Reductions in greenhouse gas emissions and cost by shipping at lower speeds

Anger, 2010 Bausch, 1998, Scheduling short term marine transport of bulk products, Maritime Policy & Management, 25, 335, 10.1080/03088839800000057 Christiansen, 2007, Maritime transportation, 10.1016/S0927-0507(06)14004-9 Corbet, 2009, The effectiveness and cost of speed reductions on emissions from international shipping, Transportation Research D, 14, 593, 10.1016/j.trd.2009.08.005 DNV, 2009. DNV Pathways to low carbon shipping, Abatement potential towards 2030, 〈www.dnv.com〉. Duchin, 2005, A world trade model based on comparative advantage with m regions, n goods, and k factors, Economic Systems Research, 17, 141, 10.1080/09535310500114903 Endresen, O., et al., 2007. A historical reconstruction of ships' fuel consumption and and emissions. Journal of Geophysical Research-Atmospheres 112 (D12) Eyring, 2009, Transport impacts on atmosphere and climate: shipping, Atmospheric Environment, 1 Faber, J., Marowska, A., Nelissen, D., Davidson, M., Eyring, V., Cionni, I., Selstad, E., Kågeson, P., Lee, D., Buhaug, Ø., Lindstad, H., Roche,P., Humpries, E., Graichen, J., Cames, M., 2009. Schwarz Technical support for European action to reducing Greenhouse Gas Emissions from international transport, 2009, Oude Delft 180 2611 HH Delft—The Netherlands. Fagerholt, 2001, Ship scheduling with soft time windows—an optimization based approach, European Journal of Operational Research, 131, 559, 10.1016/S0377-2217(00)00098-9 Fagerholt, 2000, Optimal policies for maintaining a supply service in the Norwegian Sea, Omega, 28, 269, 10.1016/S0305-0483(99)00054-7 Faltinsen, O.M., Minsaas, K.J., Liapis, N., Skjørdal, S.O., 1980. Prediction of resistance and propulsion of a ship in a Seaway. In: Proceeding of the 13th Symposium on Naval Hydrodynamics, Tokyo, the Shipbuilding Research Association of Japan, 1980, pp. 505–529. IPCC, 2007 Lewis, 1988, vol. II Lindstad, H., Asbjørnslett, B.E., Pedersen, J.T., 2010. Reduction of greenhouse gases from shipping through technical measures or marked based instruments. In: Conference Proceeding IAME 2010, Lisbon Portugal. Lindstad, H., Mørkve, O.T., 2009. A methodology to assess the energy efficiency and the environmental performance of maritime logistics chains. In: Conference Proceedings International Marine Design Conference, 2009. ISBN:978-82-519-2438-2. Lloyd, A.R.J.M., 1998. Seakeeping, Ship Behaviour in Rough Weather, 1998, ISBN:0-9532634-0-1. Longva, 2010, A cost–benefit approach for determining a required CO2 Index level for future ship design, Maritime Policy & Management, 37, 129, 10.1080/03088830903533759 Minsaas, 2006 Norstad, I., Fagerholt, K., Laporte, G., Tramp ship routing and scheduling with speed optimization. Transportation Research Part C: Emerging Technologies, in Press, Corrected Proof, Available online 12 June 2010, ISSN 0968-090X, doi:10.1016/j.trc.2010.05.001 OECD, 2010 Psaraftis, 2010, Balancing the economic and environmental performance of maritime transport, Transportation Research Part D, 10.1016/j.trd.2010.05.001 Second IMO GHG study, 2009. International Maritime Organization (IMO) London, UK, April 2009; Buhaug, Ø.; Corbett, J.J.; Endresen, Ø.; Eyring, V.; Faber, J.; Hanayama, S.; Lee, D.S.; Lee, D.; Lindstad, H.; Markowska, A.Z.; Mjelde, A.; Nelissen, D.; Nilsen, J.; Pålsson, C.; Winebrake, J.J.; Wu, W.–Q.; Yoshida, K. Sea at Risk and CE Delft, 2010. Sea at Risk and CE Delft, 2010. 〈http://www.seas-at-risk.org/〉. Strømman, 2008, Shifting trade patterns as a means of reducing global carbon dioxide emissions, a multiobjective analysis, Journal of Industrial Ecology, 13, 1 Strømman, 2006, A world trade model with bilateral trade based on comparative advantage, Economic System Research, 18, 281, 10.1080/09535310600844300 Walker, 2008