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Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity as a Renewable Energy with a Proposed Design of Energy Conversion System

Year 2014, Volume: 4 Issue: 2, 445 - 452, 01.06.2014

Abstract

In this paper the results of feasibility study to generate electrical energy from waves of the Bay of Bengal have been discussed. The wave resource assessment, economic conditions, challenges and the cost estimation for power generation are also described. Calculation of Wave energy and an analysis of energy fluctuation at various months of different consecutive years and it is observed that, April to October waves have travelled with a lot of energy and a considerable amount of energy at November to March in Bay of Bengal at Cox’s Bazar, Chittagong. The energy is wave dominated. Due to availability of generated wave, it is possible to generate Power with full pace from April to October and considerable amount can be generated at rest of the months. In the circumstances of Bangladesh energy source research on renewable is most important to mitigate the increasing power demand and a contribution to reduce global warming. In the circumstances of Bangladesh energy source research on renewable is most important to mitigate the increasing power demand and a contribution to reduce global warming. Moreover, a new design methodology of ocean wave energy conversion is described. This design is focused on the velocity of wave and it will captured energy from wave as a thrust force and this force converted as per design. An option has been adopted for hybridization from various renewable sources of that device which can reduces the cost of device and increase the power generation. The method can apply to conversion the energy from the ocean all over the world.

References

  • Richard Boud, “Status and Research and Development Priorities, Wave and Marine Accessed Energy,” UK Dept. of Trade and Industry (DTI), FES-R-132, AEAT/ENV/1054, United Kingdom, 2003.
  • A. W. Clarke, & J. A. Trinnaman, (Eds.), Survey of Energy Resources: 2004. Elsevier Science Limited, 2004.
  • A.F.D.O. Falcão, Wave energy utilization: A review of the technologies. Renewable and sustainable energy reviews, Vol. 14, No. 3, pp.899-918, 2010.
  • “Electric Power from Ocean Waves,” Wavemill Energy Corp., http://www.wavemill.com (accessed Dec. 1 2005).
  • http://hypertextbook.com/facts/1997/EricCheng.shtml
  • AWS Scientific, Inc., April 2002. Long Island’s Offshore Wind Energy Development Potential: A Preliminary Assessment. “Current estimates of the cost to install a 100 MW offshore project range from $150 to $180 million, and energy costs range from six to nine cents per kilowatt-hour.” pp. 27.
  • G. W. Taylor, Using wave power for energy: issues in design and deployment. http://oceanpowertechnologies.com/pdf/montreaux_ energy.pdf
  • Wave Power Feasibility Study, Technical Appendices Electric Resource Plan 2010-2020, Appendix E.
  • Department of Trade and Industry. 09/28/01. "Wave Energy," Department of Trade and Industry. Web Page, http://www.dti.gov.uk/renewable/wave.html
  • California Energy Commission. 09/26/01. "Ocean Energy," May 25, 2001, http://www.energy.ca.gov/development/oceanenergy/index.html
  • Ocean Wave Energy Company (OWECO). 09/26/01. "OWEC-Ocean http://www.owec.com/ Energy Converter,"
  • B.,Van der Zwaan, "Technological Innovation in the Energy Sector: R&D, De-ployment, and Learning-by- Doing." Energy Policy, Vol. 34, No.17, pp. 2601-2608, 2006.
  • J., Vining, Wave Energy Conversions, ECE 699: Advanced Independent Study Report, University of Wisconsin Madison, 2005.
  • T. V. Heath, A review of oscillating water columns. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 370, pp.235-245, 2012.
  • B. Drew, A. R., Plummer, & M. N., Sahinkaya, A review of Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, Vol. 223, No.8, pp.887-902, 2009.
Year 2014, Volume: 4 Issue: 2, 445 - 452, 01.06.2014

Abstract

References

  • Richard Boud, “Status and Research and Development Priorities, Wave and Marine Accessed Energy,” UK Dept. of Trade and Industry (DTI), FES-R-132, AEAT/ENV/1054, United Kingdom, 2003.
  • A. W. Clarke, & J. A. Trinnaman, (Eds.), Survey of Energy Resources: 2004. Elsevier Science Limited, 2004.
  • A.F.D.O. Falcão, Wave energy utilization: A review of the technologies. Renewable and sustainable energy reviews, Vol. 14, No. 3, pp.899-918, 2010.
  • “Electric Power from Ocean Waves,” Wavemill Energy Corp., http://www.wavemill.com (accessed Dec. 1 2005).
  • http://hypertextbook.com/facts/1997/EricCheng.shtml
  • AWS Scientific, Inc., April 2002. Long Island’s Offshore Wind Energy Development Potential: A Preliminary Assessment. “Current estimates of the cost to install a 100 MW offshore project range from $150 to $180 million, and energy costs range from six to nine cents per kilowatt-hour.” pp. 27.
  • G. W. Taylor, Using wave power for energy: issues in design and deployment. http://oceanpowertechnologies.com/pdf/montreaux_ energy.pdf
  • Wave Power Feasibility Study, Technical Appendices Electric Resource Plan 2010-2020, Appendix E.
  • Department of Trade and Industry. 09/28/01. "Wave Energy," Department of Trade and Industry. Web Page, http://www.dti.gov.uk/renewable/wave.html
  • California Energy Commission. 09/26/01. "Ocean Energy," May 25, 2001, http://www.energy.ca.gov/development/oceanenergy/index.html
  • Ocean Wave Energy Company (OWECO). 09/26/01. "OWEC-Ocean http://www.owec.com/ Energy Converter,"
  • B.,Van der Zwaan, "Technological Innovation in the Energy Sector: R&D, De-ployment, and Learning-by- Doing." Energy Policy, Vol. 34, No.17, pp. 2601-2608, 2006.
  • J., Vining, Wave Energy Conversions, ECE 699: Advanced Independent Study Report, University of Wisconsin Madison, 2005.
  • T. V. Heath, A review of oscillating water columns. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 370, pp.235-245, 2012.
  • B. Drew, A. R., Plummer, & M. N., Sahinkaya, A review of Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, Vol. 223, No.8, pp.887-902, 2009.
There are 15 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Mohammad Tarequl Islam This is me

Mohammad Giyas Uddin This is me

Tapan Bihari Chakma This is me

Mohammad Zahedur Rahman Chowdhury This is me

Publication Date June 1, 2014
Published in Issue Year 2014 Volume: 4 Issue: 2

Cite

APA Islam, M. T., Uddin, M. G., Chakma, T. B., Chowdhury, M. Z. R. (2014). Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity as a Renewable Energy with a Proposed Design of Energy Conversion System. International Journal Of Renewable Energy Research, 4(2), 445-452.
AMA Islam MT, Uddin MG, Chakma TB, Chowdhury MZR. Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity as a Renewable Energy with a Proposed Design of Energy Conversion System. International Journal Of Renewable Energy Research. June 2014;4(2):445-452.
Chicago Islam, Mohammad Tarequl, Mohammad Giyas Uddin, Tapan Bihari Chakma, and Mohammad Zahedur Rahman Chowdhury. “Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity As a Renewable Energy With a Proposed Design of Energy Conversion System”. International Journal Of Renewable Energy Research 4, no. 2 (June 2014): 445-52.
EndNote Islam MT, Uddin MG, Chakma TB, Chowdhury MZR (June 1, 2014) Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity as a Renewable Energy with a Proposed Design of Energy Conversion System. International Journal Of Renewable Energy Research 4 2 445–452.
IEEE M. T. Islam, M. G. Uddin, T. B. Chakma, and M. Z. R. Chowdhury, “Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity as a Renewable Energy with a Proposed Design of Energy Conversion System”, International Journal Of Renewable Energy Research, vol. 4, no. 2, pp. 445–452, 2014.
ISNAD Islam, Mohammad Tarequl et al. “Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity As a Renewable Energy With a Proposed Design of Energy Conversion System”. International Journal Of Renewable Energy Research 4/2 (June 2014), 445-452.
JAMA Islam MT, Uddin MG, Chakma TB, Chowdhury MZR. Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity as a Renewable Energy with a Proposed Design of Energy Conversion System. International Journal Of Renewable Energy Research. 2014;4:445–452.
MLA Islam, Mohammad Tarequl et al. “Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity As a Renewable Energy With a Proposed Design of Energy Conversion System”. International Journal Of Renewable Energy Research, vol. 4, no. 2, 2014, pp. 445-52.
Vancouver Islam MT, Uddin MG, Chakma TB, Chowdhury MZR. Feasibility Study of Ocean Wave of the Bay of Bengal to Generate Electricity as a Renewable Energy with a Proposed Design of Energy Conversion System. International Journal Of Renewable Energy Research. 2014;4(2):445-52.