Refine
Has Fulltext
- yes (20) (remove)
Year of Publication
Document Type
- Report (15)
- Working Paper (3)
- Peer-Reviewed Article (1)
- Conference Object (1)
Least-Cost Planning (LCP), Integrated Resource Planning (IRP), Demand Side Management (DSM) sind Begriffe, die schon seit einiger Zeit Stoff für Diskussionen und Themen fr Studien liefern sowie zur Ableitung inhaltlicher Zielsetzungen benutzt werden. Entwickelt wurde der LCP-Ansatz insbesondere für die leitungsgebundenen Energien im Energiesektor, andere Sektoren wie der Wasser-, Abwasser- und auch der Verkehrsbereich folgten. In dem vorliegenden Wuppertal Paper erfolgt eine Auseinandersetzung mit dem Ansatz Least-Cost Transportation Planning (LCTP) oder "Mobilität zu minimalen Gesamtkosten", der bei konsequentem Einsatz einen Beitrag zum Umwelt- und Klimaschutz leisten kann. Der Problemeinführung und einer knappen Darstellung des in der Energiewirtschaft entwickelten LCP-Ansatzes folgt eine Analyse der zwischen Energie- und Verkehrssektor bestehenden Unterschiede und der für die Umsetzung der Prinzipien von LCP im Verkehrsbereich feststellbaren Hemmnisse. Aufgrund der vom Energiebereich abweichenden Voraussetzungen und Rahmenbedingungen im Verkehr bedarf es entsprechender Modifikationen des für den Energiesektor entwickelten LCP-Ansatzes. Abschließend werden potentielle Einsatzbereiche für den LCP-Ansatz im Verkehrsbereich skizziert.
This paper takes a look at the development of freight transport and its further perspectives in the light of environmental sustainability. It clearly challenges the traditional view that further growth in freight transport is indispensable whatever stage of economic development an individual economy has achieved. Moreover it suggests measures to be taken into consideration in sectors other than the transport sector which may help to break the trend of continuing freight transport growth. Current developments of freight transport volume and modal split are rather counterproductive as regards curbing the unwanted environmental impacts. As growth in volume is a major contributing factor for most adverse effects caused, a substantial decoupling of economic growth and freight transport would be extremely helpful. While freight transport activity is almost entirely derived demand there can be no sufficient solution for the resulting environmental problems within the sector itself. Therefore, it is necessary to examine potentials for reducing demand for freight transport in all sectors of the economy. Contrasting to the widely held view that freight transport is in general an inevitable prerequisite of economic development, there are potentials for reducing the freight intensity of the economy which could be far more exploited. Such potentials are increasing the share of regional production, slowing down the metabolism of materials in the economy, and substituting transfer of information for transport of physical products. While each of these potentials on its own may appear to offer limited effects, a proper combination might yield substantial results. The presented preliminary ideas suggest that the notion of everlasting freight transport growth is misleading and hint at the necessity for further research.
Der Verkehrssektor ist keineswegs der einzige, jedoch ein wesentlicher Verursacher der Klimaprobleme. Der Automobilverkehr als traditioneller Hauptbelaster im Verkehrsbereich zeigt zwar vergleichsweise positive Tendenzen, trotzdem ist auch hier noch erheblicher weiterer Handlungsbedarf gegeben. Das Wuppertal Institut hat hier in übersichtlicher und systematischer Form Stand und Perspektiven zusammengetragen. Nach einer ausführlichen Einbettung in den Klimadiskurs erfolgt die schrittweise Konzentration auf den PKW-Verkehr Deutschlands. Für diesen Bereich werden im Detail die denkbaren technischen Ansätze und die möglichen Umsetzungsmaßnahmen erörtert.
The Port of Rotterdam is one of the pioneers in the reduction of greenhouse gas emissions. It is the largest port in Europe and extends over 40 kilometres to the North Sea coast. Its ambitious goal: the port wants to reduce greenhouse gas emissions from its industrial cluster as well as from freight traffic to a large extent. For the study "Deep Decarbonisation Pathways for Transport and Logistics Related to the Port of Rotterdam" the Wuppertal Institute analysed available options for the maritime as well was hinterland transports on behalf of the Rotterdam Port Authority.
The 2050 scenarios by the Wuppertal Institute show that decarbonisation will significantly change both, volume and structure of the transported goods - which add to the on-going trend from bulk to container transport. This will have considerable structural effects on port operations and in particular on hinterland traffic. A comprehensive decarbonisation (>95 per cent) will require significant efficiency improvements through operational and technical measures and the switch to non-fossil fuels, as well as a strong shift of container transport from road transport to rail and inland navigation. For maritime shipping to and from Rotterdam two feasible pathways towards full decarbonisation by 2050 are presented. Both include a stepwise shift towards renewable electricity based energy carriers for ships (liquids and gaseous for long distances and hydrogen and electricity for shorter distances).
Finally the report derives a set of recommendations for the Port Authority as well as the Dutch, German and European policymakers to support the transition towards a drastic reduction of greenhouse gase (GHG) emissions from in the transport sector and for using this as a strategy for a sustainable economic development.
Energy of the future? : Sustainable mobility through fuel cells and H2 ; Shell hydrogen study
(2017)
Over the years Shell has produced a number of scenario studies on key energy issues. These have included studies on important energy consumption sectors such as passenger cars and commercial vehicles (lorries and buses) and the supply of energy and heat to private households, as well as studies on the state of and prospects for individual energy sources and fuels, including biofuels, natural gas and liquefied petroleum gas.
Shell has been involved in hydrogen production as well as in research, development and application for decades, with a dedicated business unit, Shell Hydrogen. Now, in cooperation with the Wuppertal Institute in Germany, Shell has conducted a study on hydrogen as a future energy source. The study looks at the current state of hydrogen supply path- ways and hydrogen application technologies and explores the potential and prospects for hydrogen as an energy source in the global energy system of tomorrow. The study focuses on the use of hydrogen in road transport and specifically in fuel cell electric vehicles (FCEVs), but it also examines non-automotive resp. stationary applications.