1 |
Alexandros, G., George, P. and Stylianos, P., 2010. Application and cost-benefit analysis of solar hybrid power installation on merchant marine vessels. Ocean Engineering Journal, 37(7), pp.592-602.
DOI
ScienceOn
|
2 |
Andreasen, A. and Mayer S., 2007. Use of Seawater Scrubbing for Removal from Marine Engine Exhaust Gas. Energy Fuels, 21(6), pp.3274-3279.
DOI
ScienceOn
|
3 |
Andersson, K. and Winnes, H., 2011. Environmental trade-offs in nitrogen oxide removal from ship engine exhausts. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, 225(1), pp.33-42.
|
4 |
Apostolos, P., 2010. Holistic ship design optimization. Journal of Computer -Aided design, 42(11), pp.1028-1044.
DOI
ScienceOn
|
5 |
Ariana, I.M., Nishida, O., Fujita, H., 2006. Removal of marine diesel particulate matter by electrostatic precipitator. [online] Available at: [Accessed 15 January 2014].
|
6 |
Banawan, A.A., Mosleh, M. and Seddiek, I.S., 2013. Prediction of the fuel saving and emissions reduction by decreasing speed of a catamaran. Journal of Marine Engineering and Technology, 12(3), pp.40-48.
|
7 |
Banawan, A.A., El-Gohary, M.M. and Sadek, I.S., 2010. Environmental and economical benefits of changing from marine diesel oil to natural-gas fuel for short-voyage high-power passenger ships. Journal of Engineering for the Maritime Environment, 224(2), pp.103-113.
|
8 |
Beecken, J., Mellqvist, J., Salo, K., Ekholm, J. and Jalkanen, J.P., 2014. Airborne emission measurements of , Knox and particles from individual ships using sniffer technique. Atmospheric Measurement Techniques, 7, pp.1957-1968.
DOI
|
9 |
Bengtsson, S., Andersson, K. and Fridell, E., 2011. A comparative life cycle assessment of marine fuels liquefied natural gas. Journal of Engineering for the Maritime Environment, 225(2), pp.97-110.
|
10 |
Buhaug, O., Corbett, J.J., Endresen, O., Eyring, V., Faber, J., Hanayama, S. and Lee, D.S., 2009. Second IMO GHG study. London: International Maritime Organization (IMO).
|
11 |
Bunker world, 2014. Bunker world prices. [Online] Available at: [Accessed 25 March 2014].
|
12 |
Christos, C., Oceane, B., Hans, A.T. and Andreas, B., 2014. Alternative fuels for shipping, DNV& GL. Position Paper 17- 2014. Norway: Det Norske Veritas(DNV).
|
13 |
Daniel, A., Jorgen, T., Robert, E., Frank, S.L., Svend. B. and Ditte, K., 2012. Investigation of appropriate control measures (abatement technologies) to reduce Black Carbon emissions from international shipping. Denmark: LITEHAUZ.
|
14 |
Eide, M.S.S.B., Dalsoren, O., Endresen, B. and Samset, G., 2013. Reducing from shipping -do non - effects matter?. Atmospheric Chemistry Physical, 13, pp.4183-4201.
DOI
|
15 |
Elma, K., Bengtsson, E.F. and Karin, E.A., 2014. Fuels for short sea shipping: A comparative assessment with focus on environmental impact. Journal of Engineering for the Maritime Environment, 228, pp.44-54.
|
16 |
El-Gohary, M.M. and Saddiek, I., 2013. Utilization of alternative marine fuels for gas turbine power plant onboard ships. International Journal of Naval Architecture and Ocean Engineering, 5(1), pp.21-32.
DOI
ScienceOn
|
17 |
Elgohary, M.M., 2009. Energy Conservation: passenger and container ships case studies. Alexandria Engineering Journal, 48(2), pp.151-159.
|
18 |
El-Gohary, M.M., 2012. The future of natural gas as a fuel in marine gas turbine for LNG carriers. Journal of Engineering for the Maritime Environment, 226, pp.371-377.
|
19 |
EPA, 2009. Regulatory impact analysis: control of emissions of air pollution from category 3 marine diesel engines. USA: U.S. Environmental Protection Agency(EPA).
|
20 |
Eyring, V., Isaksen, I.S.A., Berntsen, T., Collins, W., Endresen, O., Grainger, R., Moldanova, J., Schlarger, H. and Stevenson, D., 2010. Transport impacts on atmosphere and climate: shipping. Atmospheric Environment, 44(37), pp.4735-4771.
DOI
ScienceOn
|
21 |
Fotis, D.K., John, M.P. and George, J.T., 2014. Control system for fuel consumption minimization-gas emission limitation of full electric propulsion ship power systems. Journal of Engineering for the Maritime Environment, 228, pp.17-28.
|
22 |
Herdzik, J., 2011. LNG as a marine fuel- possibilities and problems. Journal of KOENS Powertrain and Transport, 18(2), pp.169-176.
|
23 |
Fredrik, H., 2008. A review on the use of gas and steam turbine combined cycles as prime movers for large ships. Journal of Energy Conversion and Management, 49(12), pp.3458-3467.
DOI
ScienceOn
|
24 |
Genesis Engineering Inc., 2003. Technical and other options for reducing marine vessel emissions in the Georgian basin. Technical report, March 26, 2003. [Online] Available at: [Accessed 20 January 2014]
|
25 |
Gerasimos, T. and George, L., 2013. Techno-economical analysis of single pressure exhaust gas waste heat recovery systems in marine propulsion plants. Journal of Engineering for the Maritime Environment, 227, pp.83-97.
|
26 |
Gritsenko, D. and Yliskyla-Peuralahti J., 2013 Governing shipping externalities: Baltic ports in the process of Sox emission reduction. Journal of Maritime Studies, 12(10), doi:10.1186/2212-9790-12-10.
|
27 |
Hagh, B.F., 2004. Comparison of autothermal reforming for hydrocarbon fuels. Division of Fuel Chemistry, 49(1), pp.144-147.
|
28 |
Hall, W., 2010. Assessment of and priority pollutant reduction by installation shore-side power. Resources, Conservation and Recycling, 54(7), pp.462-467.
DOI
ScienceOn
|
29 |
Harilaos, N., Christos, A. and Nikolaos, M., 2009. Speed reduction as an emissions reduction measure for fast ships. 10th International Conference on Fast Sea Transportation FAST 2009, Athens, Greece, October 2009, pp.1-12.
|
30 |
Harsema, A. 2013. LNG fuel tank container: a new approach to LNG bunkering. [online] Avaliable at: [Accessed 21 February 2014]
|
31 |
Johansson, L., Jalkanen, J.P., Kalli, J. and Kukkonen, J., 2013. The evolution of shipping emissions and the costs of recent and forthcoming emission regulations in the northern European emission control area. The Journal Atmospheric Chemistry and Physics Discuss, 13, pp.16113-16150.
DOI
|
32 |
International Maritime Organization (IMO), 2008a. Prevention of air pollution from ships. MEPC 57/21, April 2008, pp.28-57.
|
33 |
International Maritime Organization (IMO), 2008b. Prevention of air pollution from ships. MEPC 58/23, October 2008, pp.30-40.
|
34 |
International Maritime Organization (IMO), 2009, Prevention of air pollution from ships. Second IMO GHG Study 2009. MEPC 59/4/7, April 2009.
|
35 |
Kjeld, A., 2009. Exhaust gas emissions today and tomorrow. 29th Motor ship Conference, Denmark, 26-27 May 2009, pp.155-170.
|
36 |
Lamas, M.I. and Rodriguez, C.G, 2012. Emissions from marine engines and NOx reduction Methods. Journal of Maritime Research, Vo. IX.No.1, pp.77-82.
|
37 |
Lamas, M.I., Rodriguez, J.D. and Telmo, J., 2013. Internal modifications to reduce pollutant emissions from marine engines. International Journal of Naval Architecture and Ocean Engineering, 5(4), pp.493-501.
DOI
|
38 |
Lin, B. and, Lin, C.Y., 2006. Compliance with international emission regulations: Reducing the air pollution from merchant vessels. Marine Policy, 30(3), pp.220-225.
DOI
ScienceOn
|
39 |
Mekhilef, S., Saidur, R. and Safari, A., 2011. A review on solar energy use in industries. Journal of Renewable and Sustainable Energy Reviews, 15(4), pp.1777-1790.
DOI
ScienceOn
|
40 |
Oihane, C., Basurko, G.G. and Zigor, U., 2012. Energy audits of fishing vessels: lessons learned and the way forward. Second International Symposium on Fishing Vessel Energy Efficiency E-Fishing, Vigo, Spain, 22 - 24 May 2012, pp.1-7.
|
41 |
Kolwzan, K., Narewski, M. and Statkow, P.R., 2012. Study on alternative fuels for marine applications. Clean Shipping Currents, 1(3), pp.1-43.
|
42 |
Philippe, C., 2009. Greenhouse gas emissions reduction potential from international shipping. International Transport Forum, Leipzig, 27 May 2009, paper No.2009-11.
|
43 |
Radwan, A., Morsy, M. and Elbadan, A., 2007. Economical and environmental advantages of using NG as a fuel in inland water transport. In: 25th CIMAC conference, Vienna, 21-24 May 2007, paper No.14.
|
44 |
Rosli, A.B., 2008. Fuel injection pressure effect on performance of direct injection diesel engines based on experiment. American Journal of Applied Sciences, 5(3), pp.197-202.
DOI
ScienceOn
|
45 |
Seddiek, S.I., Mosaad, A.M. and Adel, A.B., 2012. Thermo-economic approach for absorption air condition onboard highspeed crafts. International Journal of Naval Architecture and Ocean Engineering, 4(4), pp.460-476.
DOI
ScienceOn
|
46 |
Seddiek, S.I., Mosaad, A.M. and Adel, A.B., 2013. Fuel saving and emissions cut through shore-side power concept for high-speed crafts at the red sea in Egypt. Journal of Marine Science and Application., 12(4), pp.463-472.
DOI
ScienceOn
|
47 |
Stationary, S.D., 2000. Risk reduction plan to reduce particulate emissions from diesel-fueled engines and vehicles, Technical report. California: California Air Resources Board.
|
48 |
Shuaian, W. and Qiang, M., 2012. Sailing speed optimization for container ships in a liner shipping network. Transportation Research Part E, 48(3), pp.701-714.
DOI
ScienceOn
|
49 |
TAYLAN, M., 2010. An overview: effect of roughness and coatings on ship resistance. Internatonal Conference on Ship Drag Reduction, Turkey, 21 May 2010, paper No.5.
|
50 |
Woodyard, D., 2004. Pounder's marine diesel engines and gas turbine. 8th ed. Oxford: Butterworth-Heinemann.
|
51 |
Welaya, Y.M.A., Gohary, M.M.El. and Ammar, N.R., 2011. A comparison between fuel cells and other alternatives for marine electric power generation. International Journal of Naval Architecture and Ocean Engineering, 3(2), pp.141- 149.
DOI
ScienceOn
|
52 |
Yang, X., Bai, G. and Schmidhalter, R., 2011. Shore to ship converter system for energy saving and emission reduction. Power Electronics and ECCE Asia (ICPE & ECCE), IEEE 8th International Conference, Jeju, 30 May - 3 June 2011, pp.2081-2086.
|
53 |
Welaya, Y.M.A., Mosleh, M. and Ammar, N.R., 2013. Thermodynamic analysis of a combined gas turbine power plant with a solid oxide fuel cell for marine applications. International Journal of Naval Architecture and Ocean Engineering, 5(4), pp.529-545.
DOI
|
54 |
Winkler, J., 2009. Efficient ship design can reduce now. 29th Motor ship Conference, Denmark, 26-27 May 2009, pp. 75-105.
|