ผศ. ดร.เพ็ญศรี ปลั่งกลาง

ผศ. ดร.เพ็ญศรี ปลั่งกลาง

ผศ. ดร.เพ็ญศรี ปลั่งกลาง
ผศ. ดร.เพ็ญศรี ปลั่งกลาง

สาขาวิชาเทคโนโลยีชีวภาพ

การศึกษา (Education)

1. วท.บ. (เทคโนโลยีชีวภาพ)/ มหาวิทยาลัยขอนแก่น/ ประเทศไทย/ 2546
2. ท.ม. (สหสาขาวิชาการจัดการสิ่งแวดล้อม (ของเสียอันตราย))/ จุฬาลงกรณ์มหาวิทยาลัย/
ประเทศไทย/ 2548
3. Ph.D. (สหสาขาวิชาการจัดการสิ่งแวดล้อม (ของเสียอันตราย))/ จุฬาลงกรณ์มหาวิทยาลัย/
ประเทศไทย/ 2552

ความสนใจด้านการวิจัย (Research Interest)

  1. Biomass conversion and biorefinery
  2. Biohydrogen and methane production from biomass
  3. Waste utilization
  4. Biofertilizer

ผลงานวิชาการ
รายการผลงานวิชาการ
1Thepsuthammarat, K.; Reungsang, A.; Plangklang, P. 2023. Microalga Coelastrella sp. cultivation on unhydrolyzed molasses-based medium towards the optimization of conditions for growth and biomass production under mixotrophic cultivation. Molecules 2023,28:3603.
2Sarapirom, P., Wiriyaampaiwong, P., Rueangsan, K., Plangklang, P., Teerakun, M. The combination technique of bioaugmentation and phytoremediation on the degradation of paraquat in contaminated soil. Asia-Pacific Journal of Science and Technology. 2022; 27:APST-27-03-12.
3Sarapirom, P., Wiriyaampaiwong, P., Rueangsan, K., Plangklang, P., Teerakun, M. The combination technique of bioaugmentation and phytoremediation on the degradation of paraquat in contaminated soil. Asia-Pacific Journal of Science and Technology. 2022; 27:APST-27-03-12.
4Sittijunda, S., Sitthikitpanya, N., Plangklang, P., Reungsang, A.  2021.  Two-stage anaerobic co-digestion of crude glycerol and microalgal biomass for biohydrogen and methane production by anaerobic sludge consortium.  Fermentation. 7:175.
5Sittijunda, S., Sitthikitpanya, N., Plangklang, P., Reungsang, A.  2021.  Two-stage anaerobic co-digestion of crude glycerol and microalgal biomass for biohydrogen and methane production by anaerobic sludge consortium.  Fermentation. 7:175.
6Sriyod, K., Plangklang, P., Reungsang, A.  2021.  Single and combined enzymatic saccharification and biohydrogen production from Chlorella sp. biomass.  Bioenergy Research.  14(3): 940-953.
7Wadjeam, P. Reungsang, A., Imai, T., Plangklang, P.  2019.  Co-digestion of cassava starch wastewater with buffalo dung for bio-hydrogen production. International Journal of Hydrogen Energy.  44:14694-14706.
8Assawamongkholsiri, T., Reungsang, A., Plangklang, P., Sittijunda, S.  2018.  Repeated batch fermentation for photo-hydrogen and lipid production from wastewater of a sugar manufacturing plant.  International Journal of Hydrogen Energy.  43: 3605-3617.
9Nualsri, C., Reungsang, A., Plangklang, P.  2016.  Biochemical hydrogen and methane potential of sugarcane syrup using a two-stage anaerobic fermentation process.  Industrial Crops & Products.  82: 88-99.
10Laochareon, S., Reungsang, A., Plangklang, P.  2015.  Bioaugmentation of Lactobacillus delbrueckii ssp. bulgaricus TISTR895 to enhance bio-hydrogen production of Rhodabacter sphaeroides KKU-PS5.  Biotechnology for Biofuels. 8:190.
11Poomipak, N., Reungsang, A., Plangklang, P.  2014.  Poly-beta-hydroxyalkanoates production from cassava starch hydrolysate by Cupriavidus sp.  KKU 38.  International Journal of Biological Macromolecules.  65: 51-64.
12Pimmata, P., Reungsang, A., Plangklang, P.  2013.  Comparative bioremediation of carbofuran contaminated soil by natural attenuation, bioaugmentation and biostimulation.  International Biodeterioration and Biodegradation.  85: 196-204.
13Reungsang, A., Sreela-or, C. , Plangklang, P.  2013.  Non-sterile bio-hydrogen fermentation from food waste in a continuous stirred tank reactor (CSTR): Performance and population analysis.  International Journal of Hydrogen Energy.  38:15630-15637.        
14Laocharoen, S., Plangklang, P., Reungsang, A.  2013.  Selection of support materials for immobilization of Burkholderia cepacia PCL3 in treatment of carbofuran contaminated water.  Environmental Technology.  34:2587-2597.
15
Saraphirom P., Reungsang, A., and Plangklang, P.  2013.  Polyhydroxyalkanoates production from effluent of hydrogen fermentation process by Cupriavidus sp. KKU38.  Environmental Technology. 34:477-483.
16Plangklang, P. and Reungsang, A. 2013.  Biodegradation of carbofuran in sequencing batch reactor augmented with immobilized Burkholderia cepacia PCL3 on corncob.  Chemistry and Ecology.  29:44-57.
17Saripan A.F., Reungsang, A.  2013.  Biohydrogen production by Thermoanaerobacterium thermosaccharolyticum KKU-ED1: Culture conditions optimization using mixed xylose/arabinose  as the substrates.  Electronic Journal of Biotechnology. 16: 1-1.
18Reungsang, A., Sittijunda, S., and Angelidaki, I.  2013.  Simultaneous production of hydrogen and ethanol from waste glycerol by Enterobacter aerogenes KKU-S1.    International Journal of Hydrogen Energy.  38:1813-1825.
19Reungsang, A., Sittijunda, S. and Angelidaki, I. 2013. Simultaneous production of hydrogen and ethanol from waste glycerol by Enterobacter aerogenes KKU-S1. International Journal of Hydrogen Energy. 38: 6915.
20Plangklang, P., Reungsang, A., and Pattra, S. 2012.  Enhanced bio-hydrogen production from sugarcane juice by immobilized Clostridium butyricum on sugarcane bagasse. International Journal of Hydrogen Energy. 37:15525-15532.
21Plangklang, P. and Reungsang, A. 2012.  Isolation and characterization of a carbofuran degrading Burkholderia sp. PCL3 from carbofuran-phytoremediated rhizosphere.  Chemistry and Ecology.  28:253-266.
22Plangklang, P., Reungsang, A., and Suphannafai, W.  2012.  Bioremediation of carbofuran contaminated soil under saturated condition: soil column study.  Biodegradation.  23:473-485.
23Plangklang, P. and Reungsang, A. 2011. lux-Marking and application of carbofuran degrader Burkholderia cepacia PCL3, New Biotechnology, 28: 798-805.
24Plangklang, P. and Reungsang, A.  2011.  Bioaugmentation of carbofuran residues in soil by Burkholderia cepacia PCL3: A small-scale field study.  International Biodeterioration and Biodegradation. 65:902-905.
25Sreela-or, C.  Imai, T., Plangklang, P. and Reungsang, A. 2011. Optimization of key affecting hydrogen production from food waste by anaerobic mixed cultures.   International Journal of Hydrogen Energy, 36:14120-14133
26Sreela-or, C.  Imai, T., Plangklang, P. and Reungsang, A. 2011. Co-digestion of food waste and sludge for hydrogen production by anaerobic mixed cultures: Statistical key factors optimization, International Journal of Hydrogen Energy, 36:14227-14237.     
27Khamtib, S., Plangklang, P. and Reungsang, A. 2011. Optimization of fermentative hydrogen production from hydrolysate of microwave assisted sulfuric acid pretreated oil palm trunk by hot spring enriched culture, International Journal of Hydrogen Energy, 36:14204-14216. 
28Plangklang, P. and Reungsang,  A.  2010.   Bioaugmentation of carbofuran by Burkholderia cepacia PCL3 in a bioslurry phase sequencing batch reactor.  Process Biochemistry. 45:230-238
29Plangklang, P., Sittijunda, S., Teerakul, M. and Reungsang, A. 2010. Hydroponic removal of carbofuran from contaminated water by local Thai aquatic plants. Journal of Biotechnology. 562.
30Plangklang, P. and Reungsang, A. 2009.  Bioaugmentation of carbofuran residues in soil using Burkholderia cepacia PCL3 adsorbed on agricultural residues. International Biodeterioration and Biodegradation. 63:515-522
31Plangklang, P. and Reungsang, A. 2008. Effects of rhizosphere remediation and bioaugmentation on carbofuran removal from soil. World Journal of Microbiology and Biotechnology. 24:983–989

 Chapter/หนังสือ

  1. Salakkam A., Plangklang P., Sittijunda S., Kongkeitkajorn M.B., Lunprom S., Reungsang A., 2018. Bio-hydrogen and methane production from lignocellulosic materials. Biomass for Bioenergy Recent Trends and Future Challenges. InTech. pp. 1-40.
  2. Reungsang, A., and Plangklang, P.  2010.  Biohydrogen and bioethanol from sugarcane. Edited by Herbert H P Fang, Environmental Anaerobic Technology: Application and New Development. Imperial College Press.  London, UK. pp. 365-378.
  3. เพ็ญศรี ปลั่งกลาง. 2562. ภาพรวมกระบวนการย่อยไร้อากาศ. (อลิศรา เรืองแสง, บรรณาธิการ).  หน้า 1-48. ขอนแก่น

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