Open Access

Nigeria is Africa's top cement producer and could be on course to be one of the top producers globally. The goal of this study is to identify and critically examine the pathways available to Nigeria to meet its decarbonisation goals in the cement sector. Based on a literature review, the study assesses demand drivers and decarbonisation potentials for the sector. It then presents two different quantitative pathways for growth in production of cement by 2050, and three different pathways for decarbonisation of the sector. Using published data and a scenario analysis tool, the study calculates how the sector's emissions might evolve under each of these pathways. The results indicate that, in the most ambitious scenario, emissions from the sector can plateau by the late 2030s, resulting in an overall increase of 21% by 2050 (compared to 2015 levels). Achieving this scenario is necessary in order to put the sector on a path to net zero emissions beyond 2050. The scenario is driven by reductions in both energy-related and process emissions, as well as a small share of carbon capture and storage and demand management. A moderately ambitious scenario that relies mostly on savings on energy-related emissions results in an 84% increase in emissions by 2050. Finally, the Business-as-Usual scenario results in an almost tripling of emissions by 2050. The results indicate a strong potential for policies to drive improvements in energy efficiency and clinker-to-cement ratio. Critical areas of uncertainty within the assumptions include the production rates (including the evolution of the export market) and the fuel mix.

Die Kaskadennutzung von hochwertigen Materialien wie hochlegierten Metallen, also die Weiternutzung von Werkstoffen mittels Re-engineering beziehungsweise Reuse oder Re-manufacturing von Bauteilen oder Materialien, birgt in Kombination mit integrierten innovativen Produkt-Dienstleistungsmodellen ein hohes Potenzial für Ressourcenschonung und Klimaschutz. Denn über diesen Ansatz können hochwertige Materialien, die meist energieintensive Fertigungsverfahren unterlaufen, länger in der Nutzung gehalten werden. So kann der Zeitpunkt des Recyclings verzögert werden, welches insbesondere bei hochwertigen Materialien meist zu Qualitätsverlusten führt. Auf diese Weise kann der Bedarf an der Primärproduktion und entsprechend die ökologischen Wirkungen verringert werden. Gerade durch die regional hohe Dichte an produzierendem Gewerbe im metallbe- und -verarbeitenden Bereich bietet sich das Bergische Städtedreieck an für ein regional integriertes Ressourcenmanagement an. Das Projekt RegRess trägt mit dazu bei, die Hürden zur Etablierung eines entsprechenden Ressourcenmanagements mit dem Fokus auf das Bergische Städtedreieck zu senken, um so ökonomische und ökologische Potenziale für die regionale Wirtschaft und Profilbildung der Unternehmen, insbesondere KMU, zu heben. Dieser Bericht dokumentiert die Ergebnisse einer Stakeholder-/Netzwerkanalyse von der regionalen bis zur nationalen Ebene als Basis für Kooperationen. Die Analyse identifiziert mittels Desktoprecherche 110 Netzwerke, von denen ca. 25 unmittelbar im Bergischen Städtedreieck tätig sind bzw. die Region abdecken. Darüber hinaus wird eine Methodik und deren Anwendung anhand von theoretischen Beispielen vorgestellt, um den ökologisch sinnvollen Einsatz von Kaskadennutzung aufzuzeigen und zu reflektieren. Die Methodik wurde auf die Beispiele der Kaskadennutzung ausgedienter Spiralbohrer sowie Kochtöpfe angewendet, wobei beide Beispiele tendenziell ökologische Einsparpotentiale aufweisen. Unter Vorbehalt einer detaillierteren Lebenszyklusanalyse wurden bei den Spiralbohrern bei einmaliger Kaskadierung Einsparungen in der Größenordnung von maximal 75 % beim Material Footprint und 60 % beim Carbon Footprint abgeschätzt. Aufgrund der aufwändigeren Form und höheren Reinigungsaufwänden liegen die Einsparungen beim Kochtopf geringer und wurden beim Material Footprint auf eine Größenordnung von maximal 26 % und beim Carbon Footprint von 25% geschätzt.

Direct Air Capture (DAC) is increasingly being discussed as a possibility to limit climate change. In this study, a possible rollout of the DAC technology at German coastal areas is analysed based on an existing climate neutrality scenario. For the year 2045 the resulting costs as well as land, water and energy consumption are examined. It is concluded that a realization of the DAC technology in Germany might be possible from a technical point of view. However, there is a high demand for land and energy. Since a rollout is needed to start in 20 years at the latest, the required discussion and evaluation should be initiated as quickly as possible.

Zur Gestaltung von tiefgreifenden Transformationsprozessen fehlen oft handlungsleitende Kompetenzen und der Mut, Strukturen aufzubrechen. Dafür braucht es andere Lernformen und neue Räume des Lernens für nachhaltigen Wandel. Um solche zu etablieren, haben die Vereinten Nationen die Dekade des Handelns ausgerufen, in deren Rahmen zwei Projekte des Wuppertal Instituts gestartet sind: die Transformationsakademie und HumboldtN.

In diesem Essay stellt der Autor die Frage nach der Verantwortung für die Umwelt und wie diese Pflicht gegenüber dem Planeten Erde gerecht zwischen den Menschen, Kulturen und Gesellschaften, die ihn bewohnen, verteilt werden kann. Seine kurze Geschichte der Umweltgerechtigkeit fasst knapp und verständlich zusammen, wie sich der Blick auf Umweltschutz seit 1970 gewandelt hat und was das für die Menschenrechte und internationale Gerechtigkeit bedeutet.

Die nachhaltigkeitsorientierte Transformation von urbanen Räumen ist eine akute Herausforderung. In den letzten Jahren haben koproduktive, experimentelle, transdisziplinäre und häufig informelle Stadtwandelprojekte als Such- und Lösungsräume hohe Sichtbarkeit erlangt. Schlüsselakteure hierfür stellen - so die These - Verwaltungsvertreter:innen einer integrierten Stadtentwicklung und -planung, Wissenschaftler:innen einer transformativen Forschung sowie zivilgesellschaftliche Stadtmacher:innen dar. Die Autor:innen, verankert in diesen drei Gruppen, kritisieren die häufig nur situative Zusammenarbeit dieser drei Akteursgruppen. Ein Modell der Zusammenarbeit im Spannungsfeld zwischen Gemeinsamkeiten, jeweiligen Potentialen und herausfordernden Eigenlogiken der Akteurssysteme wird entwickelt. Darauf aufbauend wird vorgestellt, wie durch strategischen Trialog und reflexive Lernprozesse die Zusammenarbeit verbessert und die Wirksamkeit koproduktiven und experimentellen Stadtwandels erhöht werden kann.

The objective of this report is to use historical analysis to identify conditions that determine when offsets add value to compliance schemes while upholding environmental integrity. The indicators of success include: increased acceptance of introducing compliance schemes; raising ambition in subsequent compliance periods; the possibility to drive emission reductions outside the compliance sectors; promoting investments in sustainable development; and avoiding perverse incentives that undermine the stringency of the compliance scheme or compliance actors’ efforts in reducing their own emissions. Through undertaking in-depth case study analyzes on the effects of offsets in the European Union, Alberta, Australia, Colombia and Japan, the report identifies common conditions that explain why offsets were successful (or not) in achieving individual indicators. The report further identifies two common conditions that can help explain when offsets achieve all five indicators of success. The first is that policymakers need to be willing to design the compliance scheme to set and maintain a strong compliance price signal that justifies the need for incorporating cost containment measures, such as offsets, to avert negative political and economic ramifications. Relatedly, the second condition requires institutions, processes and infrastructure that govern both the compliance scheme and offsets to be well developed so that they can ensure offsets uphold the principles of environmental integrity, achieve sustainable development benefits, and act as a reliable cost containment measure to high compliance prices. The findings also highlight how difficult it is to achieve both conditions, as both domestic and international political economy factors determine whether policymakers and voters are willing to introduce and maintain compliance schemes that deliver effective action on climate.

This report develops an evaluation framework that policymakers can use to identify whether offsets can add value and uphold environmental integrity of a compliance scheme. It uses a scoring framework on factors to: (1) identify which sectors have hard-to-abate emissions that can justify demanding offsets as cost-containment measures for ambitious climate policies; and (2) identify mitigation activities that are otherwise inaccessible, fosters sustainable development, and the extent to which it enables transformative sectoral action to be eligible to supply offsets. This evaluation framework identifies the optimal conditions that make factors successful in either having sectors demand offsets, or specific mitigation activities supply offsets. Sectoral emissions that are hard-to-abate are those that are technically unavoidable due to a lack and maturity of technologies, and therefore should be allowed to have cost-containment measures - such as offsets - to avoid adverse economic ramifications such as carbon leakage. Mitigation activities that can supply offsets are those that are currently inaccessible to local actor’s due to lack of access to technology, finance or capabilities. Allowing these mitigation activities to be eligible to supply offsets allows to pilot such activities and realize mitigation outcomes outside the original scope of the compliance scheme. This report has chosen selected sectors and mitigation activities to illustrate how this framework can be applied at the global level. It recognizes that country-specific factors can change the assessment of whether the offset approach will add value and uphold environmental integrity to proposed compliance schemes of a country. The report further proposes practical steps policymakers can do to undertake an evaluation at the national level.

A clear understanding of socio-technical interdependencies and a structured vision are prerequisites for fostering and steering a transition to a fully renewables-based energy system. To facilitate such understanding, a phase model for the renewable energy (RE) transition in MENA countries has been developed and applied to the country case of Yemen. It is designed to support the strategy development and governance of the energy transition and to serve as a guide for decision makers. The transition towards REs is still at a quite early stage in Yemen. The military conflict has prevented the implementation of most of the planned large-scale renewable projects. The political instability, the high dependence on fossil fuels, and poor administrative performance are the most pressing concerns for Yemen's electricity sector. At an operational level, Yemen requires a total retrofit of the electricity infrastructure and needs to expand its overall capacity while improving its efficiencies. Despite these challenges, rebuilding the energy system after the political turmoil and the subsequent violent conflicts could offer Yemen the capability to transition towards renewables. This will provide short-term and long-term opportunities and avoid stranded investments in fossil-fuel capacities. The priority is to improve the framework conditions for RE in Yemen, starting with the development of a long-term strategy up to 2030 and beyond. Also, an appropriate and transparent legislation must be created. Furthermore, based on the legislation, clear regulations for REs must be introduced, and a realistic timeframe for expansion must be established in order to promote acceptance and market development on a large scale. The results of the analysis along the transition phase model towards 100% RE are intended to stimulate and support the discussion on Yemen's future energy system by providing an over-arching guiding vision for the energy transition and the development of appropriate policies.

Staying within the 2 °C (preferably 1.5 °C) limit requires fast and fundamental system changes, also in urban passenger transport. Shifting car traffic to environmentally friendly transport modes is one central strategy to make urban transport more sustainable and climate friendly. However, in most cities car use remains high. Therefore, this paper analyzes what course change is needed regarding direction, scale and speed of change for urban sustainability and climate protection reasons. The paper analyzes the role of modal shift as a strategy in itself and in relation to land-use (avoid) and efficiency (improve) measures. The paper draws on insights from European frontrunning cities and explorative forecasting scenarios calculated with the sophisticated integrated land-use transport model "Ruhr Region 2050". The paper suggests that a significant reduction of urban car use is needed (direction) that roughly equals a fast halving of car use (scale), which has proven feasible under the current socio-political conditions by annual reduction rates of 0.5 to 1.5 percentage points of the trip-based modal share of car use (speed). Significantly reducing car use requires comprehensive and high-intensive measures that go far beyond usual practices. Modal shift measures need to play a crucial role in integrated approaches with land-use (avoid) and efficiency (improve) measures because they have the potential to significantly reduce car use and CO2 emissions and because they can produce comparatively fast effects - which makes modal shift measures first aid approaches to achieve a fast "bending of the curve" of excessive car use and growing CO2 emissions.