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The Global ETD Search service is a free service for researchers
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Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 11 to 12 of 12 (0.046 seconds)Spelling suggestions: "subject:"passagerare"" "subject:"passageraren""
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Carbon emission allocation of Ro-Pax ferry transport and the application for ferry companies / Fördelning av koldioxidutsläpp för Ro-Pax-färjetransporter och tillämpning för färjerederierXu, Qiutong January 2023 (has links)
The EU has set up the target of cutting GHG emissions by at least 55% by 2030 and becoming climateneutral by 2050. Accordingly, the IMO has launched initiatives to reduce CO2 emissions per transportwork by at least 40% by 2030, however the CO2 emissions generated from the ferry operations arecontinuously increasing. Although the research focussing on carbon emission reduction technology isgrowing as well, the emission allocation, the prerequisite for emission measuring and reporting as wellas evaluating emission reduction effects, is still an area that hasn’t been explored in depth especiallyfor the ferry industry. This study explores and evaluates the way of allocating CO2 emissions betweenthe passenger and freight for Ro-Pax ferry. Firstly, the emission allocation methods from differentsectors and modes of transportation have been reviewed, revised and developed into the allocationmethods suitable for Ro-Pax transport. Afterwards, the case study of ferry companies with part or all ofthe routes in the Baltic Sea has been carried out to compare and evaluate the performance of differentemission allocation methods. The study suggests that the weight allocation method has the tendencyto assign large amounts of carbon emissions to the freight, while the passenger accounts for moreemissions when applying area, volume and alternative production methods. Furthermore, the practiceshows that foot passengers could contribute to CO2 emission reduction by choosing ferry travel insteadof the airplane, and the car passengers could generate less CO2 emission by sharing the car withothers. The study provides valuable insights for decision makers, standard setters and ferry companies,and could be the solid groundwork for further research on carbon emission allocation for other transportmodes or deeper exploration of a specific allocation method. / EU har satt upp målet att begränsa ökningen av växthusgasutsläpp till 2030 och IMO har lanseratinitiativ för att leda minskningen av växthusgasutsläpp, men de växthusgasutsläpp som genereras frånfärjetrafiken ökar kontinuerligt. Även om forskningen som fokuserar på teknik och åtgärder för attminska utsläppen av växthusgaser också växer, är utsläppsallokering, grunden för utsläppsminskning,fortfarande ett område som inte har utforskats på djupet, särskilt inte för färjeindustrin. I denna studieundersöks en lämplig metod för att fördela växthusgasutsläpp mellan passagerare och gods för Ro-Pax-färjor. För det första har utsläppsallokeringsmetoder från olika sektorer och transportsätt granskats,reviderats och utvecklats till allokeringsmetoder som är lämpliga för Ro-Pax-transporter. Därefter haren fallstudie av färjerederier med en del av eller alla rutter i Östersjön genomförts för att jämföra ochutvärdera prestandan hos olika utsläppsallokeringsmetoder. Studien visar att viktfördelningsmetodenhar en tendens att tilldela stora mängder koldioxidutsläpp till frakten, medan passagerarna står för merutsläpp när man tillämpar yta, volym och alternativa produktionsmetoder. Dessutom visar praxis attfotpassagerare kan bidra till minskade växthusgasutsläpp genom att välja färja istället för flygplan, ochbilpassagerare kan generera mindre växthusgasutsläpp genom att dela bilen med andra. Studien gervärdefulla insikter för beslutsfattare, standardsättare och färjerederier, och kan utgöra en solid grundför vidare forskning om fördelning av växthusgasutsläpp för andra transportsätt eller djupare utforskningav en specifik fördelningsmetod.
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Towards sustainable urban transportation : Test, demonstration and development of fuel cell and hybrid-electric busesFolkesson, Anders January 2008 (has links)
Several aspects make today’s transport system non-sustainable: • Production, transport and combustion of fossil fuels lead to global and local environmental problems. • Oil dependency in the transport sector may lead to economical and political instability. • Air pollution, noise, congestion and land-use may jeopardise public health and quality of life, especially in urban areas. In a sustainable urban transport system most trips are made with public transport because high convenience and comfort makes travelling with public transport attractive. In terms of emissions, including noise, the vehicles are environmentally sustainable, locally as well as globally. Vehicles are energy-efficient and the primary energy stems from renewable sources. Costs are reasonable for all involved, from passengers, bus operators and transport authorities to vehicle manufacturers. The system is thus commercially viable on its own merits. This thesis presents the results from three projects involving different concept buses, all with different powertrains. The first two projects included technical evaluations, including tests, of two different fuel cell buses. The third project focussed on development of a series hybrid-bus with internal combustion engine intended for production around 2010. The research on the fuel cell buses included evaluations of the energy efficiency improvement potential using energy mapping and vehicle simulations. Attitudes to hydrogen fuel cell buses among passengers, bus drivers and bus operators were investigated. Safety aspects of hydrogen as a vehicle fuel were analysed and the use of hydrogen compared to electrical energy storage were also investigated. One main conclusion is that a city bus should be considered as one energy system, because auxiliaries contribute largely to the energy use. Focussing only on the powertrain is not sufficient. The importance of mitigating losses far down an energy conversion chain is emphasised. The Scania hybrid fuel cell bus showed the long-term potential of fuel cells, advanced auxiliaries and hybrid-electric powertrains, but technologies applied in that bus are not yet viable in terms of cost or robustness over the service life of a bus. Results from the EU-project CUTE show that hydrogen fuelled fuel cell buses are viable for real-life operation. Successful operation and public acceptance show that focus on robustness and cost in vehicle design were key success factors, despite the resulting poor fuel economy. Hybrid-electric powertrains are feasible in stop-and-go city operation. Fuel consumption can be reduced, comfort improved, noise lowered and the main power source downsized and operated less dynamically. The potential for design improvements due to flexible component packaging is implemented in the Scania hybrid concept bus. This bus and the framework for its hybrid management system are discussed in this thesis. The development of buses for a more sustainable urban transport should be made in small steps to secure technical and economical realism, which both are needed to guarantee commercialisation and volume of production. This is needed for alternative products to have a significant influence. Hybrid buses with internal combustion engines running on renewable fuel is tomorrow’s technology, which paves the way for plug-in hybrid, battery electric and fuel cell hybrid vehicles the day after tomorrow. / QC 20100722
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