุนโดย Asian Productivity Organization (APO)