• Full name: TRINH CONG TY
  • M/F:  Male
  • Current job status:  Teaching
  • Degree: PhD
  • Academic title – position: 
  • Email: tytc@huce.edu.vn



TRAIN

University: Engineering, Hanoi University of Civil Engineering, Vietnam (2009)

Master: Hydraulic Construction Engineering, Hanoi University of Civil Engineering, Vietnam (2014)

PhD: Hydraulics and River Dynamics, Sichuan University, China (2023)

MAIN RESEARCH DIRECTIONS

  • Research on applying mathematical models to solve hydraulic problems/engineering hydraulics/river-sea dynamics.
  • Research on applying AI models in hydraulic – hydrological analysis.
  • Research on application of vortex and entropy analysis methods in energy dissipation works.

WORKING HISTORY

RESEARCH TOPIC

  1. 2024-2027 – Research on the application of Artificial Intelligence to build a pilot system to warn of urban flooding levels due to rain in Phu Ly City, Ha Nam Province – Provincial level – Chair
  2. 2024-2026 – Research on assessing the potential of rooftop solar power in Ha Nam province using remote sensing technology – Provincial level – Participation
  3. 2023-2026 – Research on measures to reinforce and solidify the irrigation canal system in Ha Nam using high-strength two-layer hollow core geotextiles filled with concrete mortar – Provincial level – Participation
  4. 2024-2026 – Research on analyzing flow characteristics on large-slope energy-dissipating spillways with pinao spillways (case study is Nam Si Luong 3 hydropower spillway) – Key school level – Participation
  5. 2024-2025 – Study on the influence of rectangular prism-shaped rough ground on the characteristics of water jump in the channel using CFD numerical simulation method – Key school level – Chair
  6. 2024 – Research on flow behavior through Piano spillway – School level – Participation
  7. 2024 – Using Flow-3D hydraulic model to study the discharge capacity of trapezoidal spillway – School level – Participation
  8. 2023 – Simulation and analysis of the evolution of vortex structures in water jumping on the bottom with rough abutments of the energy dissipation channel – Key field level – Participation
  9. 2022 – Application of Mike flood model in building flood maps considering changes in land cover to flood flow, Nhat Le river basin, Quang Binh province – School level – Participation
  10. 2018 – Research on increasing the discharge capacity of Piano spillway – School level – Chair
  11. 2012 – Research on building an automated model to analyze the efficiency of channel erosion of the groin revetment system – Key school level – Participation
  12. 2012 – Exploiting the HEC-ResSim program to solve hydropower and flow regulation problems – School level – Chair
  13. 2011 – Research on the design principle of automatic hydraulic flap valve in the flood discharge project of the irrigation headquarter – Key school level – Participated
  14. 2011- Applying MIKE 11 to natural river improvement projects – School level – Participated
  15. 2010 – Pressure pipe design process for hydroelectric plants – School level – Participated

BOOKS AND TEXTBOOKS

  1. “General Hydraulic Exercises”, Construction Publishing House (2024).

PUBLISHED SCIENTIFIC WORKS

  1. International Magazine
  2. Cong Ty Trinh, Cong Trieu Tran*. Numerical and analysis effects of rectangular prism rough beds on hydraulic jumps in open channels. 2025. AIP Advances 15 (7) https://doi.org/10.1063/5.0267793
  3. Thong Xuan Tran*, Sihong Liu, Hang Ha, Quynh Duy Bui, Long Quoc Nguyen, Dinh Quoc Nguyen, Cong Ty Trinh, and Chinh Luu. A spatial landslide risk assessment based on hazard, vulnera-bility, exposure, and adaptive capacity. 2024. Sustainability, 16, 9574.

https://doi.org/10.3390/su16219574

  1. Cong Ty Trinh, Zhang Jianmin*, Cong Trieu Tran. Influence of Right Triangular Prism Rough Beds on Hydraulic Jumps. 2024. Applied Sciences, 2(14): 594.
    https://doi.org/10.3390/app14020594
  2. Cong Trieu Tran *, Cong Ty Trinh. Prediction of the vortex evolution and analysis influence of rough bed in a Hydraulic jump with the Omega-Liutex method. 2023. Tehnički vjesnik, 6(31).
    https://doi.org/10.17559/TV-20230206000327
  3. Domestic Magazine
  4. Tran Cong Trieu, Trinh Cong Ty*. Determination of conjugate depth, water jump length and bottom stress for water jump on rectangular prism rough ground using artificial neural network model. 2025. Journal of Marine Science and Technology No. 84.
  5. Pham Quynh Anh, Trinh Cong Ty*, Nguyen Khanh Ly, Le Dinh Hung. Application of artificial neural networks to predict the characteristics of water jumps on rough-bottomed channels with right-angled triangular prisms, Journal of Materials & Construction/ ISSN: 1859-381X year 2025. https://doi.org/10.54772/jomc.02.2025.888
  6. Trinh Cong Ty, Tran Cong Trieu*. Study on the flow behavior on the energy dissipation step downstream of the piano spillway, Nam Si Luong 4 Hydropower Plant. 2025. Journal of Marine Science and Technology, 81(81), 59–66.
    https://jmst.vimaru.edu.vn/index.php/tckhcnhh/article/view/519
  7. Trinh Cong Ty. Research on flow characteristics through rectangular cross-section spillways with short crest using CFD method, Journal of Marine Science and Technology/ ISSN: 1859-316X, year 2025.

https://jmst.vimaru.edu.vn/index.php/tckhcnhh/article/view/520

  1. Trinh Cong Ty*, Pham Chi Thanh. Determining the characteristics of stable water jump on the channel using CFD model, Journal of Marine Science and Technology/ ISSN: 1859-316X, year 2024.

https://jmst.vimaru.edu.vn/index.php/tckhcnhh/article/view/486

  1. Trinh Cong Ty. Influence of cross-sectional shape parameters of square trapezoidal spillway on discharge coefficient, Journal of Marine Science and Technology/ ISSN: 1859-316X, year 2024.

https://jmst.vimaru.edu.vn/index.php/tckhcnhh/article/view/491

  1. Trinh Cong Ty, Tran Cong Trieu*, Pham Chi Thanh. Application of FLOW-3D model to determine the union depth and water jump length on a triangular rough bottom. 2023. Journal of Marine Science and Technology, 74(74), 81–85.
    https://vjol.info.vn/index.php/vimaru/article/download/83106/70796/
  2. Thi Minh Tam Nguyen*, Dinh Lai Trinh, Cong Ty Trinh, Anh Duc Do. Applying MIKE FLOOD model to build flood maps considering changes in land cover, Nhat Le river basin, Journal of Construction Science and Technology/ ISSN: 2615-9058, 2023.

https://doi.org/10.31814/stce.huce2023-17(3V)-11

  1. Trinh Cong Ty, Tran Cong Trieu*, Pham Chi Thanh. Simulation and analysis of the evolution of vortex structure in water jumping on rough bottom using Liutex/Rortex method. 2022. 11th National Conference on Mechanics, 2, 374–382.

https://easychair.org/publications/preprint/bk6lh