• Name: BACH DUONG
  • M/F:  Male
  • Current job status:  Teaching
  • Degree: PhD
  • Academic title – position: 
  • Email: duongb@huce.edu.vn



TRAIN

  • University: Port and Waterway Construction Engineering, Hanoi University of Civil Engineering (1994)
  • Master: Major in Ports and Waterways, Hanoi University of Civil Engineering (2001)
  • PhD: Geotechnical Engineering and Foundation Engineering, Delft University of Technology (Netherlands) (2014)

MAIN RESEARCH DIRECTIONS

  • Reliability in geotechnical and foundation engineering.
  • Port structure.
  • Loads and impacts on port and waterway structures.
  • Concrete and reinforced concrete structures of hydraulic works.
  • Logistics and Supply Chain Management.

WORKING HISTORY

RESEARCH TOPIC

  1. Determination of bearing capacity factor of bored piles by load factor and bearing capacity design method (LRFD) using Monte-Carlo simulation and Bayesian inference (2016) – Hanoi University of Civil Engineering (key), head;
  2. Research on manufacturing hollow concrete to reduce waves to protect island and coastal shores (2019-2020) – Ministry of Construction, participated;
  3. Research on manufacturing high strength, high flow, fast-setting concrete for application in bank protection projects (2020-2021) – Ministry of Construction, participated;
  4. Research on solutions to prevent sedimentation of shipping channels for fishing ports and boat anchorage areas in Phu Yen province and neighboring areas, applied to Tien Chau estuary (2018-2021) – Ministry of Science and Technology, participated;
  5. Research on the wave reduction capacity of the floating dike structure “T-FB” applied in the construction of board protection works and boat mooring areas (2021-2022) – Ministry of Transport, participating;
  6. Research on orientation for developing national standards on loads and impacts on inland waterway works (2024-2025) – Ministry of Transport, Chairman.

BOOKS AND TEXTBOOKS

  1. Hydraulic works in shipyards (2007), Construction Publishing House, participated;
  2. Port planning (2010), Construction Publishing House, participated;
  3. New technology for anti-erosion and coastal protection (2020), Construction Publishing House, editor-in-chief;

PUBLISHED SCIENTIFIC WORKS

  1. Bach Duong, PHAJM van Gelder, KJ Bakker, JK Vrijling. Resistance factor calibration of drilled shafts for bridge foundations, Proceeding of the 10 th International Probability Workshop, 15/16 Nov. 2012, Stuttgart, Germany, pp. 165-187.
  2. Bach Duong, PHAJM van Gelder, MB Hudson. Calibrating shaft and base resistance factors for design of drilled shaft foundations. Proceedings of the European safety and reliability conference, ESREL 2013, September 29-October 2, 2013, Amsterdam, the Netherlands, 2497-2505.
  3. Bach Duong, Pieter van Gelder (2014). Incorporating set-up into LRFD method for drilled shafts. GeoRisk: Assessment and Management of Risk for engineered Systems and Geohazards, Vol.8, No.2, 81-91.
  4. Bach Duong, Pieter van Gelder (2016). Calibrating resistance factors under load and resistance factor design method (LRFD) using Monte-Carlo simulation. Journal of Science and Technology in Civil Engineering, NUCE, No.31 (October 2016), 79-87.
  5. Bach Duong (2020). Determining the quantity of access tubes for quality control of bored pile concrete based on probability approach. Journal of Science and Technology in Civil Engineering, NUCE, Vol.14, No.2, 76-86.
  6. Dinh Van Thuat, Ho Viet Chuong, Bach Duong (2020). Relationship of strength reduction factor and maximum ductility factor for seismic design of one-storey industrial steel frames. Asian Journal of Civil Engineering (2020) 21:841-856.
  7. Le Hai Trung, Nguyen Van Tuan, Tran Thanh Tung, Dang Thi Linh, Nguyen Truong Duy, Bach Duong (2021). Experimental evaluation of wave reduction ability of hollow concrete structures. Journal of Construction Science and Technology, Vol. 15, No. 3V, 43-53.
  8. Bach Duong, Nguyen Duc Manh, Tran Doan Huyen (2024). Calculation of single-anchor sheet pile wall according to OCDI 2020 and 22TCN 207-92 standards, compared with numerical model results. Journal of Geotechnical Engineering, No. 3, 2024.