Momchil Terziev

Momchil Terziev

Lecturer

Publications

  1. Le Strat, M. and Terziev, M., 2025. Scale effects on ship vertical force and trim moment in calm water. Physics of Fluids, 37(1).
  2. Choi, W.S., Min, G.S., Han, S.S., Yun, H.C., Terziev, M., Dai, S., Kim, D. and Song, S., 2024. Resistance and speed penalty of a naval ship with hull roughness. Ocean Engineering, 312, p.119058.
  3. Liu, Y., Zhao, G., Terziev, M., Dai, D., Feng, A. and Yuan, Z., 2024. Unsteady hydrodynamics of a surface piercing and fully submerged body when entering a lock. Physics of Fluids.
  4. Terziev, M., Incecik, A., 2024, Numerical modelling of ship-generated solitary waves. Applied Ocean Research, 148, p.104016.
  5. Reid, P., Terziev, M., Tezdogan, T., Incecik, A., 2024 The effect of flow stratification on ship performance: a numerical study. Ships and Offshore Structures
  6. Terziev, M., Liu, Y., Yuan, Z., Incecik, A., 2024 ‘The resistance of a trans-critically accelerating ship in shallow water’. Ship Technology Research, 74(1).
  7. Terziev, M., Mosse, J., Norman, R., Pazouki, K., Lord, R., Tezdogan, T., Thompson, C., Konovessis, D. and Incecik, A., 2023. ‘Review of UK inland waterways transportation from the hydrodynamics point of view’. Urban Planning, 8(3).
  8. Song, S., Terziev, M., Tezdogan, T., De Marco Muscat-Fenech, C., Incecik, I., ‘Investigating roughness effects on ship resistance in shallow waters’., Ocean Engineering.
  9. Cambell, R., Terziev, M., Tezdogan, T. and Incecik, A., 2022. ‘Computational fluid dynamics predictions of draught and trim variations on ship resistance in confined waters’. Applied Ocean Research, 126, p.103301. https://doi.org/10.1016/j.apor.2022.103301
  10. Iqbal, M., Terziev, M., Tezdogan, T. and Incecik, A., 2022. ‘Operability Analysis of Traditional Small Fishing Boats in Indonesia with Different Loading Conditions’. Ships and Offshore Structures, pp.1-20. https://doi.org/10.1080/17445302.2022.2107300
  11. Terziev, M., Tezdogan, T., Demirel, Y.K., Muscat-Fenech, C.D.M. and Incecik, A., 2022. ‘Numerical investigation of depth-varying currents on ship hydrodynamics in confined water’. International Journal of Naval Architecture and Ocean Engineering, p.100461. https://doi.org/10.1016/j.ijnaoe.2022.100461
  12. Andersson, J, Shiri, A, Bensow, R, Yixing, J, Chengsheng, W, Gengyao, Q, Deng, G, Queutey, P, Xing-Kaeding, Y, Horn, P, Lücke, T, Kobayashi, H, Ohashi, K, Sakamoto, N, Yang, F, Gao, Y, Windén, B, Meyerson, M, Maki, K, Turnock, S, Hudson, D, Banks, J, Terziev, M, Tezdogan, T, Vesting, F, Hino, T, Werner, S. 2020. Ship-scale CFD benchmark study of a pre-swirl duct on KVLCC2. Applied Ocean Research, 123 (2022): 103134. https://doi.org/10.1016/j.apor.2022.103134
  13. Terziev, M, Tezdogan, T & Incecik, A 2022, ‘Scale effects and full-scale ship hydrodynamics: a review’, Ocean Engineering, vol. 245, 110496. https://doi.org/10.1016/j.oceaneng.2021.110496
  14. Jiao, J, Huang, S, Tezdogan, T, Terziev, M & Guedes Soares, C 2021, ‘Slamming and green water loads on a ship sailing in regular waves predicted by a coupled CFD–FEA approach’, Ocean Engineering, vol. 241, 110107. https://doi.org/10.1016/j.oceaneng.2021.110107
  15. Terziev, M, Tezdogan, T, Demirel, YK, Villa, D, Mizzi, S & Incecik, A 2021, ‘Exploring the effects of speed and scale on a ship’s form factor using CFD’, International Journal of Naval Architecture and Ocean Engineering, vol. 13, pp. 147-162. https://doi.org/10.1016/j.ijnaoe.2020.12.002
  16. Terziev, M, Tezdogan, T & Incecik, A 2021, ‘Modelling the hydrodynamic effect of abrupt water depth changes on a ship travelling in restricted waters using CFD’, Ships and Offshore Structures , vol. 16, no. 10, pp. 1087-1103. https://doi.org/10.1080/17445302.2020.1816731
  17. Terziev, M, Tezdogan, T & Incecik, A 2021, ‘A short review of scale effects in ship hydrodynamics with emphasis on CFD applications’, Paper presented at International Conference on Postgraduate Research in Maritime Technology , 3/11/21 - 4/11/21. https://pureportal.strath.ac.uk/en/publications/a-short-review-of-scale-effects-in-ship-hydrodynamics-with-emphas
  18. Andresson, J, Shiri, AA, Bensow, R, Yixing, J, Chengsheng, W, Gengyao, Q, Deng, G, Queutey, P, Xing-Kaeding, Y, Horn, P, Lücke, T, Kobayashi, H, Ohashi, K, Sakamoto, N, Yang, F, Gao, Y, Winden, B, Meyerson, MG, Maki, KJ, Turnock, S, Hudson, D, Banks, J, Terziev, M, Tezdogan, T, Vesting, F, Hino, T & Werner, S 2021, ‘Ship-Scale CFD Benchmark Study of a Pre-Swirl Duct on KVLCC2’, Applied Ocean Research.
  19. Terziev, M, Tezdogan, T, Incecik, A & De Marco Muscat-Fenech, C 2021, ‘Investigating the influence of sheared currents on ship hydrodynamics in confined water using Computational Fluid Dynamics’, Paper presented at 9th International Conference on Computational Methods in Marine Engineering, 2/06/21 - 4/06/21.
  20. Terziev, M, Tezdogan, T & Incecik, A 2021, ‘A numerical assessment of the scale effects of a ship advancing through restricted waters’, Ocean Engineering, vol. 229, 108972. https://doi.org/10.1016/j.oceaneng.2021.108972
  21. Nisham, A, Terziev, M, Tezdogan, T, Beard, T & Incecik, A 2021, ‘Prediction of the aerodynamic behaviour of a full-scale naval ship in head waves using Detached Eddy Simulation’, Ocean Engineering, vol. 222, 108583. https://doi.org/10.1016/j.oceaneng.2021.108583
  22. Wu, G, Incecik, A, Tezdogan, T, Terziev, M & Wang, L 2021, ‘Long-voyage route planning method based on multi-scale Visibility Graph for autonomous ships’, Ocean Engineering, vol. 219, 108242. https://doi.org/10.1016/j.oceaneng.2020.108242
  23. Terziev, M, Elsherbiny, K, Tezdogan, T & Incecik, A 2020, Experimental and numerical study of an obliquely towed ship model in confined waters. in ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering., OMAE2020-18466, V06AT06A046, ASME, New York, NY., 39th International Conference on Ocean, Offshore & Arctic Engineering, Florida, United States, 28/06/20. https://doi.org/10.1115/OMAE2020-18466
  24. Terziev, M, Tezdogan, T & Incecik, A 2020, ‘A posteriori error and uncertainty estimation in computational ship hydrodynamics’, Ocean Engineering, vol. 208, 107434. https://doi.org/10.1016/j.oceaneng.2020.107434
  25. Terziev, M, Zhao, G, Tezdogan, T, Yuan, Z & Incecik, A 2020, ‘Virtual replica of a towing tank experiment to determine the Kelvin half-angle of a ship in restricted water’, Journal of Marine Science and Engineering, vol. 8, no. 4, 258. https://doi.org/10.3390/jmse8040258
  26. Elsherbiny, K, Terziev, M, Tezdogan, T, Incecik, A & Kotb, M 2020, ‘Numerical and experimental study on hydrodynamic performance of ships advancing through different canals’, Ocean Engineering, vol. 195, 106696. https://doi.org/10.1016/j.oceaneng.2019.106696
  27. Terziev, M, Tezdogan, T & Incecik, A 2019, ‘Influence of mixed flows on ship hydrodynamics in dredged channels’, Paper presented at 38th International Conference on Ocean, Offshore & Arctic Engineering, Glasgow, United Kingdom, 9/06/19 - 14/06/19.
  28. Terziev, M, Tezdogan, T & Incecik, A 2019, ‘A geosim analysis of ship resistance decomposition and scale effects with the aid of CFD’, Applied Ocean Research, vol. 92, 101930. https://doi.org/10.1016/j.apor.2019.101930
  29. Terziev, M, Tezdogan, T & Incecik, A 2019, ‘Application of eddy-viscosity turbulence models to problems in ship hydrodynamics’, Ships and Offshore Structures. https://doi.org/10.1080/17445302.2019.1661625
  30. Tezdogan, T, Terziev, M, Oguz, E & Incecik, A 2018, ‘Numerical analysis of the behaviour of vessels advancing through restricted shallow waters’, Paper presented at 3rd International Symposium on Naval Architecture and Maritime, Istanbul, Turkey, 23/04/18 - 25/04/18.
  31. Terziev, M, Tezdogan, T, Oguz, E, Gourlay, T, Demirel, YK & Incecik, A 2018, ‘Numerical investigation of the behaviour and performance of ships advancing through restricted shallow waters’, Journal of Fluids and Structures, vol. 76, pp. 185–215. https://doi.org/10.1016/j.jfluidstructs.2017.10.003