Fuel saving and emissions cut through shore-side power concept for high-speed crafts at the red sea in egypt

The progress of economic globalization, the rapid growth of international trade, and the maritime transportation has played an increasingly significant role in the international supply chain. As a result, worldwide seaports have suffered from a central problem, which appears in the form of massive amounts of fuel consumed and exhaust gas fumes emitted from the ships while berthed. Many ports have taken the necessary precautions to overcome this problem, while others still suffer due to the presence of technical and financial constraints. In this paper, the barriers, interconnection standards, rules, regulations, power sources, and economic and environmental analysis related to ships, shore-side power were studied in efforts to find a solution to overcome his problem. As a case study, this paper investigates the practicability, costs and benefits of switching from onboard ship auxiliary engines to shore-side power connection for high-speed crafts called Alkahera while berthed at the port of Safaga, Egypt. The results provide the national electricity grid concept as the best economical selection with 49.03 percent of annual cost saving. Moreover, environmentally, it could achieve an annual reduction in exhaust gas emissions of CO2, CO, NOx, P.M, and SO2 by 276, 2.32, 18.87, 0.825 and 3.84 tons, respectively.

[1]  Dimitrios T. Hountalas,et al.  THEORETICAL INVESTIGATION OF THE FACTORS AFFECTING THE PERFORMANCE OF A HIGH SPEED DI DIESEL ENGINE FUELLED WITH NATURAL GAS , 2008 .

[2]  K. Peterson,et al.  Tackling ship pollution from the shore , 2009, IEEE Industry Applications Magazine.

[3]  Peilin Zhou,et al.  A comparative study on life cycle analysis of molten carbon fuel cells and diesel engines for marine application , 2006 .

[4]  A. Kirubakaran,et al.  A review on fuel cell technologies and power electronic interface , 2009 .

[5]  X. Yang,et al.  Shore to ship converter system for energy saving and emission reduction , 2011, 8th International Conference on Power Electronics - ECCE Asia.

[6]  William J. Hall,et al.  Assessment of CO2 and priority pollutant reduction by installation of shoreside power , 2010 .

[7]  Y. Khersonsky,et al.  Challenges of Connecting Shipboard Marine Systems to Medium Voltage Shoreside Electrical Power , 2005, IEEE Transactions on Industry Applications.

[8]  M. Farooque,et al.  Fuel cells-the clean and efficient power generators , 2001, Proc. IEEE.

[9]  A A Banawan,et al.  Environmental and economical benefits of changing from marine diesel oil to natural-gas fuel for short-voyage high-power passenger ships , 2010 .

[10]  F. R. Foulkes,et al.  Fuel Cell Handbook , 1989 .

[11]  C. D. Rakopoulos,et al.  Emission characteristics of high speed, dual fuel, compression ignition engine operating in a wide range of natural gas/diesel fuel proportions , 2010 .

[12]  Ortwin Renn,et al.  New Energy Externalities Developments for Sustainability , 2006 .

[13]  Gina Solomon,et al.  Pollution prevention at ports: clearing the air , 2004 .