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Im Herbst 2001 veröffentlichte Bundeswirtschaftsminister Werner Müller einen viel diskutierten Energiebericht. Neben einer Bestandsaufnahme der deutschen Energie- und Klimapolitik befasst er sich auch mit einer Analyse der zukünftigen Entwicklungsmöglichkeiten des Energiesystems. Dabei steht die Frage im Vordergrund, ob und wenn ja, zu welchem Preis eine über das bisher von der Bundesregierung beschlossene Maß hinausgehende Minderung der CO2-Emissionen möglich ist. Referenzpunkt ist das Ziel, im Jahr 2020 eine CO2-Reduktion von 40 Prozent gegenüber dem Niveau des Jahres 1990 zu erreichen. In seinen Zukunftsaussagen basiert der Energiebericht im Wesentlichen auf einer Untersuchung von Prognos/EWI/Bremer Energieinstitut aus dem Frühjahr 2001. Der Energiebericht will mit dieser Zukunftsbetrachtung einen Beitrag zum energiepolitischen Diskurs leisten und eine intensive Diskussion entfachen. Das Wuppertal Institut stellt sich dieser Aufforderung mit vorliegender Antwort. Dabei sollen die Aussagen und Schlussfolgerungen des Energieberichts kritisch hinterfragt und eigenen Überlegungen gegenübergestellt werden.
Contemporary combined heat and power (CHP) systems are often based on fossil fuels, such as natural gas or heating oil. Thereby, small-scale cogeneration systems are intended to replace or complement traditional heating equipment in residential buildings. In addition to space heating or domestic hot water supply, electricity is generated for the own consumption of the building or to be sold to the electric power grid.
The adaptation of CHP-systems to renewable energy sources, such as solid biomass applications is challenging, because of feedstock composition and heat integration. Nevertheless, in particular smallscale CHP technologies based on biomass gasification and solid oxide fuel cells (SOFCs) offer significant potentials, also regarding important co-benefits, such as security of energy supply as well as emission reductions in terms of greenhouse gases or air pollutants. Besides emission or air quality regulations, the development of CHP technologies for clean on-site small-scale power generation is also strongly incentivised by energy efficiency policies for residential appliances, such as e.g. Ecodesign and Energy Labelling in the European Union (EU). Furthermore, solid residual biomass as renewable local energy source is best suited for decentralised operations such as micro-grids, also to reduce long-haul fuel transports. By this means such distributed energy resource technology can become an essential part of a forward-looking strategy for net zero energy or even smart plus energy buildings.
In this context, this paper presents preliminary impact assessment results and most recent environmental considerations from the EU Horizon 2020 project "FlexiFuel-SOFC" (Grant Agreement no. 641229), which aims at the development of a novel CHP system, consisting of a fuel flexible smallscale fixed-bed updraft gasifier technology, a compact gas cleaning concept and an SOFC for electricity generation. Besides sole system efficiencies, in particular resource and emission aspects of solid fuel combustion and net electricity effects need to be considered. The latter means that vastly less emission intensive gasifier-fuel cell CHP technologies cause significant less fuel related emissions than traditional heating systems, an effect which is further strengthened by avoided emissions from more emission intensive traditional grid electricity generation. As promising result, operation "net" emissions of such on-site generation installations may be virtually zero or even negative. Additionally, this paper scopes central regulatory instruments for small-scale CHP systems in the EU to discuss ways to improve the framework for system deployment.
The core objective of Energy Efficiency Watch 3 (EEW3) is to establish a constant feedback loop on the implementation of European and national energy efficiency policies and thus enable both compliance monitoring and mutual learning on effective policy making across the EU. The project team applied a mixed-method approach to assess energy efficiency policy developments in EU Member States. EEW3 analysed the progress made in the implementation of energy efficiency policies in European Member States since the publication of the second National Energy Efficiency Action Plans (NEEAPs) in 2011 by screening official documents, sought experts' knowledge via an EU-wide survey and has been creating new consultation platforms with a wide spectrum of stakeholders including parliamentarians, regions, cities and business stakeholders. Results are presented in Country Reports for each of the 28 Member States, the Expert Survey Report, 10 Case Studies presenting outstanding energy efficiency policies in Europe, the Key Policy Conclusions, the project summary report in brochure format and this Feedback Loop Report, which summarises the overall EEW3 portfolio.
The core objective of Energy Efficiency Watch 3 (EEW3) is to establish a constant feedback loop on the implementation of European and national energy efficiency policies and thus enable both compliance monitoring and mutual learning on effective policy making across the EU. The project team applied a mixed-method approach to assess energy efficiency policy developments in EU Member States. It analysed progress of national policies by screening official documents, sought experts' knowledge via an EU-wide survey and has been creating new consultation platforms with a wide spectrum of stakeholders including parliamentarians, regions, cities and business stakeholders. Analysis of the National Energy Efficiency Action Plans (NEEAPs), the expert survey with input from over 1,100 experts on policy ambition and progress in each Member State, as well as 28 Country Reports have been central elements in EEW3. This paper will present the main conclusions and policy recommendations of EEW3. In doing so, it will first summarise the findings of the document analysis based on the 28 Country Reports, showing developments of energy efficiency policies since the second NEEAP in 2011 in a cross-country overview for six sectors. These findings are then contrasted with the experts' perspective on progress in energy efficiency policies in their countries as collected in the EEW survey. Moreover, ten case studies of good practice energy efficiency policies are shown, three of them will be presented in more detail. The paper ends with key policy conclusions for improving the effectiveness of European energy efficiency policies. A key finding is that policy implementation has improved a lot since 2011 but more is needed to achieve the EED Art. 7 and other targets.
Transformative Innovationen : die Suche nach den wichtigsten Hebeln der Großen Transformation
(2021)
Der hier vorliegende Zukunftsimpuls soll den Grundgedanken der Transformativen Innovationen und ihre Notwendigkeit beschreiben sowie erste Kandidaten für solche Transformativen Innovationen aus diversen Arbeitsbereichen des Wuppertal Instituts vorstellen. Er dient vor allem als Einladung, gemeinsam mit dem Wuppertal Institut über solche Innovationen zu diskutieren, die irgendwo zwischen den großen Utopien und kleinen Nischenaktivitäten liegen. Denn es braucht nicht immer den ganz großen Wurf, um Veränderungen in Gang zu setzen.
Established in 2016, the German-Japanese Energy Transition Council (GJETC) strives to promote bilateral cooperation between Germany and Japan on energy transition. Among other studies and topical papers, an output paper in 2020 (Rauschen et al., 2020) already compared the energy efficiency in buildings in both countries with a particular focus on heating and cooling. One important finding of this output paper was that further efforts in the building sector are needed to improve the energy efficiency of buildings in Germany and Japan. Following the more ambitious climate protection targets in both countries, this study seeks to analyze the German and Japanese policies put in place to accelerate the decarbonization of the building sector. The decarbonization of the vast number of buildings that both Japan and Germany are facing will be a major contribution to achieving the GHG reduction targets of both countries and should continue to be discussed among experts and developed into a discussion among policy makers.
This report examines and compares the characteristics of the building stock in both countries, as well as existing policies and new strategies and policies that are planned or discussed to achieve energy conservation and decarbonization of buildings. The current shape of buildings, especially houses, is greatly influenced by the land area of the country corresponding to the available space for buildings, the natural environment surrounding the country, the natural resources available, and the lifestyle and cultural ideas that have been passed down and taken root over time. Therefore, it might be difficult to compare them and the corresponding strategies and policies with the same yardstick, so we also discuss common or deviant situations. Through this joint research, we aim to find each other's advantages and challenges and to develop useful and concrete policy recommendations that will contribute to decarbonization policies in both countries.
Toothless tiger? : Is the EU action plan on energy efficiency sufficient to reach its target?
(2007)
Motivated by, inter alia, the increasing energy prices, the security of energy supply and climate change, the new EU "Action Plan for Energy Efficiency: Realising the Potential" (EEAP), sets out the policies and measures required to be implemented over the next six years to achieve the EU's goal of reducing annual primary energy consumption by about 20 % by 2020. By increasing energy efficiency, the security of energy supply and the reduction of carbon emissions are also improved.
The paper will analyse the 20 % target of the new EEAP for the energy demand side by comparison with different recent energy scenarios for the EU. It will therefore review the recommended policies and measures and examine, in which energy demand sectors energy efficiency may be increased and to which extend. The main focus is whether the recommended policies and actions will be sufficient and which additional measures may be useful, if additional measures are needed.
Based on a comprehensive scenario analysis of the EU's GHG emissions by 2020, we show that the 20% energy savings target set in the Action Plan "Doing more with less" in 2006 is still the most significant and thus indispensable strategy element within an ambitious EU climate and energy strategy targeting at a 30% reduction of GHG emissions by 2020.
The scenario analysis provides a sector by sector projection of potential future energy use and GHG emissions, combined with a detailed policy analysis of the core policies on energy efficiency by the EU and its Member States taken from current research results by the authors and others.
Consequently the paper identifies and quantifies the current implementation deficit in the EU and shows that, despite of sufficient targets, implementation is still significantly lacking in almost all fields of energy efficiency. Some, e.g. transport sector and buildings, are still substantially far from receiving the necessary political impetus. The paper also demonstrates co-benefits of a strong energy efficiency strategy, e.g. the achievability of the targets of the RES directive, which crucially depends on a strong efficiency policy.
We conclude that the efforts of the energy efficiency policy of the EU and its Member States have to be significantly intensfied. As proposed by the EU in case that other developed and key developing countries take up comparable targets in order to fulfil its role in the climate and energy strategy. To achieve this, we offer an analysis of the current weaknesses of EU energy efficiency policy and derive recommendations on how the EU can still reach its targets for 2020.
Target 2020 : policies and measures to reduce greenhouse gas emissions in the EU ; final report
(2005)
The German climate change programme (2000) identified the residential sector as one of the main sectors in which to achieve additional GHG reductions. Our case study compiles results of existing evaluations of the key policies and measures that were planned and introduced and carries out some own estimates of achievements. We show, which emission reductions and which instruments where planned and what was delivered until 2004.
Legal instruments such as the revised building code were introduced later than planned and their effects will - at least partly - fall behind expectations. Other legal instruments such as minimum energy performance standards for domestic appliances etc. were - in spite of the programme - not implemented yet.
On the other hand, substantial financial incentives were introduced. Especially schemes granting low-interest loans for building renovation were introduced. However tax subsidies for low-energy buildings were phased out.
In general we can conclude from our case study that Germany was not able to compensate for the slower or restricted implementation of legal instruments through the introduction of financial incentives. Particularly the efficient use of electricity has been left aside as almost no further policy action was taken since 2001.
Thus energy efficiency in the residential sector will not deliver the GHG reductions planned for in the German climate change programme until 2005. From our findings we draw conclusions and recommendations towards policy makers: Which lessons are to be learnt and what has to be done in order to fully harness EE potentials in residential sector as planned for 2010?
Die vorliegende Studie im Auftrag des Ministeriums für Klimaschutz, Umwelt, Landwirtschaft, Natur- und Verbraucherschutz des Landes NRW liefert zunächst in Kapitel 2 einen Überblick über wichtige grundsätzliche Zusammenhänge, die für eine Diskussion der Strompreiseffekte eines beschleunigten Ausstiegs zu berücksichtigen sind und stellt etwaige Preiswirkungen in den größeren Zusammenhang weiterer, ggf. auch positiver ökonomischer Wirkungen einer beschleunigten Energiewende. In Kapitel 3 werden anschließend die bisher öffentlich verfügbaren Untersuchungen und wissenschaftlichen Stellungnahmen zu der Frage der zu erwartenden Strompreiseffekte einzeln vorgestellt und bewertet. Das Fazit in Kapitel 4 fasst schließlich den aus den verschiedenen Studien und Stellungnahmen abgeleiteten aktuellen Wissensstand zur Untersuchungsfrage zusammen und geht kurz auf mögliche politische Maßnahmen zur Begrenzung der Strompreiseffekte sowie der damit potenziell verbundenen negativen Auswirkungen ein.
Das Projekt "Ressourcenpolitik" (PolRess) begleitete die Debatte um die anspruchsvolle Ressourcenpolitik, zu der sich Deutschland verpflichtet hat, aus politikwissenschaftlicher, juristischer und ökonomischer Perspektive und setzte dabei auch selbst Impulse.
Der Abschlussbericht fasst Überlegungen des Projektteams für die Weiterentwicklung der Ressourcenpolitik zusammen. Darin heißt es unter anderem, dass das in der Nachhaltigkeitsstrategie erfasste Ziel der Bundesregierung, die Rohstoffproduktivität bis zum Jahr 2020 gegenüber 1994 zu verdoppeln, wohl nicht ohne drastische Maßnahmen (wie einem Ausstieg aus der Braunkohle) erreicht werden kann. Da das hiesige und derzeitige Niveau der Materialnutzung weder global verallgemeinerbar noch langfristig tragfähig ist, müsste die abiotische Materialnutzung Deutschlands (einschließlich der ungenutzten Entnahmen) um bis zu 80 Prozent bis 2050 reduziert werden.
Energy efficiency improvements have numerous benefits/impacts additional to energy and greenhouse gas savings, as has been shown and analysed e.g. in the 2014 IEA Report on "Multiple Benefits of Energy Efficiency". This paper presents the Horizon 2020-project COMBI ("Calculating and Operationalising the Multiple Benefits of Energy Efficiency in Europe"), aiming at calculating the energy and non-energy impacts that a realisation of the EU energy efficiency potential would have in 2030. The project covers the most relevant technical energy efficiency improvement actions and estimates impacts of reduced air pollution (and its effects on human health, eco-systems/crops, buildings), improved social welfare (incl. disposable income, comfort, health, productivity), saved biotic and abiotic resources, and energy system, energy security, and the macroeconomy (employment, economic growth and public budget). This paper explains how the COMBI energy savings potential in the EU 2030 is being modelled and how multiple impacts are assessed. We outline main challenges with the quantification (choice of baseline scenario, additionality of savings and impacts, context dependency and distributional issues) as well as with the aggregation of impacts (e.g. interactions and overlaps) and how the project deals with them. As research is still ongoing, this paper only gives a first impression of the order of magnitude for additional multiple impacts of energy efficiency improvements may have in Europe, where this is available to date. The paper is intended to stimulate discussion and receive feedback from the academic community on quantification approaches followed by the project.
The European Horizon 2020-project COMBI ("Calculating and Operationalising the Multiple Benefits of Energy Efficiency in Europe") aims at estimating the energy and non-energy impacts that a realisation of the EU energy efficiency potential would have in the year 2030. The project goal is to cover the most important technical potentials identified for the EU27 by 2030 and to come up with consistent estimates for the most relevant impacts: air pollution (and its effects on human health, eco-systems/crops, buildings), social welfare (including disposable income, comfort, health and productivity), biotic and abiotic resources, the energy system and energy security and the macro economy (employment, economic growth and the public budget). This paper describes the overall project research design, envisaged methodologies, the most critical methodological challenges with such an ex-ante evaluation and with aggregating the multiple impacts. The project collects data for a set of 30 energy efficiency improvement actions grouped by energy services covering all sectors and EU countries. Based on this, multiple impacts will be quantified with separate methodological approaches, following methods used in the respective literature and developing them where necessary. The paper outlines the approaches taken by COMBI: socio-economic modelling for air pollution and social welfare, resource modelling for biotic/abiotic and economically unused resources, General Equilibrium modelling for long-run macroeconomic effects and other models for short-run effects, and the LEAP model for energy system modelling. Finally, impacts will be aggregated, where possible in monetary terms. Specific challenges of this step include double-counting issues, metrics, within and cross-country/regional variability of effects and context-specificity.
Improvements in energy efficiency have numerous impacts additional to energy and greenhouse gas savings. This paper presents key findings and policy recommendations of the COMBI project ("Calculating and Operationalising the Multiple Benefits of Energy Efficiency in Europe").
This project aimed at quantifying the energy and non-energy impacts that a realisation of the EU energy efficiency potential would have in 2030. It covered the most relevant technical energy efficiency improvement actions in buildings, transport and industry.
Quantified impacts include reduced air pollution (and its effects on human health, eco-systems), improved social welfare (health, productivity), saved biotic and abiotic resources, effects on the energy system and energy security, and the economy (employment, GDP, public budgets and energy/EU-ETS prices). The paper shows that a more ambitious energy efficiency policy in Europe would lead to substantial impacts: overall, in 2030 alone, monetized multiple impacts (MI) would amount to 61 bn Euros per year in 2030, i.e. corresponding to approx. 50% of energy cost savings (131 bn Euros).
Consequently, the conservative CBA approach of COMBI yields that including MI quantifications to energy efficiency impact assessments would increase the benefit side by at least 50-70%. As this analysis excludes numerous impacts that could either not be quantified or monetized or where any double-counting potential exists, actual benefits may be much larger.
Based on these findings, the paper formulates several recommendations for EU policy making:
(1) the inclusion of MI into the assessment of policy instruments and scenarios,
(2) the need of reliable MI quantifications for policy design and target setting,
(3) the use of MI for encouraging inter-departmental and cross-sectoral cooperation in policy making to pursue common goals, and
(4) the importance of MI evaluations for their communication and promotion to decision-makers, stakeholders, investors and the general public.
The implementation of energy efficiency improvement actions not only yields energy and greenhouse gas emission savings, but also leads to other multiple impacts such as air pollution reductions and subsequent health and eco-system effects, resource impacts, economic effects on labour markets, aggregate demand and energy prices or on energy security. While many of these impacts have been studied in previous research, this work quantifies them in one consistent framework based on a common underlying bottom-up funded energy efficiency scenario across the EU. These scenario data are used to quantify multiple impacts by energy efficiency improvement action and for all EU28 member states using existing approaches and partially further developing methodologies. Where possible, impacts are integrated into cost-benefit analyses. We find that with a conservative estimate, multiple impacts sum up to a size of at least 50% of energy cost savings, with substantial impacts coming from e.g., air pollution, energy poverty reduction and economic impacts.
On 26 January 2019, the Commission on Growth, Structural Change and Employment recommended that no more coal-fired power plants would be operated in Germany by 2038 at the latest. In this paper the Wuppertal Institute comments on the results of the Commission and makes recommendations for the current necessary steps for the climate and innovation policy in Europe, Germany and North Rhine-Westphalia.
Am 26. Januar 2019 hat die Kommission "Wachstum, Strukturwandel und Beschäftigung" beschlossen, dass in Deutschland bis spätestens 2038 keine Kohlekraftwerke mehr betrieben werden sollen. Das Wuppertal Institut nimmt in diesem Papier Stellung zu den Ergebnissen der Kommission und gibt Empfehlungen für die nun notwendigen Schritte für die Klima- und Innovationspolitik in Europa, Deutschland und Nordrhein-Westfalen.
The Wuppertal Institute for Climate, Environment and Energy and the UNEP/Wuppertal Institute Collaborating Centre on Sustainable Consumption and Production (CSCP) set out to analyse Japanese dematerialisation and resource efficiency strategies within the 3R scope and searched for options of enhancing resource effi ciency strategies, commissioned by the German Federal Environment Agency. A further task of the project was to initiate a policy dialogue including stakeholders, academia, politics and Japanese and European environmental experts. The following paper summarises findings from the analyses, the results of the policy dialogues (Experts Workshop, 6 June 2007 and International Conference, 6 November 2007) and draws conclusions for a potential Japanese-European cooperation on the resource efficiency issue.
In diesem Papier wird über den Ansatz und die Ergebnisse der Forschungspartnerschaft "Perspektiven dezentraler Infrastrukturen im Spannungsfeld von Wettbewerb, Klimaschutz und Qualität (INFRAFUTUR)" berichtet. INFRAFUTUR - das steht für die Zukunft der dezentralen Infrastrukturen. Es wurde danach gefragt, welche Strategien geeignet sind, um die Ver- bzw. Entsorgung von privaten Haushalten und der Wirtschaft mit Dienstleistungen in den Sparten Energie, Wasser/Abwasser und Abfall zukunftsfähig zu sichern. Dabei konzentrierte sich die Analyse auf kommunalwirtschaftliche Unternehmen als Akteure.
Dieser Spartenband beinhaltet die wichtigsten Ergebnisse, die im Rahmen der Forschungspartnerschaft INFRAFUTUR in der Sparte Energie erarbeitet worden sind. In insgesamt 14 Kapiteln, die dem logischen Aufbau der Untersuchungen in der dreijährigen Partnerschaft folgen, werden für die Sparte Energie die Perspektiven dezentraler Infrastrukturen im Spannungsfeld von Wettbewerb, Klimaschutz und Qualität aufgezeigt. Schwerpunkt des Projektes war eine SWOT-Analyse, d.h. eine umfangreiche Analyse der Vor- und Nachteile einer dezentralen Organisation der Infrastrukturdienstleistungen sowie der Chancen und Gefahren für verschiedene kommunale Unternehmenstypen. Die Ergebnisse bildeten die Basis für die Strategieentwicklung, die in den Kapiteln 13 und 14 dargestellt wird. Um relevante Strategien für die beteiligten Praxispartner entwickeln zu können - trotz (zum Teil erheblicher) Unterschiede in den örtlichen und regionalen Gegebenheiten kommunaler Unternehmen der Energiewirtschaft - wurden drei idealtypische kommunale Unternehmenstypen als Referenzpunkt definiert.
Im Auftrag des Bundesministeriums für Ernährung, Landwirtschaft und Verbraucherschutz hat das Wuppertal Institut zusammen mit dem Büro Ö-quadrat einen Tarifvorschlag für Strom hinsichtlich seiner Auswirkungen begutachtet. Zielsetzung dieses Gutachtens war es einerseits herauszuarbeiten, ob der Tarifvorschlag unter der Bedingung, dass die Einführung des Tarifs für den jeweiligen Stromanbieter insgesamt erlösneutral gestaltet wird, nachhaltig zu einer finanziellen Entlastung der einkommensschwachen Haushalte beitragen kann. Andererseits wurde analysiert, ob der Vorschlag auch mit Klimaschutzerfordernissen und einer Gesamtstrategie zum Umbau der Energieversorgung kompatibel ist, die eine Umstellung auf regenerative Energien beinhaltet sowie eine deutliche Steigerung der Endenergieeffizienz vorsieht. Ergebnis: Die verpflichtende Einführung von "Stromspartarifen" ist nicht geeignet, einkommensschwache Haushalte bei Energiepreissteigerungen zu entlasten und gibt keinen Anreiz zur Stromeinsparung. Das Gutachten weist auf eine Fülle von Schwächen bei den vorgeschlagenen Tarifmodellen hin.
In this paper we report on the approach and findings of the research partnership "Prospects for decentralised infrastructures amid the competing demands of competition, climate protection and quality (INFRAFUTUR)." INFRAFUTUR stands for the future of decentralised infrastructures. We asked which strategies would be appropriate to safeguard supply and disposal services in the energy, water/sewage and waste sectors to private households and business on an enduring basis. In doing so, we focused our analysis on municipal and mixed municipal-private enterprises as players.
Durch zunehmenden Wettbewerb und steigende Anforderungen in den Bereichen Klimaschutz und Qualitätssicherung stellt sich für kommunale Versorgungsunternehmen immer öfter die Frage, wie
sie auch in Zukunft noch am Markt agieren können. Mit unterschiedlichen strategischen Maßnahmen kann die Daseinsvorsorge auf kommunaler Ebene gesichert und ausgebaut werden.
About 2 % of the overall electricity consumption of the EU is caused by circulators in single or double family homes and flats. A new technology of pumps with electronically commutated (EC) motor pumps is available now; it is one possible way to achieve a reduction in circulator annual electricity use by 60 % or more.
The project's objective is a market transformation towards this new very energy-efficient pump technologies - Energy+ pumps - for circulators in heating systems, both stand alone and integrated in boilers. Only few manufacturers have so far introduced the new pump technology to the market for single or double family homes and flats.
To bring more products to the market from all major manufacturers, the project will adapt and apply the technology procurement methodology as it was very successfully tested in the European Energy+ project on energy-efficient cold appliances.
Large buyers will be aggregated, to activate the pump and boiler manufacturers. Sales and training materials and a sizing spreadsheet software for installation contractors will be developed and applied. A competition both for energy-efficient products and marketing campaigns will be organised and the information on the Energy+ pumps will be disseminated widely through website, newsletter, media, and fairs.
This paper gives a short overview of this project and presents the results of the first project phases: a European wide market study on circulators and heating systems, and the first Energy+ lists for circulators, buyers and supporters.
The Russian natural gas industry is the world's largest producer and transporter of natural gas. This paper aims to characterize the methane emissions from Russian natural gas transmission operations, to explain projects to reduce these emissions, and to characterize the role of emissions reduction within the context of current GHG policy. It draws on the most recent independent measurements at all parts of the Russian long distance transport system made by the Wuppertal Institute in 2003 and combines these results with the findings from the US Natural Gas STAR Program on GHG mitigation options and economics.
With this background the paper concludes that the methane emissions from the Russian natural gas long distance network are approximately 0.6% of the natural gas delivered. Mitigating these emissions can create new revenue streams for the operator in the form of reduced costs, increased gas throughput and sales, and earned carbon credits. Specific emissions sources that have cost-effective mitigation solutions are also opportunities for outside investment for the Joint Implementation Kyoto Protocol flexibility mechanism or other carbon markets.
As many other countries, Germany misses to exploit most of its large potential for cost-effective energy efficiency improvements. An organisation collecting funds and allocating them to the most (cost-)effective programmes could be a solution.
Therefore, political parties and trade unions as well as environmental NGOs have called for the creation of such an Energy Efficiency Fund. A recent study by the Wuppertal Institute together with a number of partners, commissioned by the Hans Böckler Foundation, analysed the feasibility of such an institution.
It has been the objective of the project, completed in March 2005, to
identify the added value of an Energy Efficiency Fund,
develop concrete proposals for the institutional setting and the financing of an Energy Efficiency Fund in Germany,
prepare and assess the benefits and costs of a portfolio of innovative but realistic energy efficiency programmes and campaigns, which the Energy Efficiency Fund would implement,
identify the effects of the fundraising and the programmes on different industries, particularly on the suppliers of energy-efficient technologies and services, and on their growth and employment perspectives,
estimate the net employment effects of such an Energy Efficiency Fund and its activities.
This paper presents the results and assesses the usefulness of the project and the participatory elements for increasing the acceptance of such a policy instrument.
Mit Inkrafttreten des Kyoto-Protokolls am 16.2.2005 gelten für Deutschland und die meisten anderen Industrieländer völkerrechtlich bindende Minderungsziele für die 6 im Kyoto-Protokoll erfassten Treibhausgase. Damit erlangt eine durchaus kontrovers diskutierte Klimaschutzstrategie, die auf eine stärkere Umstellung der Energienutzung von Öl und Kohle auf mehr Erdgas setzt, zusätzlich an Bedeutung. Der nachfolgende Beitrag setzt sich mit der Klimabilanz des Erdgases unter Berücksichtigung der gesamten Prozesskette auseinander. Insbesondere werden neue Messergebnisse aus Russland dargestellt (Wuppertal Institut 2004), die zeigen, dass die dem Export von russischem Erdgas nach Deutschland zuzuordnenden indirekten Emissionen nur etwa ein Viertel der bei der Erdgasverbrennung entstehenden direkten Emissionen betragen. Damit bleibt Erdgas auch unter Berücksichtigung der indirekten Emissionen in Russland der fossile Energieträger mit den mit Abstand geringsten Treibhausgasemissionen.
Towards an effective and equitable climate change agreement : a Wuppertal proposal for Copenhagen
(2009)
This paper presents comprehensive proposals for the post-2012 climate regime: the scale of the challenge, emission targets for industrialised countries, increased actions by Southern countries, financing, technology, adaptation and deforestation. The proposals are based on ongoing research by the Wuppertal Institute.
Energy+ pumps : technology procurement for very energy efficient circulation pumps ; final report
(2009)
What are the best policies and measures to stimulate energy efficiency in buildings? The debate around this is at least as diverse as the markets and concepts for energy efficiency in buildings, and often quite controversial. However, no magic formula seems to have been found so far. It is, therefore, time to address the question in a new way - by combining both theoretical evidence on what policy support markets need, and empirical evidence on which combinations or packages of policies have worked.
In the context of its new four-year project bigEE - "Bridging the Information Gap on Energy Efficiency in Buildings", the Wuppertal Institute is implementing this new approach. The bigEE project aims at developing an international internet-based knowledge platform for energy efficiency in buildings. Hence, it must provide evidence-based information. On the theoretical side, the analysis starts with value chains in the building sector and the barriers but also actor-inherent incentives that the different types of market participants face. This enables to identify, which policies and measures need to be combined to jointly overcome the barriers and strengthen the incentives. On the empirical side, model examples of good practice are collected and compared. The search for these is guided by the results of the theoretical analysis, international expert opinion, and existing databases and platforms. In order to identify what is "good practice", the project uses a newly developed multi-criteria assessment scheme. Finally, the impacts achieved with the model examples, lessons learned, and their transferability will be used to validate the model policy package identified in the theoretical analysis.
The public launch of the bigEE platform is planned for autumn of 2011; eceee Summer Study participants will get a first glance at its content through this paper. The paper presents the methods and tools used and showcases their application for the case of new buildings
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.
Vor dem Hintergrund des Klimawandels und der Verknappung fossiler Ressourcen haben nachwachsende Rohstoffe in den letzten Jahren an Bedeutung gewonnen. Insbesondere die Bioenergie hat durch staatliche Fördermaßnahmen viel Aufmerksamkeit erfahren. Mit der Ausweitung der energetischen Nutzung von Biomasse sollen Beiträge zum Klimaschutz durch die Vermeidung von Treibhausgasen geleistet, die Versorgungssicherheit soll durch Ersatz der knapper werdenden fossilen Ressourcen erhöht und der ländliche Raum gestärkt werden. Die selben Argumente lassen sich auch für die stoffliche Nutzung von Biomasse heranziehen. Auch wenn diese etwas aus dem Blickfeld der energiebezogenen Diskussion geraten ist, kann hier in den nächsten Jahren ein erhebliches Marktwachstum erwartet werden. Biomasse als erneuerbare Ressource kann in Land- und Forstwirtschaft aber nur begrenzt bereitgestellt werden. Dies gilt umso mehr, als bestimmte Nachhaltigkeits-Anforderungen eingehalten werden müssen. Der zu erwartenden Nachfragesteigerung für nachwachsende Rohstoffe (Nawaro) steht damit eine limitierte Verfügbarkeit entgegen. Aus dieser leitet sich die Forderung nach einer möglichst effizienten Verwertung ab. In diesem Zusammenhang fällt immer häufiger der Begriff der Kaskadennutzung von Nawaro als möglicher Lösungsansatz. Dieses Konzept kann im Wesentlichen als eine Hintereinanderschaltung von (mehrfacher) stofflicher und energetischer Nutzung desselben Rohstoffs gesehen werden und schafft so eine Verbindung von Material- und Energiesektor. Das Prinzip der Kaskadennutzung ist damit ein Ansatz zur Steigerung der Rohstoffeffizienz von nachwachsenden Rohstoffen und zur Optimierung der Flächennutzung. Das Ziel des vorliegenden Berichts ist es, die Option "Kaskadennutzung" strategisch, differenziert und ganzheitlich zu beleuchten. Im Rahmen der Projektarbeit sind daher Anforderungen an eine nachhaltige Kaskadennutzung von Nawaro abgeleitet und Schlussfolgerungen zu deren Ausgestaltung gezogen worden, um die Potenziale von Biomasse hochwertig und erfolgreich zu nutzen.
The Energy End-use Efficiency and Energy Services Directive (ESD) of the European Union requires the member states to define and attain an overall target of at least 9 % annual energy savings between 2008 and 2016. Even if this target is indicative, this is the first international framework mandating countries to report on their energy savings results and prove achievement of their targets. The directive thus also required the development of harmonised calculation methods that can be used by member states for this proof and reporting. Existing literature covers most of the usual issues related to energy savings evaluation, but mostly looking at single, given energy efficiency programmes or policies. The evaluation objective for the ESD implementation is different, as it aims at accounting for the whole energy savings achieved in a country. Moreover, one of the main difficulties is the diversity in history and experience on this topic among the member states. In this context, the European project EMEEES has worked out an integrated system of bottom-up and top-down methods for the measurement of energy savings. The paper presents the overview of its final results. The proposals, inter alia, include 20 bottom-up and 14 top-down case applications of general evaluation methods. They enable more than 90 % of the potential energy savings to be measured and reported. They were used as a starting point by the European Commission to develop the methods recently recommended to the member states. Furthermore, the paper briefly discusses the importance of the quantity to be measured-all or additional energy savings - and the effect of measures implemented before the entering into force of the ESD ("early action"), and what this meant for the methods to be developed. It compares the main elements of calculation needed to ensure consistent results between bottom-up and top-down methods at the overall national level. Finally, general conclusions are drawn about what could be the next steps in developing an evaluation system that enables a high degree of comparability of results between different countries.
Mit Steigerungen der Energie- und Ressourceneffizienz sind gelegentlich sog. Rebound-Effekte verbunden. Die durch die Effizienzsteigerung eingesparten Kosten führen dann durch verstärkte Nutzung oder zusätzlichen Konsum und damit verbundener Produktion zu weiterem Energie- und Ressourcenverbrauch. Obwohl oft und gerne vergessen wird, dass Rebound-Effekte durchaus auch Indikatoren positiver Entwicklungen sind, reduzieren sie unstrittig erzielte Effizienzgewinne. Aber welchen Umfang haben diese Effekte überhaupt? Und gibt es Möglichkeiten, ihren Einfluss zu schmälern?
Energy sufficiency has recently gained increasing attention as a way to limit and reduce total energy consumption of households and overall. This paper presents both the partly new methods and the results of a comprehensive analysis of a micro- and meso-level energy sufficiency policy package to make electricity use in the home more sufficient and reduce at least the growth in per-capita dwelling size. The objective is to find out how policy can support households and their members, as individuals or as caregivers, but also manufacturers and local authorities in practicing energy sufficiency. This analysis needed an adapted and partly new set of methods we developed. Energy sufficiency does not only face barriers like energy efficiency, but also potential restrictions for certain household members or characteristics, and sometimes, preconditions have to be met to make more energy-sufficient routines and practices possible. All of this was analysed in detail to derive recommendations for which policy instruments need to be combined to an effective policy package for energy sufficiency. Energy efficiency and energy sufficiency should not be seen as opposed to each other but work in the same direction - saving energy. Therefore, some energy sufficiency policy instruments may be the same as for energy efficiency, such as energy pricing policies. Some may simply adapt technology-specific energy efficiency policy instruments. Examples include progressive appliance efficiency standards, standards based on absolute consumption, or providing energy advice. However, sufficiency may also require new policy approaches. They may range from promotion of completely different services for food and clothes cleaning, to instruments for limiting average dwelling floor area per person, or to a cap-and-trade system for the total electricity sales of a supplier to its customers, instead of an energy efficiency obligation.
Die voranschreitende Umstellung des Energiesystems von einer "additiven Rolle" regenerativer Energien hin zu deren Dominanz wirft zahlreiche Fragestelllungen auf, für deren Beantwortung in zunehmendem Maße Modellierungsansätze gewählt werden. Vor diesem Hintergrund ist in den letzten Jahren eine große Anzahl von modellbasierten Szenarioanalysen des deutschen Energiesystems entstanden. Da sie zum Teil sehr unterschiedliche Ergebnisse erzielen, die nur schwer miteinander vergleichbar sind, erschwert dies die Weiterentwicklung des Zukunftswissens zur Energiewende und auch die gegenseitige Qualitätssicherung der Ergebnisse.
Vor diesem Hintergrund hat das Wuppertal Institut zusammen mit den Partnern Fraunhofer ISE und DLR das RegMex-Projekt durchgeführt. Ziel des Projektes war zum einen die inhaltliche Weiterentwicklung der Diskussion zur Ausgestaltung der Energiewende. Zum anderen sollte durch den Modellvergleich eine höhere Transparenz der teilnehmenden Modelle erreicht werden, um die Implikationen und Auswirkungen verschiedener Modellansätze besser differenzierten zu können.
Im Modellexperiment 1 wurden für zwei Szenarien (Zielszenario und Ambitioniertes Szenario) das Gesamtsystem mit Hilfe von drei Energiesystemmodellen und im Modellexperiment 2 das Stromsystem und flexible Sektorenkopplung mit Hilfe von vier Stromsystemmodellen modelliert. In einem weiteren Arbeitspaket wurden "Disruptive Elemente" identifiziert und analysiert, die gravierende Auswirkungen auf das Energiesystem haben können. Die Modellexperimente zeigen klar, dass die Einordnung und Interpretation von Modellergebnissen nicht losgelöst von den Modellen und deren methodischen Unterschieden erfolgen darf.
India's present development trajectory is at a crucial juncture with a requirement to meet the demands of a population of over 1.2 billion while ensuring environmental sustainability. The resulting economic growth over the past two decades has over-exploited finite natural resources and led to tremendous environmental degradation. Therefore, decoupling economic growth from resource consumption is crucial in the transformation towards a green economy. Building construction is one of the most resource-intensive sectors, as well as creating a high impact on the environment. This study analyzes existing mechanisms in India's building construction sector that attempt to decouple economic growth from resource use and environmental impacts. The key contributors for decoupling are analyzed. Recommendations for regulations, market incentives, transparency, data monitoring and capacity-building are provided for an array of policy initiatives targeted at political and financial decision-makers at the national, state and local levels for different buildings.
Als Grundlage für die Praxishilfe "Klimaschutz in der räumlichen Planung" wurde im Auftrag des Umweltbundesamtes eine Reihe von Konzepten, Plänen und Programmen auf teil- bzw. gesamtstädtischer, regionaler und Landesebene untersucht, die für die Integration des Klimaschutz in die räumliche Planung beispielhaft sind. Es handelt sich im Schwerpunkt um formelle Instrumente (Bebauungs- und Flächennutzungspläne, Regionalpläne, Landesentwicklungspläne). Komplementär wurden auch informelle Instrumente untersucht, die die fachliche Grundlage für eine integrierte und effektive Bearbeitung des Klimaschutzes in der förmlichen Raumplanung darstellen (v.a. Energieversorgungs- und Klimaschutzkonzepte).
Conventional new buildings in OECD countries with a history of building codes save about 50 % of energy compared to average buildings in the building stock. This improvement, however, is not enough to create a building standard with low lifetime costs nor to reach long-term climate protection targets. Much higher energy savings can already be achieved through proven high-efficiency building concepts bringing net economic benefits among other advantages.
A strategic approach to integrated building design is the key to achieving these high-energy savings at low or no extra cost in residential buildings. In our paper we describe the "Easy Efficiency Approach", which can reduce primary energy consumption by 40 to 60 % compared to conventional new building standards, or by 70% to 80% when compared to the primary energy consumption of the existing building stock, and should be regarded as the minimum. This strategy focuses on low-cost options, mainly passive options. Although it can already significantly reduce energy consumption, this first step will not be sufficient to reach long-term climate protection goals. It is thus necessary to implement and support what we call an "Advanced Efficiency Approach", with savings up to 90% , as compared to new building standards, as soon as possible to avoid lock-in effects. Further improvements, especially through the active use of renewable energies, reduce the net primary energy demand to 0 % and beyond.
According to the chosen strategy clearly defined energy performance ranges, with reference to possible savings, for different climate zones worldwide are given. In verifying this approach simulations with BAT (Best Available Technologies) buildings of different types (single family, multi family, high rise) were carried out in close cooperation with project partners. This data has also been verified through an empirical database of built examples both for energy consumption as well their economic soundness.
Strategic policy packages to deliver energy efficiency in buildings : their international evidence
(2013)
The project "bigEE - Bridging the Information Gap on Energy Efficiency in Buildings" presents comprehensive information for energy efficiency in buildings and the related policy on the international internet-based knowledge platform bigee.net.
To develop the evidence-based information required for bigee.net, we addressed in a different and more systematic way than usual the question of how policy can support improved building energy efficiency most effectively: We combined (1) a theoretical, actor-centred analysis of market-inherent barriers and incentives for all actors in the supply and use chain of (energy-efficient) buildings to derive a recommended package combining the types of policies and measures the actors need to overcome all these barriers, with (2) empirical evidence on model examples of good practice policy packages to check if advanced countries have indeed used the combination of policies we derived from the actor-centred analysis.
In this way, we found that the recommendable policy package for new buildings is similar to the well-known one for appliances, but with the objective to mainstream nearly zero energy buildings. By contrast, the task for existing buildings is two-dimensional - increasing the depth of renovation first, to savings of 50 to 80%, and then the rate of energy-efficient renovation to 2% or more p.a. - and so the policy package needs more emphasis on individual advice, incentives, and financing. The paper presents the recommended packages as well as a comparison of existing national policy packages from California (USA), China, Denmark, Germany, and Tunisia and what we learned from it for effective packages and implementation.