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Asst. Prof. Dr.Krailak Fakkaew

Asst. Prof. Dr.Krailak Fakkaew

Assitant Dean/ Lecturer in Environmental Health Programme

Tel: +66 (0) 5391 6907
E-mail: krailak.fak@mfu.ac.th

Education

  • D.Eng.     Environmental Engineering and Management, Asian Institute of Technology, Thailand
  • M.Eng.     Environmental Engineering, Chiang Mai University, Thailand    
  • B.Sc.        Industrial Chemistry, Chiang Mai University, Thailand        
Speciallization

  • Wastewater treatment and management
  • Fecal sludge management
Awards/Publications

  • S. Sudsandee, K. Fakkaew, V. Keawdounglek, P. Laor, S. Worakhunpiset, T. Apidechkul, (2020). DrinkingWater Investigation of Hill Tribes: A Case Study in Northern Thailand. International Journal of Environmental Research and Public Health, 17, (1698), 1-13.
  • K. Fakkaew, T. Koottatep, C. Polprasert, (2018). Faecal sludge treatment and utilization by hydrothermal carbonization. Journal of Environmental Management, 216, 421-426.
  • K. Fakkaew, T. Koottatep, S. Jairuang, S. Suwal, C. Polprasert, (2018). Energy and Nutrient Recoveries from Faecal Sludge through Hydrothermal Carbonization Process. Ramkhamhaeng International Journal of Science and Technology, 1(1), 35-40. 
  • M.H. Ngone, T. Koottatep, K. Fakkaew, C. Polprasert, (2018). Assessment of nutrient recovery, air emission and farmersโ€™ perceptions of indigenous mound burning practice using animal and human wastes in Myanmar. Agriculture, Ecosystems and Environment. 261, 54โ€“61.
  • T. Koottatep, K. Fakkaew, N. Tajai, C. Polprasert, (2017). Isotherm models and kinetics of copper adsorption by using hydrochar produced from hydrothermal carbonization of faecal sludge. Journal of Water, Sanitation and Hygiene for Development, 7(1), 102-110.
  • T. Koottatep, K. Fakkaew, N. Tajai, S.V. Pradeep, C. Polprasert, (2016). Sludge stabilization and energy recovery by hydrothermal carbonization process. Renewable Energy, 99, 978-985.
  • K. Fakkaew, T. Koottatep, C. Polprasert, (2015). Effects of hydrolysis and carbonization reactions on hydrochar production. Bioresource Technology, 192, 328โ€“334.
  • K. Fakkaew, T. Koottatep, T. Pussayanavin, C. Polprasert, (2015). Hydrochar production by hydrothermal carbonization of faecal sludge. Journal of Water, Sanitation and Hygiene for Development, 5(3), 439-447.
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