Field Measurement of Fishing Boats Generated Waves

Authors

  • Dedy Triawan Suprayogi Marine Technology Centre, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia Johor Bahru, Johor, Malaysia
  • Omar Yaakob Marine Technology Centre, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia Johor Bahru, Johor, Malaysia
  • Faizul Amri Adnan Marine Technology Centre, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia Johor Bahru, Johor, Malaysia
  • Mohamad Pauzi A. Ghani Marine Technology Centre, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia Johor Bahru, Johor, Malaysia
  • Usman Ullah Sheikh Izzat Ullah Sheikh Microelectronics & Computer Engineering Department, Faculty of Electrical Engineering, Universiti Teknologi Malaysia Johor Bahru, Johor, Malaysia

DOI:

https://doi.org/10.11113/jt.v66.2516

Keywords:

Boat generated wave, wave height, wave angle

Abstract

Ship generated waves can cause banks erosion as well as disturbance on stationary boats. Studies have shown that the boat generated waves are dependent on and affected by environmental factors and vessel parameters. The main environmental factors are tidal and current direction, and for vessel parameters are speeds and hullforms. This paper describes a full-scale experimental work to measure wave heights and wave angle direction on boat generated waves.  The measurement method used in this paper is based on the analysis of digital video recordings and image processing techniques.

References

Whittaker, T., Doyle, R., Elsaesser, B. 2000. A Study of Leading Long Period Waves in Fast Ferry Wash. Proc. Hydrodynamics of High Speed Craft–Wake Wash and Motions Control, November 7-8, London: RINA.

Jones, B. 2011. Victim of River Bank Erosion, 28 December 2011, http://www.geolocation.ws/v/W/4d9a1372878656275e02ad2d/victim-of-river-bank-erosion-the-wake-of/en.

Suprayogi, D. T., Yaakob, O., Abdul Ghani, M. P., Adnan, F. A. 2011. The effect of environmental factors and vessel parameters on ship generated waves, Marine Science and Technology Conference (MARSTEC), September 12-13. Kuala Lumpur, Malaysia.

Stumbo, S., Fox, K. Elliott, L. 2000. An Assessment of Wake Wash Reduction of Fast Ferries at Supercritical Froude Numbers and at Optimized Trim. Proceeding of the International Conference on Hydrodynamic of High Speed Craft, November 7-8, London: RINA.

Stumbo, S., Fox, K., Elliot, L. 1999. Hull Form Considerations in the Design of Low Wake Wash Catamarans. Fast 99–Fifth International Conference on Fast Sea Transportation, August 31st–September 2nd, Seattle, US.

Stumbo, S., Fox, K., Dvorak, F., Elliot, L. 1999. The Prediction, Measurement, and Analysis of Wake Wash from Marine Vessels. Marine Technology. 36(4): 248–260.

Macfarlane, G., Renilson, M. 1999. Wave Wake- A Rational Method For Assessment. The Royal Institution of Naval Architects International Conference on Coastal Ships and Inland Waterways, London, UK.

Fox Associate. 2002. M/V Condor Express–Wake Wash Measurement Trials, Bainbridge Island, Washington, USA.

Belibassakis, K. A. 2003. A Coupled-mode Technique for the Transformation of Ship-Generated Waves Over Variable Bathymetry Regions. Applied Ocean Research. 25: 321–336.

Osborne, P. D., Hericks. D. B., Cote. J. M. 2007. Full-Scale Measurements of High Speed Passenger Ferry Performance and Wake Signature, OCEAN 2007, September 29–October 4. Vancouver, BC, Canada. 1–10.

Velegrakis, A. F., M. I. Vousdoukas, Vagenas, A. M., Karambas, Th., Dinou, K., Zarkadas, Th. 2007. Field Observations of Waves Generated By Passing Ships: A Note. Coastal Engineering. 54(4): 369–375.

Kumar, S. A., Heimann, J., Hutchison, B. L., Fenical, S. W. 2007.

Ferry Wake Wash Analysis in San Francisco Bay, Int. Ports Conference (PORTS 2007) American Society of Civil Engineers (ASCE), March 25-28. San Diego, CA, US.

Abdul Ghani, M. P., Abdul Rahim, M. N. 2008. The Prediction of Wake Wash in the Towing Tank. JurnalMekanikal. 26: 129–140.

Dam, K. T., Tanimoto, K., Fatimah, E. 2008. Investigation of Ship Waves in a Narrow Channel. Journal of Marine Science Technology.. 13(3): 223–230.

Soomere, T., Parnell, K. E., Didenkulova, I. 2009. Implications of Fast Ferry Wakes for Semi Sheltered Beaches: A Case Study at Aegna Island, Baltic Sea. Journal of Coastal Research. 56: 138–132.

Soomere, T., Parnell, K. E., Didenkulova, I. 2011. Water Transport in Wake Waves From High Speed Vessels. Journal of Marine Systems. 88: 74–81.

Fadhli, M., Ahmad, M. F., Yusoff, M., Husain, M. L., Wan Nik, WHN.,Muzathiz, A. M. 2011. An Investigation of Boat Wakes Wave Energy: A case Study of Kemaman River Estuary, Proceedings of UMTAS 2011, 11-13 July 2011. Kuala Terengganu, Malaysia.

Kandasamy, M., Peri, D., Ood, SK., Carries, P., Stern, F., Campana, E. E., Osborn, P., Cote, J., Macdonald, N., Waal, N. 2011. Multi-fidelity Optimation of a High-Speed Foil-assisted Semi-Planning Catamaran for Low Wake. J Mar SciTechnol. 16: 143–156.

Yaakob, O., Nasiruddin, A., Abdul Ghani, M. P., Mat Lazim, T., Abdul Mukti, M. A., Ahmed, Y. M. 2012. Parametric Study of a Low Wake-Wash Inland Waterways Catamaran, ScientiaIranica–Transactions B: Mechanical Engineering. 19(3): 463–471.

Macfarlane, G. J. 2012. Marine Vessel Wave Wake: Focus on Vessel Operations within Sheltered Waterways, PhD Thesis–Australian Maritime College, University of Tasmania, Australia.

Maver K, Podgornik, R. 2004. Kelvin Ship Waves, University of Ljubljana, Slovenia.

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Published

2014-01-01

Issue

Section

Science and Engineering

How to Cite

Field Measurement of Fishing Boats Generated Waves. (2014). Jurnal Teknologi (Sciences & Engineering), 66(2). https://doi.org/10.11113/jt.v66.2516