The aim of this study is to contribute to a learning process about innovative and successful approaches to overcoming problems and challenges of urban environmental protection. To this end, a detailed overview of the importance of environmental challenges, political priorities and successful solutions in selected countries and cities is given. Based on this, the study analyzes specific success factors and discusses the extent to which these can be transferred and replicated to other cities. Finally, recommendations are made for cities, countries and the international community on how environmental protection at the urban level can be further strengthened. The role of German cities and institutions will also be discussed. The case studies analyzed include Belo Horizonte in Brazil, Moscow in Russia, Kochi in India, Beijing in China, Cape Town in South Africa and Jakarta in Indonesia. These cities were selected because they have already implemented successful policies, measures and other initiatives in the past. For each city, the study analyzes relevant policy documents in order to present the respective challenges and political priorities. The analysis aims to understand the effectiveness of the plans and instruments taking into account the national political environment. Despite the cross-sectoral approach, the analysis of each case study focuses on specific sectors in order to produce well-founded results. The success factors that are worked out based on this sectoral analysis are placed in a holistic context in order to be able to make generalizable statements about success factors.
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.
Als Herausforderung der Verkehrswende werden häufig die möglicherweise wegfallenden Arbeitsplätze diskutiert. Denn die Beschäftigung der Automobilindustrie in Deutschland gilt als wichtiges Argument für einen sozialverträglichen Strukturwandel. Aber auch die Wirtschaftszweige des Umweltverbunds bieten viele Arbeitsplätze.
Vor diesem Hintergrund untersucht die vorliegende Studie des Wuppertal Instituts und des Instituts Arbeit und Technik der Westfälischen Hochschule die Beschäftigtenzahlen in Teilmärkten der Fahrradwirtschaft sowie deren Umsatzentwicklung.
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.
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.
Der Beitrag von synthetischen Kraftstoffen zur Verkehrswende : Optionen und Prioritäten ; Kurzstudie
(2019)
Diese Kurzstudie geht auf den möglichen Beitrag von synthetischen Kraftstoffen zur Verkehrswende ein. Sie stellt die Einsatzmöglichkeiten dar, zeigt alternative Minderungsoptionen auf, und vergleicht sie mit den Einsatzmöglichkeiten von synthetischen Kraftstoffen.
Zudem gibt der Bericht einen Überblick über volkswirtschaftliche Effekte, auf deren Basis abschließend Schlussfolgerungen für den Beitrag synthetischer Kraftstoffe zur Verkehrswende abgeleitet und diese in Handlungsleitlinien (Prioritäten) übersetzt werden.
Much mitigation-related governance activity is evident in a range of sectoral systems, and regarding particular governance functions. However, there is a tendency for this activity to relate to the easiest functions to address, such as "learning and knowledge building", or to take place in somewhat limited "niches". Across all sectoral systems examined, the gap between identified governance needs and what is currently supplied is most serious in terms of the critical function of setting rules to facilitate collective action. A lack of "guidance and signal" is also evident, particularly in the finance, extractive industries, energy-intensive industries, and buildings sectoral systems.
Of the sectoral systems examined, the power sector appears the most advanced in covering the main international governance functions required of it. Nevertheless, it still falls short in achieving critical governance functions necessary for sufficient decarbonisation. Significantly, while the signal is strong and clear for the phase-in of renewable energy, it is either vague or absent when it comes to the phase-out of fossil fuel-generated electricity. The same lack of signal that certain high-carbon activities need actively to be phased out is also evident in financial, fossil-fuel extractive industry and transport-related sectors.
More effective mitigation action will need greater co-ordination or orchestration effort, sometimes led by the UNFCCC, but also from the bodies such as the G20, as well as existing (or potentially new) sector-level institutions. The EU needs to re-consider what it means to provide climate leadership in an increasingly "polycentric" governance landscape.
The study shows that more cyclists and pedestrians can make cities safer. The ranking, compiled by the Wuppertal Institute and funded by Greenpeace, compared 13 metropolises in terms of public transport, road safety, air quality, mobility management, and the proportion of cyclists and pedestrians. The result: Amsterdam and Copenhagen, residents travel about a third of their trips by bicycle, and these cities have the fewest bicycle accidents.
In der vorliegenden Szenariostudie zeigen Forscher des Wuppertal Instituts, wie sich die Treibhausgasemissionen des Verkehrs in Deutschland von 166 Millionen Tonnen im Jahr 2016 bis zum Jahr 2035 auf null senken lassen - eine Zielmarke, die unter der Prämisse notwendig ist, dass die Erderwärmung auf möglichst 1,5 Grad Celsius begrenzt werden soll. Die Umsetzung dieser von der Staatengemeinschaft auf dem Klimaschutzgipfel in Paris 2015 vorgegebene Zielmarke erfordert eine rasche und konsequente Reduktion der Treibhausgasemissionen in allen Sektoren und auf nationaler wie globaler Ebene.
Analysing the impact of walking and cycling on urban road performance : a conceptual framework
(2017)
A fundamental problem has been the lack of widely-accepted methods for analysing the impact of walking and cycling on transport network performance. By trying to put walking and cycling on an equal footing with motorised transport, the FLOW multimodal urban road transport network performance analysis methodology (the FLOW methodology) aims to contribute to a more informed debate on the role of walking and cycling on transport network performance.
The Portfolio of Measures describes the actual effects of different types of measures on congestion by presenting case studies and drawing conclusions out of them.
The portfolio presents information on the potential of walking and cycling measures to relieve urban congestion. Cities are actively seeking information and implementation experience from other cities. However, information available on websites, portals and good-practice guides is of mixed quality. In providing more information on the impact of walking and cycling measures, this portfolio aims at contributing to political agenda setting and measure selection.
The first part of the portfolio provides some general findings about the role of walking and cycling measures in relieving congestion, based on literature review and an expert survey carried out within the FLOW project. It is then followed by 20 cases in which walking measures, cycling measures or combinations of measures have been successfully implemented in Europe and abroad. The case studies have been clustered in five big groups according to their topics: Cycling infrastructure (moving traffic); Walking and Cycling Infrastructure (moving traffic); Cycling infrastructure (parking and bike sharing); Traffic management strategies; Mobility management and Measures for more than one mode. The final chapter summarises the effects of the 20 cases and elaborates some general lessons learned. On general finding is - the measures described have helped reduce congestion or at least have increased walking and/or cycling levels without increasing congestion.
The research project seeks to identify the CDM SD tool's possible shortcomings, and to make structured recommendations on how to improve the EB's SD tool. Findings from this project are meant to have a lighthouse effect on the development of provisions on Sustainable Development within other carbon mechanisms of the UNFCCC and beyond. This report represents the consolidated findings of three work packages within this research project. The first chapter provides some background on the subject at hand, and leads into the report. The following chapter covers the assessment and comparison of the SD provisions of selected flexible mechanisms and multilateral standards.
How urban transport projects are appraised : current practice in the EU ; a common practice reader
(2014)
Vor dem Hintergrund der Richtlinie zu Endenergieeffizienz und Energiedienstleistung (2006/32/EC, ESD) hat die Bundesregierung im September 2007 einen nationalen Energieeffizienz Aktionsplan (NEEAP) vorgelegt. Für den bundesdeutschen Kontext besteht in diesem Zusammenhang nun die Herausforderung zur Entwicklung eines bundesweiten ESD-Evaluations- und Monitoringsystems, welches ein vom Akteur unabhängiges Verfahren zum Nachweis erzielter Einsparungen bereitstellt. Die Qualität des Verfahrens muss dabei durch entsprechende Regelungen und Maßnahmen gesichert werden. Der Bericht beschreibt in Anlehnung an das Projekt EMEEES (Evaluierung und Monitoring für die EU-Richtlinie zu Endenergieeffizienz und Energiedienstleistung), wie erzielte Endenergieeinsparungen aus der Umsetzung des deutschen NEEAPs nachgewiesen werden können. Der Schwerpunkt liegt dabei auf der Entwicklung von geeigneten Bottom-up Methoden, die sowohl die erzielten Gesamteinsparungen als auch zusätzliche Einsparungen berechnen können. Zudem wird eine Berechnung von so genannten Early Energy Savings ermöglicht.