Energy Efficient and Environmentally Friendly Hybrid Conversion of Inland Passenger Vessel

1. M. C. Díaz-de-Baldasano, F. J. Mateos, L. R. Núnez-Rivas, and T. J. Leo, “Conceptual design of offshore platform supply vessel based on hybrid diesel generator-fuel cell power plant,” Appl. Energy, vol. 116, pp. 91-100, 2014.10.1016/j.apenergy.2013.11.049Search in Google Scholar

2. G. Sattler, “Fuel cells going on-board,” J. Power Sources, vol. 86, no. 1, pp. 61-67, 2000. 10.1016/S0378-7753(99)00414-0Search in Google Scholar

3. A. Psoma and G. Sattler, “Fuel cell systems for submarines: From the first idea to serial production,” J. Power Sources, vol. 106, no. 1-2, pp. 381-383, 2002.10.1016/S0378-7753(01)01044-8Search in Google Scholar

4. C. H. Choi et al., “Development and demonstration of PEM fuel-cell-battery hybrid system for propulsion of tourist boat,” Int. J. Hydrogen Energy, vol. 41, no. 5, pp. 3591-3599, 2016.Search in Google Scholar

5. Y. M. A. Welaya, M. M. El Gohary, and N. R. Ammar, “A comparison between fuel cells and other alternatives for marine electric power generation,” Int. J. Nav. Archit. Ocean Eng., vol. 3, no. 2, pp. 141-149, 2011.10.2478/IJNAOE-2013-0057Search in Google Scholar

6. N.-C. Shih, B.-J. Weng, J.-Y. Lee, and Y.-C. Hsiao, “Development of a small fuel cell underwater vehicle,” Int. J. Hydrogen Energy, vol. 38, no. 25, pp. 11138-11143, 2013.Search in Google Scholar

7. N. C. Shih, B. J. Weng, J. Y. Lee, and Y. C. Hsiao, “Development of a 20 kW generic hybrid fuel cell power system for small ships and underwater vehicles,” Int. J. Hydrogen Energy, vol. 39, no. 25, pp. 13894-13901, 2014.Search in Google Scholar

8. C. R. Lashway, A. T. Elsayed, and O. A. Mohammed, “Hybrid energy storage management in ship power systems with multiple pulsed loads,” Electr. Power Syst. Res., vol. 141, pp. 50-62, 2016.10.1016/j.epsr.2016.06.031Search in Google Scholar

9. J. Wilflinger, P. Ortner, R. Johannes, K. Universität, M. Aschaber, and S. Motors, Simulation and control design of hybrid propulsions in boats, vol. 43, no. Ljung. IFAC, 1999.10.3182/20100915-3-DE-3008.00001Search in Google Scholar

10. G. Seenumani, H. Peng, and J. Sun, “A reference governorbased hierarchical control for failure mode power management of hybrid power systems for all-electric ships,” J. Power Sources, vol. 196, no. 3, pp. 1599-1607, 2011.Search in Google Scholar

11. Dante D’Orazio, “An inside look at the world’s largest solarpowered boat,” The Verge, vol. 2013, pp. 1-13, 2013.Search in Google Scholar

12. W. Sihn, H. Pascher, K. Ott, S. Stein, A. Schumacher, and G. Mascolo, “A Green and Economic Future of Inland Waterway Shipping,” Procedia CIRP, vol. 29, pp. 317-322, 2015.10.1016/j.procir.2015.02.171Search in Google Scholar

13. E. K. Dedes, D. A. Hudson, and S. R. Turnock, “Assessing the potential of hybrid energy technology to reduce exhaust emissions from global shipping,” Energy Policy, vol. 40, no. 1, pp. 204-218, 2012.10.1016/j.enpol.2011.09.046Search in Google Scholar

14. D. A. Cooper, “Exhaust emissions from high speed passenger ferries,” Atmos. Environ., vol. 35, no. 24, pp. 4189-4200, 2001.Search in Google Scholar

15. Y. Shi, “Reducing greenhouse gas emissions from international shipping: Is it time to consider market-based measures?,” Mar. Policy, vol. 64, pp. 123-134, 2016.10.1016/j.marpol.2015.11.013Search in Google Scholar

16. J. Yuan, S. H. Ng, and W. S. Sou, “Uncertainty quantification of CO2 emission reduction for maritime shipping,” Energy Policy, vol. 88, pp. 113-130, 2016.10.1016/j.enpol.2015.10.020Search in Google Scholar

17. B. Zahedi, L. E. Norum, and K. B. Ludvigsen, “Optimized efficiency of all-electric ships by dc hybrid power systems,” J. Power Sources, vol. 255, pp. 341-354, 2014.10.1016/j.jpowsour.2014.01.031Search in Google Scholar

18. D. Borelli, T. Gaggero, E. Rizzuto, and C. Schenone, “Analysis of noise on board a ship during navigation and manoeuvres,” Ocean Eng., vol. 105, pp. 256-269, 2015.10.1016/j.oceaneng.2015.06.040Search in Google Scholar

19. A. Badino, D. Borelli, T. Gaggero, E. Rizzuto, and C. Schenone, “Airborne noise emissions from ships: Experimental characterization of the source and propagation over land,” Appl. Acoust., vol. 104, pp. 158- 171, 2016.10.1016/j.apacoust.2015.11.005Search in Google Scholar

20. J. Kowalski, W. Leśniewski, and W. Litwin, “Multi-sourcesupplied parallel hybrid propulsion of the inland passenger ship STA.H. Research work on energy efficiency of a hybrid propulsion system operating in the electric motor drive mode,” Polish Marit. Res., vol. 20, pp. 20-27, 2013.10.2478/pomr-2013-0031Search in Google Scholar

21. I. S. Seddiek and M. M. Elgohary, “Eco-friendly selection of ship emissions reduction strategies with emphasis on SOx and NOx emissions,” Int. J. Nav. Archit. Ocean Eng., vol. 6, no. 3, pp. 737-748, 2014.10.2478/IJNAOE-2013-0209Search in Google Scholar

22. I. S. Seddiek, M. Mosleh, and A. A. Banawan, “Thermoeconomic approach for absorption air condition onboard high-speed crafts,” Int. J. Nav. Archit. Ocean Eng., vol. 4, no. 4, pp. 460-476, 2012.10.3744/JNAOE.2012.4.4.460Search in Google Scholar

23. M. Morsy El Gohary and I. S. Seddiek, “Utilization of alternative marine fuels for gas turbine power plant onboard ships,” Int. J. Nav. Archit. Ocean Eng., vol. 5, no. 1, pp. 21-32, 2013.10.3744/JNAOE.2013.5.1.021Search in Google Scholar

24. M. A. Kalam and H. H. Masjuki, “Emissions and deposit characteristics of a small diesel engine when operated on preheated crude palm oil,” Biomass and Bioenergy, vol. 27, no. 3, pp. 289-297, 2004.10.1016/j.biombioe.2004.01.009Search in Google Scholar

25. M. Mikulski, K. Duda, and S. Wierzbicki, “Performance and emissions of a CRDI diesel engine fuelled with swine lard methyl esters-diesel mixture,” Fuel, vol. 164, no. x, pp. 206-219, 2016.10.1016/j.fuel.2015.09.083Search in Google Scholar