Wave Energy Harnessing for Marine Propulsion - An Approach Towards Energy Efficient Shipping
Author: Md Aminul Islam*, Obi Kumar Nath, Mohammad Saidee HasanDOI: doi.org/10.70279/bmj-v4-i1-1007
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The quest for clean sources of energy is still too far from the challenge faced by the modern world of the 21st century. An increasing amount of industrialization is continuously resulting in a gradual depletion of fossil fuel and extensive damage to the environment. The shipping sector, one of the biggest and ever-expanding industries of the world, almost exclusively uses fossil fuels to meet its energy needs. Due to the nature of this industry, there is always availability of waves at sea which can be harnessed and utilized as a source of energy though it hasn’t been utilized yet in vast canvas. Wave energy can be considered as a robust form of energy and an effective alternative to fossil fuel if it can be properly harnessed. This study focused on how energy could be produced from ocean waves and could be used efficiently in the propulsion system. Methodology revealed here is basically to show the viability of the application of Wave Energy Converter (WEC) technologies in a vessel while at anchorage and port, since the application of WEC during sailing of a vessel hasn’t still been proved as an efficient option because of vessel size associated with additional drag resistance. Aim of this paper is to elucidate mathematically if the harnessing is possible at anchorage time and additionally describes the theoretical prospect of mass implementation possibility at the port to affirm energy-efficient shipping. The outcome of this research could lead to an energy efficient and economical propulsion system with the utilization of a renewable energy source as well as a reduction in carbon dioxide emissions.
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| Serial | 3 |
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| Total Citation | Click here to view citation data |
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| Article Page Views | 1088 |
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| Article Volume | Volume 04 |
| Article Issue | Issue 1 |
| Article DOI | doi.org/10.70279/bmj-v4-i1-1007 |
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| Article Slug | wave-energy-harnessing-for-marine-propulsion-an-approach-towards-energy-efficient-shipping |
| Article Keyword | Emission Reduction, Energy Efficient Shipping, Renewable Energy, Wave Energy Conversion |
| Article Entry Time | 16:08:51 |
| Article References | Babarit J., Hals J., On the maximum and actual capture width ratio of wave energy converters, Abstract accepted for publication in Proc. of the 9th European Wave and Tidal Energy Conference, Southampton, 5–9 September 2011. Donker, Herwaarden, Stuurman, Zutphen. Energy from the sea for seagoing vessels. Rotterdam Miniport University of Applied Sciences, Rotterdam. January 2010. Drew, Sahinkaya, R. plummer. A review of wave energy converter technology. In Proceedings of the Institution of Mechanical Engineers Part A Journal of Power and Energy,Sage:UK, December 2009. Englund, Klas. GreenWave; A concept for a sustainable energy station for offshore fish farms. KTH Industrial Technical Management, Stockholm, 2012. Falnes, J. A review of wave-energy extraction.Mar. Struct., 2007, 20, 185–201 Geoghegan, J., Boat moved only by waves, Sails to a seafaring first, The New York Times, July 8, 2008. Huang, Wu, Hsu, Guo,Chiu.Effective Energy-Saving Device of Eco-Ship by Using Wave Propulsion. National Taiwan University. J. Brooke. Wave energy conversion, volume 6, Elsevier ocean engineering book series. Elsevier, Oxford,UK, 2003. Johnson, Hannes. Towards understanding energy efficiency in shipping, Thesis for the degree of Licentiate in Engineering, Chamlers University ofTechnology, Sweden, 2013. Klinteberg, Ludvig af. Wave Energy Propulsion for Pure Car and Truck Carriers (PCTCs). Master thesis, Stockholm: KTH Centre for Naval Architecture, 2009. Mueller, Dr Markus. Electrical machines for renewable energy converters. September 2011. Multon, Bernard. eds, Marine Renewable Energy Handbook. London: ISTE, 2012. Nachev, Aleksandar. Comparative analysis of winch-based wave energy converter. Bachelor thesis, KTH Industrial engineering and management Machine Design, Stockholm, 2017. Nielsen, K. Ocean Energy Technology Study; Technical Report No.1 for the Alliance for Offshore Renewables; Danish Wave Energy Center: Hanstholm, Danmark, 2012. Robertson,Hiles,Luczko,Buckham. Quantifying wave power and wave energy converter array production potential. International Journal of Marine Energy, 2015. Rusu, Egen. Evaluation of the Wave Energy Conversion Efficiency in Various Coastal Environments. In the proceedings of the 1st International e-Conference on Energies, 2013 Salimullah,Ellahi Rafi,Sheikh. Prospects of Wave power in Bangladesh. American Journal of Engineering Research, volume-3, issue-5, 2014. Samrat, Rahaman, Mamun,Adib, Badhan,Ahmed, Wave Energy in Bangladesh, in proceedings of ECERE, Electrical & Communication Engineering and Renewable Energy; CUET-Chittagong University of Engineering, 2014. Shafiul Bari, Interviewed by Md. Aminul Islam, 15 July 2018. Sommer, Dr. rer. nat. Jörg. Ship propulsion by renewable energies available at sea: January 2013,23. Thorpe, T. W. A brief review of wave energy, Technical report no. R120, Energy Technology Support Unit (ETSU), a report produced for the UK Department of Trade and Industry, 1999. Waters, Rafael. 2008. Energy from Ocean Waves Full Scale Experimental Verification of A Wave Energy Converter. Department of engineering science, Upsala University, Upsala, Sweden. |