Open Access

Aerodynamic Performance of a New Double-Flap Wing Sail

Dongqin Li
Dongqin Li
, 
Yili Zhang
Yili Zhang
, 
Peng Li
Peng Li
, 
Jingjing Dai
Jingjing Dai
 and 
Guohuan Li
Guohuan Li
   | Dec 31, 2019
Polish Maritime Research's Cover Image
About this article
Previous Article
Next Article
Cite
Published Online: Dec 31, 2019
Page range: 61 - 68
DOI: https://doi.org/10.2478/pomr-2019-0067
Keywords
© 2019 Dongqin Li et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

1. Scupi A., Avital E. J., Dinu D., et al. (2015): Large Eddy Simulation of Flows around a Kite Used as an Auxiliary Propulsion System. Journal of Fluids Engineering, Vol. 137(10), 1-8.10.1115/1.4030482 Search in Google Scholar

2. Naaijen P., Koster V., Dallinga V.(2006): On the Power Savings by an Auxiliary Kite Propulsion System. International Shipbuilding Progress, Vol. 53(4), 255-279. Search in Google Scholar

3. Grosan N., Dinu D. (2010): Considerations Regarding Kite Towed Ship’s Manoeuvring. Proceedings of the 3rd International Conference on Maritime and Naval Science and Engineering, 28-33, WSEAS, Constanta, Romania. Search in Google Scholar

4. Li Q., Nihei Y., Nakashima T., Ikeda Y. (2015): A Study on the Performance of Cascade Hard Sails and Sail-Equipped Vessels. Ocean Engineering, Vol. 98, 23-31.10.1016/j.oceaneng.2015.02.005 Search in Google Scholar

5. Bergeson L., Greenwald K.C. (1985): Sail Assists Developments 1979–1985. Journal of Wind Engineering and Industrial Aerodynamics, Vol. 19(1-3), 45-114.10.1016/0167-6105(85)90056-X Search in Google Scholar

6. Scott D. (1985): Sail-Assist for Cargo Ships: Computer Controlled. Popular Science, Vol. 226, 68(3). Search in Google Scholar

7. Low H. T., Luo S. C., Winoto S. H. (1991): Flow Past a Wind-assisted Ship Propulsion Device. Ocean Engineering, Vol. 18(6), 555-565.10.1016/0029-8018(91)90009-F Search in Google Scholar

8. Ueno M., Tsujimoto M., Takekawa M., Fujita H., et al. (2005): Fundamental Research for Development of an Advanced Sail-Assisted Ship. IEEE Techno-Ocean ‘05, Vol. 2, 1102-1109. Search in Google Scholar

9. Ouchi K., Uzawa K., Kanai A. (2011): Huge Hard Wing Sails for the Propulsor of Next Generation Sailing Vessel. The Second International Symposium on Marine Propulsors, Hamburg, Germany, June 2011. Search in Google Scholar

10. Ouchi K., Uzawa K., Kanai A., Katori M. (2013): “Wind Challenger”: The Next Generation Hybrid Sailing Vessel. The Third International Symposium on Marine Propulsors, Launceston, Tasmania, Australia, May 2013, 562-567. Search in Google Scholar

11. Burden A., Lloyd T., Mockler S., et al. (2010): Concept Design of a Fast Sail Assisted Feeder Container Ship. Main Report of Group Design Project, University of Southampton, School of Engineering Sciences, 58-59. Search in Google Scholar

12. Lin Y.(2013): Design and Research on a Flap-Wing Sail for a Wind-Assisted Vessel. Master’s thesis, Dalian Marine University, Dalian, China (in Chinese). Search in Google Scholar

13. Guo S.(2012): Optimized Design of a Wingsail and Study of Energy-Saving Applications for a Sail-Assisted Ship. Master’s thesis, Dalian Marine University, Dalian, China (in Chinese). Search in Google Scholar

eISSN:
2083-7429
Language:
English
Publication timeframe:
4 times per year
Journal Subjects:
Engineering, Introductions and Overviews, other, Geosciences, Atmospheric Science and Climatology, Life Sciences
Journal RSS Feed