UTP Scholars: Ts. Dr Teh Hee Min


Office Address
13-03-22
Universiti Teknologi PETRONAS
Bandar Seri Iskandar, 32610 Perak
P:60 5-368 7302
Email: heemin.teh@utp.edu.my
Scopus
Author ID
Document Count
40
Total Citations
181
h-Index
8
Co-authors
48
Google Scholar Citations
Author Profile URL
Citations
327
h-Index
10
Research Gate
Author Profile URL
Publications
33
Citations
198
Reads
9,673

As at November 2023

Research Projects:
  • Hydraulic Study for the Proposed Reclamation of a Runway Extension and Artificial Bird Island at Pulau Layang-Layang, MALAYSIA
  • Hydraulic Study for Site Selection and Feasibility of the Proposed Jetty and Marina Complex in Melaka, MALAYSIA
  • Application of a Computer Model in Predicting the Effectiveness of a Beach Drainage System at Batu 5, Port Dickson, MALAYSIA
  • Hydraulic Model Investigation of Tailrace Outfall Structures, Damaged Pond Invert Areas and Associated Design Works of Proposed Rehabilitation Works of the Re-regulating Pond for Pergau Hydroelectric Scheme, MALAYSIA
  • Design of Rock Revetment for Coastal Protection at Coral Beach, Pulau Pangkor (RM10,700)
  • Expert Review of DOA Risk Definition Development under Magellan 2.0

Membership:
  • Professional Technologist (Marine Technology)
  • Chartered Engineer (under IMarEST
  • Member, Institute of Marine Engineering, Science and Technology
  • Graduate Member, Institute of Engineers, Malaysia
  • Graduate Engineer, Malaysian Board of Engineers

Industrial Experience:
  • 1 Year 9 Month with Industry
  • 21 Years with Academia (research, training & teaching)

Courses Teaching:
    UNDERGRADUATE LEVEL
  • VCB4223/VDB4213 Ocean and Coastal Engineering
  • VCB4113/VDB4223 Design of Coastal Structures
  • VDB4233 Coastal Planning and Management
  • VDB3043 Hydrology
  • VCB1053/VEB1052 Engineering Fluid Mechanics
  • VDB1023 Engineering Mechanics
  • VAB2093 Environmental Engineering
  • EVB4053 Coastal and Offshore Engineering
  • MBA
  • VAM5113 Wave Hydrodynamics
  • VAM5373 Coastal Engineering and Sediment Transport
  • ZAM5097 Research Project II

Team Member:
  • Effect of Marine Growth and Sacrificial Anodes on the Wave Forces Acting on Jacket Platform Members
  • Non-Newtonian Tsunami Model: Revolution in a Lattice Boltzmann Method for Shallow Water Equation
  • Effect of Marine Growth and Sacrificial Anodes on the Wave Forces Acting on Jacket Platform Members

Research Grants Evaluations:
  • STIRF (2012-2013) Hydraulic characteristics of a large-scale floating breakwater for wave protection
  • YUTP (2013-2015) Novel floating breakwater for wave protection of onshore and offshore facilities
  • i-Gen (2014-2015) Design of an innovative rapidly installed floating wave attenuator
  • e-Science (2015-2017) Non-Newtonian Tsunami Model: Revolution in a Lattice Boltzmann Method for Shallow Water Equation

Title:
Senior Lecturer

Specialization:
  • ​​Coastal Engineering
  • ​Water Resorces Engineering
  • ​Ocean Engineering

Qualifications:
  • 1999, Degree of Engineering (Civil Engineering) by Universiti Teknologi Malaysia
  • 2002, Master of Engineering (Coastal and Maritime) by Universiti Teknologi Malaysia
  • 2012, PhD (Coastal and Ocean Engineering), University of Edinburgh, UK

Other Information:

Short Biography:
Dr Teh Hee-Min graduated from Universiti Teknologi Malaysia with a bachelors degree in civil engineering and a Masters degree in coastal and maritime engineering. He was then awarded a PhD in coastal engineering from the University of Edinburgh in 2013. He is currently a Senior Lecturer of Universiti Teknologi PETRONAS, Malaysia. His main research interests are coastal hydrodynamics and morphology, marine renewable energy, evaporation control and physical modeling. Dr. Teh secured 15 international, national and internal research grants amounting to a total of RM1.5 million. He owns an IP of a floating breakwater design that won him several international awards. He published more than 60 journals and conference articles. He is also the reviewers of a number of international journals and research proposals. He is the IMarEST Chartered Engineer since 2013.


Number of items: 27.

Mohd Anuar, N. and Shafiai, S.H. and Teh, H.M. and Hashim, A.M. (2023) Assessment of Coastal Vulnerability Index Under Storm Surge and Sea Level Rise Impact on the East Coast of Johor. Lecture Notes in Civil Engineering, 365 LN. pp. 223-237.

Teh, H.M. and Al-Towayti, F.A.H. and Venugopal, V. and Ma, Z. (2023) Interaction of Waves with a Free-Surface Semicircular Breakwater: Experimental Investigation and Empirical Models. Journal of Marine Science and Engineering, 11 (7).

Roslan, M.N.A.B. and Teh, H.M. and Al-Towayti, F.A.H. (2023) Numerical Simulations of Wave Diffraction Around a Low-Crested Semicircular Breakwater. Lecture Notes in Civil Engineering, 293. pp. 421-433.

Zhai, G. and Bao, J. and Ma, Z. and Yang, Y. and Teh, H.M. (2022) A study of the wave impact loads on a fixed column-slab combined structure with a GPU-accelerated SPH method. Ships and Offshore Structures, 17 (4). pp. 828-839. ISSN 17445302

Teh, H.M. and Silavaraj, T. and Ul Hassan, S.S. and Pereira, E.J. (2021) Investigation on motion responses of a floating wave barrier in a wave flume subjected to regular wave action. Lecture Notes in Civil Engineering, 132. pp. 281-288. ISSN 23662557

Pereira, E.J. and Teh, H.M. and Chan, W.L. and Silavaraj, T. (2020) Performance Efficiency of a Membrane-Type Floating Breakwater for Protection of Coastal and Offshore Facilities. In: UNSPECIFIED.

Hassan, N.M.K.N. and Kamel, N.A.M.N.M. and Pauzi, M.F. and Teh, H.M. (2018) Construction Technology Used for the Reclamation of Seri Tanjung Pinang (Phase 2). In: UNSPECIFIED.

Pereira, E.J. and Teh, H.M. and Manoharan, L.S. and Lim, C.H. (2018) Design Optimization of a Porous Box-Type Breakwater Subjected to Regular Waves. In: UNSPECIFIED.

Teh, H.M. and Philip, A.K. and Jaafar, A. and Shafiai, S.H. and Sahimy, M.R.M. and Rashidi, A.H.M. (2017) Impingement of NEWTONIAN and non-Newtonian dry-bed bores on a vertical structure. In: UNSPECIFIED.

Manoharan, L.S. and Teh, H.M. and Lim, C.H. (2017) Wave transmission of submerged breakwaters consisting multiple pipes. ARPN Journal of Engineering and Applied Sciences, 12 (20). pp. 5807-5810. ISSN 18196608

Hassan, S.S. and Teh, H.M. and Kurian, V.J. (2016) Hydraulic efficiency of a pile-supported free surface breakwater subjected to random waves. In: UNSPECIFIED.

Philip, A.K. and Teh, H.M. and Shafiai, S.H. and Jaafar, A. and Rashidi, A.H.M. (2016) Rheological behavior of Tsunami run-up water containing alluvial deposit at coastline of Kedah, Malaysia. In: UNSPECIFIED.

Gupta, S. and Teh, H.M. and Hashim, A.M. and Sulaiman, R.B.R. (2016) Wave transmission characteristics of sand containers used as submerged breakwaters. In: UNSPECIFIED.

Teh, H.M. and Venugopal, V. (2015) Optimization of hydraulic efficiency of a free surface semicircular breakwater using wave screens. In: UNSPECIFIED.

Teh, H.M. and John, K.V. and Hashim, A.M. (2014) Hydraulic investigation of the H-type floating breakwater. In: UNSPECIFIED.

Teh, H.M. and Hashim, A.M. (2014) Submerged modular breakwaters for coastal protection. In: UNSPECIFIED.

Teh, H.M. (2014) Wave transmission over a submerged porous breakwater: An experimental study. Applied Mechanics and Materials, 567. pp. 319-324. ISSN 16609336

Teh, H.M. and Mohammed, N.I. (2013) Experimental study on wave dampening ability of floating breakwaters. Advanced Materials Research, 785-78. pp. 1253-1257. ISSN 10226680

Teh, H.M. and Ismail, H. (2013) Hydraulic characteristics of a stepped-slope floating breakwater. In: UNSPECIFIED.

Teh, H.M. (2013) Hydraulic performance of free surface breakwaters: A review. Sains Malaysiana, 42 (9). pp. 1301-1310. ISSN 01266039

Teh, H.M. and Venugopal, V. and Bruce, T. (2013) Performance enhancement of a perforated free surface semicircular breakwater. In: UNSPECIFIED.

Teh, H.M. and Venugopal, V. (2013) Performance evaluation of a semicircular breakwater with truncated wave screens. Ocean Engineering, 70. pp. 160-176. ISSN 00298018

Teh, H.M. and Ismail, H. (2013) Performance evaluation of arrays of stepped-slope floating breakwater. In: UNSPECIFIED.

Teh, H.M. and Venugopal, V. and Bruce, T. (2012) Performance analysis of composite semicircular breakwaters of different configurations and porosities. In: UNSPECIFIED.

Teh, H.M. and Mohammed, N.I. (2012) Wave interactions with a floating breakwater. In: UNSPECIFIED.

Teh, H.M. and Venugopal, V. (2012) Wave transformation by a perforated free surface semicircular breakwater in irregular waves. In: UNSPECIFIED.

Teh, H.M. and Venugopal, V. (2012) Wave transformation by a perforated free surface semicircular breakwater in irregular waves. CRC Press, pp. 207-210. ISBN 9780203388075; 9780415643429

This list was generated on Thu Dec 26 06:02:51 2024 +08.