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Prof. Tawatchai Tingsanchali

Position
Adjunct Faculty
Unit
Faculty of Climate Change and Sustainability
Contact Info
[email protected]
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Qualification
Areas of Specialization
Selected Publication
Selected Research Projects
  1. D. Eng (Water Resources Engineering) Asian Institute of Technology, Thailand. 1975
  2. M. Eng. (Hydraulic Engineering) Asian Institute of Technology, Thailand. 1970
  3. B. Eng. Hons (Mechanical Engineering) Chulalongkorn University, Thailand. 1968
  1. Flood Control, Flood Forecasting
  2. Floods &Droughts Disaster Management
  3. Water Resources Engineering and Management
  4. River Hydraulic Engineering and Sediment Trans
  1. 1. TINGSANCHALI, T. and ACKERMANN, N.L. (1976), Effects of Overbank Flow in Flood Computation, Journal of Hydraulics Division, ASCEU, New York, U.S.A. July, Vol. 102, No. HY7, Paper 12266, pp.1013 – 1025.
  2. SIVAKUMARAN, N.S., HOSKING, R. J. and TINGSANCHALI, T. (1981), Steady Shallow Flow over a Spillway, Journal of Fluid Mechanics, Cambridge University, Press, Cambridge, England, October, Vol. 111, pp. 411-420.
  3. SIVAKUMARAN, N.S., TINGSANCHALI, T. and HOSKING, R.J. (1983), Steady Shallow Flow Over Curved Beds, Journal of Fluid Mechanics, Cambridge University Press, ityCambridge, England, March, Vol. 128, pp. 469-487.
  4. TINGSANCHALI, T. and MANANDHAR, S.K. (1985), Analytical Diffusion Model for Flood Routing Journal of Hydraulic Engineering, ASCEU, New York, U.S.A., March, Vol. 111, No. 3, Paper 19557, pp. 435-454.
  5. TINGSANCHALI, T. and LIEN, N.D. (1986), Flood Simulation in Tidal Delta of Mekong River by SSARR Model, Water International, Journal of International Water Resources Association, (IWRA)U, University of Illinois at Urbana Champaign, U.S.A., September, Vol. 111, No. 3, pp. 117-126.
  6. TINGSANCHALI, T. and LAL, N.K. (1988), Subsidence of Flood Waves in Overbank Flow Areas, Journal of Hydraulic Research, IAHRU, Delft, Netherlands, Vol. 26, No. 5, pp. 585-597.
  7. TINGSANCHALI, T. and CARRIAGA, C.C. (1989) Optimum Diversion Plan for a Hydropower Scheme, U Journal of Water Resources Planning and Management, ASCEU, New York, U.S.A., March, Vol. 115, No. 2, pp. 195-211.
  8. TINGSANCHALI, T., VONGVISESSOMJAI, S., and HWANG, G.J. (1989) Stability Analysis of a 2-D Depth Averaged Model, Journal of Hydraulic Engineering, ASCEU, New York, U.S.A., September, Vol. 115, No. 9, pp. 1204-1222.
  9. TINGSANCHALI, T. and MAHESWARAN, S., (1990), 2-D Depth Averaged Flow Computation Near a Groin, Journal of Hydraulic Engineering, ASCEU, New York, U.S.A., January, Vol. 116, No. 1, pp. 71-86.
  10. TINGSANCHALI, T. (1990), Flood Protection and Control Investigation in Southeast Asia, Journal of the Japan Society of Civil Engineers (JSCE),U Tokyo, Japan, March, Vol. 75, No. 4, pp. 76-80.
  1. Drought Hazard Assessment for Agricultural Area of Chanthaburi River Basin, Chanthaburi Province, Thailand
    Year: 2024-2025
    Location: Thailand
    Sponsor: Kasetsart University
    Location: Thailand
  2. Comprehensive Assessment of Meteo-Hydrological Drought Hazard with Climate and Land Use Change for Agricultural Area: A Case Study of Wang River Basin, Lampang Province,
    Year: 2023-2024
    Location: Thailand
    Sponsor: Kasetsart University
    Location: Thailand
  3. ENRICH: Enhancing resilience to future hydro-meteorological extremes in the Mun river basin in Northeast of Thailand
    Year: 2018-2022
    Location: Thailand
    Client: AIT
    Sponsor: National Research Council of Thailand /Thailand Science Research and Innovation/ UK National Environment Research Council (NERC)
  4. River Morphological Study, Flood Hazard Mapping & Establishment of Decision Support System for Sindh Province, Pakistan
    Year: Completed 2020-2021
    Location: Sindh Province, Pakistan
    Client: AIT/ Sindh Irrigation Department, Government of Sindh
    Sponsor: World Bank/The Islamic Republic of Pakistan
    Main project features: River Morphological Study, Flood Hazard Mapping & Establishment of DSS for Sindh Province
  5. An Approach to Establish MWA Trunk Main Leakage Monitoring System (in Thai)
    Year: 2019-2020
    Location: Bangkok, Thailand
    Client: Metropolitan Water Work Authority (MWA)
    Sponsor: Metropolitan Water Work Authority (MWA)
    Main project features: To analyze and monitor leakage of water supply trunk main of MWA and to propose methods of monitoring considering relationship of leakage and pressure in trunk main
    Positions held: Project Advisor
    Activities performed: Advisory role for hydraulics and pipe flow modeling. Advice on model set-up, model verifiction and development of trunk main leakage monitoring system