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This policy brief discusses the importance of SUMPs (Sustainable Urban Mobility Plans). We test the hypothesis that the development of an ambitious plan in itself does not necessarily translate into successful policies and measures and in actual sustainable urban mobility. We find that the existence of a SUMP correlates positively with a higher share of public transport but that the existence of a SUMP does not as yet have a significant impact on the overall share of non-motorised modes of transport.
This report on urban mobility performance measurement is aimed at enabling stake- holders of the city of Bucharest and the public to understand their current urban mobility situation through a point-based results framework. It shall provide the city of Bucharest with a yardstick to measure its performance and benchmark the progress against some of its counterparts. It measures the urban mobility and compares it with 13 other European cities: Berlin, London, Vienna, Brussels, Moscow, Rome, Zurich, Paris, Amsterdam, Copenhagen, Oslo, Budapest and Madrid.
Similar to many other European cities, Bucharest employs a Sustainable Urban Mobility Plan (SUMP) in order to continuously improve urban transport and mobility and to make it more sustainable. In this respect, the report should also be regarded as a document which supports the stakeholders in Bucharest in their efforts to develop transport and mobility in the city more sustainable.
Transport is a key economic sector in Europe, it influences the opportunities of production and consumption. By improving access to markets, goods and services, employment, housing, health care, and education, transportation projects can increase economic productivity and development. The ability to be mobile is also a prerequisite for inclusion. At the same time, transport induces a range of negative effects, most notably the emission of greenhouse gases. At the urban level, motorised transport significantly contributes to air pollution.
Since 2013, the European Commission has increased EU funding for projects: The "Urban Mobility Package" provided EUR 13 billion for investments into sustainable urban mobility between 2014 and 2020. This has allowed cities across Europe to put in place a range of initiatives. European funding programmes and financing institutions such as the European Investment Bank increasingly insist on a contribution to more sustainable mobility systems in their financing commitments.
The impact, however, is mixed. The European Court of Auditors warned that EU cities must shift more traffic to sustainable transport modes. They found that EU-funded projects were not always based on sound urban mobility strategies and were not as effective as intended.
In many EU member states, the transfer of EU funds to cities is contingent on the existence of a SUMP. A statistical analysis of the modal split of 396 cities in the European Union revealed that the implementation of Sustainable Urban Mobility Plans positively correlates with a reduction of the share of the private car in the cities. Such plans include strategies and activities to pursue sustainable mobility.
This report analyses transport and mobility in Bratislava with a view to providing a clear picture about its current sustainability state. It points to both good practice and areas of improvement. In so doing, it provides recommendations how mobility in the city can be developed increasingly sustainable. Bratislava is the capital and largest city of Slovakia. In 2016, the population of the city was 426,000 inhabitants, the Bratislava region was home to 642,000 inhabitants.
Diese Studie untersucht Notwendigkeiten und Möglichkeiten, Wasserstoff und Strom zu nutzen, um den Verkehrssektor in Deutschland perspektivisch zu dekarbonisieren. Basis der Untersuchung ist das Dekarbonisierungsszenario des Wuppertal Instituts von 2017, welches den Verkehrssektor Deutschlands unter der Maßgabe dekarbonisiert, dass Deutschland einen adäquaten Beitrag dazu leistet, den Klimawandel auf 1,5 °C mittlere Temperaturerhöhung gegenüber dem vorindustriellen Zeitalter zu begrenzen.
Das Dekarbonisierungsszenario nimmt eine ambitionierte Verkehrswende an, um dieses Politikziel zu erreichen. Es zeichnet sich durch eine besonders effiziente Mobilität aus, indem es umfangreiche Vermeidungs- und Verlagerungsmaßnahmen vorsieht und dadurch der Energieverbrauch besonders gering bleiben kann. Dennoch werden selbst in diesem Klimaschutzszenario signifikante Mengen erneuerbaren Stroms für den Verkehrssektor benötigt.
Es findet eine möglichst "direkte Elektrifizierung" statt, also ein Strombezug von batterie-elektrischen Pkw aus dem Netz, sowie über Oberleitungen für die Schiene und für große Lkw auf Bundesautobahnen. Es ist aber auch eine "indirekte Elektrifizierung" nötig, indem aus erneuerbarem Strom unter der Hinnahme von Wirkungsgradverlusten Wasserstoff (H2) und als Folgeprodukt auch synthetische Kraftstoffe hergestellt werden. Diese strombasierten Produkte werden im Dekarbonisierungsszenario für große Pkw und Lkw verwendet.
Die vorliegende Studie berechnet zusätzlich den H2- bzw. PtX-Bedarf des internationalen Flug- und Seeverkehrs. Sie bestimmt außerdem das Lastprofil für eine ungesteuerte Ladung von Elektro-Pkw im Zieljahr. Die Berechnungen verdeutlichen, dass die Dekarbonisierung des Verkehrssektors in Zukunft sehr viel stärker mit dem Stromsystem wechselwirkt. Für Klimaschutz im Verkehr bedarf es neben einer drastischen Energieverbrauchssenkung und einem beschleunigten Ausbau erneuerbarer Energien auch die Infrastruktur für Strom und strombasierte Produkte.
This report analyses the international climate negotiations that took place at the 15th Conference of the Parties to the UNFCCC held in Copenhagen in December 2009. It lays out the main issues at stake in the negotiations, contrasts divergences in interests amongst negotiating parties, and summarises the results achieved in Copenhagen. The report discusses these results in detail and concludes with an outlook on how the challenges ahead could be overcome.