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Im Forschungsprojekt "Landscaping" untersuchte das Wuppertal Institut die für Nordrhein-Westfalen aus heutiger Sicht denkbaren Technologieansätze, die dafür nötigen politischen Rahmenbedingungen sowie mögliche Innovationen entlang der Wertschöpfungsketten. Bestandteil des Berichts sind Steckbriefe, in denen die möglichen Technologien für treibhausgasneutrale Industrieprozesse samt offener Forschungsfragen und Infrastrukturbedarfe dargestellt sind. Das Projekt entstand im Auftrag des Ministeriums für Wirtschaft, Innovation, Digitalisierung und Energie des Landes Nordrhein-Westfalen.
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).
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.
Options and potentials for energy end-use efficiency and energy services : summary ; final report
(2006)
Energy+ pumps : technology procurement for very energy efficient circulation pumps ; final report
(2009)
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.
In diesem Gutachten wurde untersucht, welche Optionen zur Gestaltung eines marktbasierten haushaltsunabhängigen Verpflichtungsansatzes zur CO2-Minderung im deutschen Gebäudebestand bestehen. Die Analyse erfolgte technologieoffen und berücksichtigte neben Sanierungsmaßnahmen zur Steigerung der Energieeffizienz auch einen verstärkten Einsatz CO2-armer/erneuerbarer Energien. Das Verpflichtungssystem soll in der Lage sein, die bestehenden Treibhausgas (THG)-Minderungsziele im Gebäudebestand möglichst kostengünstig auf kurz- und langfristig sinnvolle Weise zu erreichen und sich gut in das bestehende Förderinstrumentarium integrieren lassen.
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.
The efficiency strategy to exploit the potential for energy savings in buildings still is applied rather slowly in most countries. In addition, there are indications that energy savings are partly compensated particularly by wealth but also rebound effects, the "empty nest" (persistence of elderly people and couples in family homes), and cohort effects (e.g. vintages of people or buildings). In Germany, as in other European countries, the existing trend in housing is a continuously growing floor space per capita. Over the last decades it expanded from about 20 m2 in 1960 to currently 45 m2 per person. Forecasts expect a further increase to more than 50 m2 per person. Obviously, more floor space needs more energy for space heating and cooling, ventilation, and lighting, but it also allows the household to operate more and or bigger appliances, all of which increase energy consumption.
On the other hand, housing projects emerge offering relatively small private living spaces in combination with various shared spaces to use. Many of them are based on private initiatives. But what is the motivation behind it? And is there a higher need for new living concepts in the future?
The proposed paper presents main drivers of increasing floor space per capita in Germany and discusses the question if more space is necessary for higher comfort. It presents different examples of housing concepts that strive to achieve good living with less space and suggests a "building typology of sufficiency".
Finally, the paper discusses qualitatively to which extent these housing concepts can lead to less energy use and emissions. In this way sufficiency could be best friend with efficiency and tackle wealth, rebound, and other effects that counter-act efficiency progress. But therefore, as the paper concludes, politics and policies should recognise sufficiency as a field of action instead of referring to individual decisions and lifestyles.
Estimating the sufficiency potential in buildings : the space between underdimensioned and oversized
(2019)
The emission reduction potential of energy efficiency and energy supply in buildings is estimated in various energy and climate action plans, scenarios, and potential analyses. But the third pillar of sustainability - sufficiency - is neglected in most studies.The increasing demand of space per person in the residential sector is a trend in most European countries. Its implication on energy use, demand for resources like land, building material, equipment, and waste production is enormous. Next to the ecological impact, the distribution of space has social and societal effects. Thus, sufficiency policies in the building sector complementing efficiency and energy policy are needed for a sustainable development of the European building stock.
But how can a sufficiency potential in the building sector be estimated? How much space and equipment is needed for a decent living and how much is too much? The paper proposes four areas of sufficiency in buildings: space, design and construction, equipment, and use. It presents a set of indicators, a quantitative estimate of energy savings from reduced per capita floor area, and visualises the sufficiency potential in European countries in an experimental approach. The final discussion focuses on the question: What does this mean for policy making?
This article presents the findings of a European study on energy efficiency in the public sector, entitled "Public procurement of Energy Saving Technologies in Europe" (PROST), completed in 2003. Energy efficiency in the public sector goes far beyond energy savings and climate protection. Energy efficiency must be seen as a strategy, which deals both with scarce public funds and with profound energy and climate challenges. The gains to be made are substantial. The study assessed the potential for energy and cost savings and the greenhouse gas reductions that are linked to energy efficiency in the European public sector. To the knowledge of the authors, this is the first time such an analysis has been carried out. The study concluded that there are no fundamental legal obstacles that would a priori disable the public sector from procuring energy efficient technologies or applying energy efficiency considerations in its daily building management routines. However, at the level of implementation obstacles can occur. It is therefore of paramount importance that there is sufficient political will and adequate incentive systems at all relevant levels. It appeared to be particularly effective when public procurement is energy-efficiency minded in all its operations and life cycle costing is applied for investments instead of conventional public budgeting procedures. The study demonstrates that consistent and EU-wide application of these principles and instruments can result in rather substantial savings both in terms of energy and in terms of money. With additional annual investments in energy efficiency of 80 million Euro, energy savings in the (EU15) Member States' public sector worth up to 12 billion Euro per year can be achieved. A supplementary analysis was performed for a selection of the new Member States, which indicated that the potential for energy and fiscal savings is substantial in those countries as well.
Energy efficiency of a range of domestic appliances covered by the labelling and ecodesign directives has improved significantly over the last 15 years. However, the power consumption of the German residential sector has remained relatively constant over this period. Besides other factors, such as decreasing average household size, the main reasons for this development were the increases of the types, features, size, equipment stock and usage times of appliances and devices in private households.
The project "Energy Sufficiency - strategies and instruments for a technical, systemic and cultural transformation towards sustainable restriction of energy demand in the field of construction and everyday life" investigates how the complementation of energy efficiency with energy sufficiency could lead to more user adequate domestic products and product-service systems and thereby result in an absolute reduction of power consumption.
In this project, energy sufficiency is defined as a strategy to reduce energy consumption by three approaches:
1. Quantitative reduction of sizes, features, usage times of devices etc.
2. Substitution of technical equipment in households by e.g.urban services.
3. Adjustment of technical services delivered by appliances toutility needed and desired by users.
The energy saving effects of an application of these approaches were modelled for different types of households and the energy saving potentials of energy sufficiency quantified. Innovative approaches for user adequate products and services were developed in open innovation workshops by the Design Thinking method. The paper summarizes some of the intermediate results of theoretical and transdisciplinary investigations of the project that runs until May 31, 2016. Furthermore, a first set of design criteria for user adequate appliances enabling energy sufficiency are developed based on these results. The paper concludes with suggestions for the future development of energy labelling and ecodesign derived from the design criteria and supplemented by examples of existing requirements according to the voluntary environmental label "Blauer Engel".
Der Endbericht stellt die Ergebnisse des Projekts "Energiesuffizienz - Strategien und Instrumente für eine technische, systemische und kulturelle Transformation zur nachhaltigen Begrenzung des Energiebedarfs im Konsumfeld Bauen/Wohnen" dar. In dem Projekt wurde untersucht, wie energiesuffiziente Alltagsroutinen, soziale Praktiken und Lebensstilaspekte mit den sozialen und ökologischen Anforderungen an eine nachhaltige Entwicklung in Einklang gebracht werden können und wie die strukturellen und politischen Rahmenbedingungen gestaltet werden müssen, so dass Energiesuffizienz im Alltag akzeptabler und praktikabler wird. Für die drei prinzipiellen Energiesuffizienz-Ansätze Reduktion, Substitution und Anpassung wurden Reduktionspotenziale für den Haushaltsstromverbrauch quantifiziert. Für ausgewählte Anwendungsfelder wurden die Ergebnisse in Form von Suffizienzspektren dargestellt. Anschließend wurden Politikansätze zur Unterstützung von Energiesuffizienz in Privathaushalten analysiert und Vorschläge für ein integriertes Paket von Politikinstrumenten für Energieeffizienz und -suffizienz entwickelt. Die Erkenntnisse des Projektes sind unter anderem in einen internetbasierten Haushalts-Strom-Check, in ein Handbuch zur nachhaltigen Produktgestaltung für die Geräteindustrie und in die Entwicklung von Vorschlägen für nationale und EU-Instrumente zur Reduktion des Stromverbrauchs und zur Förderung des kommunalen Klimaschutzes eingeflossen.
Decoupling energy and resource use from growth in the Indian construction sector : a baseline study
(2017)
India is currently at a crucial juncture where it is aiming for economic growth to meet the basic needs of its 1.2 billion people. However, so far this growth has resulted in energy shortages and the increasing use of limited resources. This policy brief series is about decoupling, i.e. improving efficiency to reduce the resources and energy needed for this growth and meet the country's increasing development needs.
The construction sector is highly resource and energy intensive; it is therefore imperative that it moves towards a path of environmental sustainability. This transition is likely to be achieved by decoupling both resource and energy use from the sector's growth. Decision-makers in the sector will play a crucial role in achieving this. The aim of this policy brief series is to inform decision-makers in India at central government and state level about the current status of research, policy and institutions in the Indian construction sector and to identify key drivers and barriers. Finally, practical recommendations will be made for decision-makers about how to promote decoupling of resource and energy use from growth in the construction sector.
Policy brief 1 focuses on the baseline for decoupling in the Indian construction sector. The study draws attention to the existing scenario in terms of key policies, research and institutions linked to resources and energy in the sector.
India is currently at a crucial juncture where it is aiming for economic growth to meet the basic needs of its 1.2 billion people. However, so far this growth has resulted in energy shortages and the increasing use of limited resources. This policy brief series is about decoupling, i.e. improving efficiency to reduce the resources and energy needed for this growth and meet the country's increasing development needs.
The construction sector is highly resource and energy intensive; it is therefore imperative that it moves towards a path of environmental sustainability. This transition is likely to be achieved by decoupling both resource and energy use from the sector's growth. Decision-makers in the sector will play a crucial role in achieving this. The aim of this policy brief series is to inform decision-makers in India at central government and state level about the current status of research, policy and institutions in the Indian construction sector and to identify key drivers and barriers. Finally, practical recommendations will be made for decision-makers about how to promote decoupling of resource and energy use from growth in the construction sector.
Policy brief 2 focuses on analysing the potential for decoupling in the Indian buildings and construction sector. Primary and secondary research was conducted to identify the factors that influence decoupling. Subsequently, a framework was established to make it possible to measure the nature and extent of decoupling that is possible within the existing policy environment. Furthermore, gaps, drivers and barriers have been identified which could enable a potential analysis study on decoupling to be carried out. In addition, examples of good practice from Germany and other European countries have been studied with a view to learning lessons that can help to bridge the current gaps in India.
India is currently at a crucial juncture where it is aiming for economic growth to meet the basic needs of its 1.2 billion people. However, so far this growth has resulted in energy shortages and the increasing use of limited resources. This policy brief series is about decoupling, i.e. improving efficiency to reduce the resources and energy needed for this growth and meet the country's increasing development needs.
The construction sector is highly resource and energy intensive; it is therefore imperative that it moves towards a path of environmental sustainability. This transition is likely to be achieved by decoupling both resource and energy use from the sector's growth. Decision-makers in the sector will play a crucial role in achieving this. The aim of this policy brief series is to inform decision-makers in India at central government and state level about the current status of research, policy and institutions in the Indian construction sector and to identify key drivers and barriers. Finally, practical recommendations will be made for decision-makers about how to promote decoupling of resource and energy use from growth in the construction sector.
Policy brief 3 focuses on recommendations both at national and state level on the possible interventions that could result in resource and energy use being decoupled from growth in the Indian construction sector. Lack of a comprehensive policy on resource efficiency and the possibility of using secondary raw materials to obtain resource and impact decoupling continue to be the key issues that India will have to grapple with in the years to come.
Vor dem Hintergrund der europäischen Klimaschutzziele bis 2050 und der damit erforderlichen Dekarbonisierung der Wirtschaft werden in dem Vorhaben die Weiterentwicklungsoptionen der europäischen Energieeffizienzpolitiken untersucht. Es werden die Sektoren private Haushalte, Verkehr und Industrie betrachtet sowie der förderliche Rahmen, d. h. auch sektorübergreifende Instrumente. In den vorgeschlagenen Politikpaketen soll sich die Vielfalt der Instrumententypen abbilden. Neben Best-Practice-Beispielen liegen Länderstudien für drei große Volkswirtschaften der EU vor (Deutschland, Frankreich, Italien) und mit Polen auch eine Länderstudie für einen Mitgliedstaat aus dem mittelosteuropäischen Raum.
Die Wirtschaftsleistung von Deutschland ist durch die Corona-Pandemie stark beeinträchtigt. Um die Wirtschaft zu beleben, einigten sich die Regierungsparteien am 3. Juni 2020 in ihrem Koalitionsausschuss auf ein "Konjunktur- und Krisenbewältigungspaket" sowie ein "Zukunftspaket" in Höhe von insgesamt 130 Milliarden Euro. Für 2020 und 2021 sind fast 60 Maßnahmen vorgesehen, die von steuerlichen Vergünstigungen bei der Mehrwertsteuer bis hin zu konkreten Investitionen in Zukunftstechnologien reichen. Mit Blick auf den Klimaschutz beinhaltet das Maßnahmenpaket der Großen Koalition zwar gute Ansätze und viele wichtige Impulse, die allerdings zu verpuffen drohen, wenn sie nicht durch eine konsequente und nachhaltig ausgerichtete Klimapolitik flankiert werden. Zudem fehlen für den Klimaschutz wichtige Bereiche, wie Investitionen in die Kreislaufwirtschaft. Außerdem werden Maßnahmen zur Steigerung der Energieeffizienz nur unzureichend berücksichtigt. Gerade in diesen Bereichen hätten sich konjunkturbelebende Effekte und Klimaschutz in idealer Form ergänzen können, kritisiert das Wuppertal Institut. Dieses Diskussionspapier reagiert auf die vorliegenden Vorschläge und fasst zusammen, welche Maßnahmen im Rahmen der jetzt anstehenden Umsetzungsphase nachgebessert werden sollten und wo Ergänzungen notwendig sind.
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.
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.
Staatliche Regulierung ist verpönt. Häufig läuft es dann auf den Appell hinaus: Jeder einzelne Bürger habe es selbst in der Hand. Doch die Alltagsroutinen sind in der Regel mächtiger als das Umweltbewusstsein. Beim Marmor für das Badezimmer spielen Amortisationszeiten keine Rolle. Die solare Warmwasseranlage ist dagegen oftmals "zu teuer". Gesetzliche Standards hingegen verselbstständigen Energieeffizienz und den Ausbau erneuerbarer Energien. Sie machen "Öko zur Routine". Dieser Artikel beschreibt die Notwendigkeit für das Schaffen neuer Routinen und zeigt wie dies durch Standards, Limits und faire Umsetzungsbedingungen sowie attraktive Alternativangebote zum gegenwärtigen, häufig nicht nachhaltigen Verhalten auch möglich ist.
In this project, an overview and prioritization of relevant technologies of the German energy transition are presented in a consolidated form. Many of the relevant technologies have already been developed and deployed to the market. However, in various sectors like system integration or sector coupling, innovation needs remain, as well as in-depth research on further possibilities and potentials for cost degression and technology optimization for all technologies.
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.
Studies show that people can tolerate elevated temperatures in the presence of appreciable air movement (e.g., from using ceiling fans). This minimises the use of air-conditioners and extends their set-point temperature (Tset), resulting in energy savings in space cooling. However, there is little empirical evidence on the energy savings from using ceiling fans with Room Air-Conditioners (RACs). To address this gap, we analysed the energy performance of RACs with both fixed-speed compressors and inverter technology at different set-point temperatures and ceiling fan speed settings in 15 residential Mixed-Mode Buildings (MMBs) in India. Thermal comfort conditions (as predicted by the Indian Model for Adaptive Comfort-Residential (IMAC-R)) with minimum energy consumption were maintained at a set-point temperature (𝑇set) of 28 and 30 C and a fan speed setting of one. Compared with a Tset of 24 °C, a 𝑇set of 28 and 30 °C resulted in energy savings of 44 and 67%, respectively. With the use of RACs, a configuration with a minimum fan speed was satisfactory for an optimal use of energy and for maintaining the conditions of thermal comfort. In addition, RACs with inverter technology used 34-68% less energy than fixed-speed compressors. With the rising use of RACs, particularly in tropical regions, the study's outcomes offer a significant potential for reducing space-cooling energy consumption and the resultant greenhouse gas (GHG) emissions.
D2.1 report on local EPC situation and cross-country comparison matrix : QualDeEPC H2020 project
(2020)
Considering that 40% of the European Union's energy consumption can be traced back to its buildings, it is essential to improve their energy efficiency in order to achieve the EU's energy efficiency targets. Both the rate of energy renovation and its depth, i.e. the amount of energy savings during a renovation, need to be improved. Energy Performance Certificates (EPC), regulated by the EU's Energy Performance of Buildings Directive (EPBD), are an important instrument to enhance the market uptake of energy-efficient new buildings and the energy-efficient renovation of existing buildings.
Against this background, the Horizon2020 funded project QualDeEPC will work on EU-wide convergence of the building assessment and the issuance, design, and use of quality-enhanced EPCs as well as their recommendations for building renovation. The aim is to make these recommendations coherent with deep energy renovation towards a nearly-zero energy building stock by 2050.
The first part of the QualDeEPC project (work package 2) aims to identify the priorities for elements of EPC schemes that show a need to be improved, and for which the project will investigate further and propose how the elements can be improved. The first step in identifying these priorities is taking stock of the existing EPC schemes. Based on the input from all national consortium partners and other sources, the Wuppertal Institute prepared this detailed overview of the country-specific EPC assessment and certification procedures and their links to other policies and programmes, existing initiatives, and projects. The analysis was based on a list of almost 50 potential options for enhancing the existing EPC schemes.
The aim of this deliverable is to present this stock-taking by a detailed analysis on which of the potential enhanced EPC elements are already implemented in which form in which country, covering all 28 countries that were EU member states until 31 January 2020. All partners conducted bilateral interviews with the major actors in the EPC procedures, including executive bodies on EPC at regional and/or national level. For countries not represented in the Consortium, Wuppertal Institut and EAP conducted specific literature research, e.g. from the Concerted Action EPBD, and aimed to obtain contributions from other member states. The information collected allows a detailed presentation on the elements implemented as well as a cross-country comparison matrix (see Annex I) in this report, which outlines the current EPC practices across the EU regarding the elements of a good practice scheme or innovative improvement options, their comparability, compliance with EU legislation, and to which extent they differ or converge.
The results show, once more, the high diversity in EPC schemes across the EU. They also provide useful information in at least two directions: 1) which improvement options are not yet implemented at all or in sufficient quality in most QualDeEPC partner countries as well as other EU member states, and could therefore be interesting candidates for the further work of the QualDeEPC project in development, testing, discussion, and possibly implementation of elements for enhanced and converging EPC schemes; and 2) which countries, within or beyond the QualDeEPC project, offer good practice examples for the implementation of these options that could serve to guide the development and implementation in other countries. This deliverable will thus serve as a basis for the upcoming tasks to develop priorities and actual proposals for improvement of EPC schemes.
To achieve the EU's energy efficiency targets, both the rate of building energy renovation and its depth, i.e., the amount of energy savings post renovation need to be improved. Energy Performance Certificates (EPCs) are key to make energy efficiency measures transparent for the building market and to promote the energy efficiency of buildings through renovation. The revision of the Energy Performance of Buildings Directive (EPBD) is seen as a pre-condition to meet the Renovation Wave objectives and to reach a highly energy efficient and decarbonized building stock by 2050. One focus of the current revision of the EPBD is therefore the improvement of EPCs. QualDeEPC - High-quality Energy Performance Assessment and Certification in Europe Accelerating Deep Energy Renovation, funded under the EU's Horizon 2020 programme, is a project that aims to improve EPCs. Following an EU-wide review of existing EPC schemes, and extensive stakeholder discussions in the seven partner countries, QualDeEPC found that EPCs and EPC schemes need to enhance particularly in the following three ways:
1. Establish a close link between EPCs and deep energy renovation
2. Improve the quality of EPC schemes, i.e., both the EPCs and their data, and the processes of assessment, certification, verification
3. Improve cross-EU convergence of EPC schemes.
Reliably reducing the emissions in the building sector plays a crucial role if the 1.5°C climate target from the Paris Agreement is to be met. The observed trends show a significant increase in building energy use, especially in emerging economies. Counteracting these trends is absolutely essential, especially in the light of urbanisation, population growth and changing lifestyles. In terms of mitigating the climate impact of buildings, ensuring high levels of efficiency (i.e. very low energy needs, especially for heating and cooling) has the greatest potential for saving energy and emissions, and is at the same time the prerequisite for effective use of energy from renewable sources. Clearly defined targets and suitable metrics are essential to enable appropriate design decisions. Implemented projects clearly indicate that quality assured design and construction lead to reliable in-use energy performance. Effective policy packages to address opportunities and challenges are important drivers to support the uptake of state-of-the-art efficiency measures in the urban building sector.
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.
How are neighbours doing? : Making energy efficiency efforts comparable through NEEAP screening
(2012)
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
Proposals for contributions of emerging economies to the climate regime under the UNFCCC post 2012
(2008)
Under the principle of "common but differentiated responsibilities” (Article 3.1 of the UNFCCC) non-Annex I parties have so far been exempted from emission limitation or reduction commitments. However, the pressure is mounting on those countries, especially major emitting developing countries, to contribute actively to the mitigation of climate change. Participation by these developing countries in a future international climate regime is often called for, but it is usually unclear how and how much these countries should participate, what kind of support they need and in which sectors. This project aims to provide a more detailed view on six countries to understand how they could best make a contribution to the regime and how they could best be supported in limiting their greenhouse gas emissions.
In order to limit global warming and fulfill their contributions to the Paris agreement, both Germany and Japan have set targets for climate neutrality towards the middle of the century. Reaching these goals will imply transformation of all sectors of society to avoid all fossil greenhouse gas emissions, heavy industry not the least. The focus of this study is the transformation of the petrochemical industry. This sector can become climate neutral but cannot be "decarbonized", as carbon is integral to the chemical structures of the products like polymers and solvents. Reaching climate neutrality thus means that the whole lifecycle of the petrochemical products has to be regarded. Another specific challenge is today's synergetic relation of this industry to fossil transport fuel production, which cannot be maintained in a climate neutral world.
The two countries interestingly share a similar industrial structure overall, and the chemical and petrochemical industry is one of the major industries in both countries. The countries' respective chemical industries are the third and fourth largest in the world in terms of sales, but at the same time, these industries represent just over 5% of the respective countries' greenhouse gas emissions. However, these scope 1 emissions of the chemical industry itself are far less relevant than the end-of-life emissions of their products, which belong to scope 3 and are thus not counted under the chemical industry in the country greenhouse gas balances. To mediate these emissions, there is a need to set the direction, draw out paths and investigate possible alternatives for how the petrochemical industry can be become climate neutral. In this report, the existing scenario analyses, energy strategies and roadmaps dealing with this issue in the two countries are compared, as well as the current state of their petrochemical industries. We highlight similarities, differences and identify possible areas of cooperation and exchange in order to find robust paths forward for the transformation of the petrochemical industries.
The QualDeEPC project is aiming to both improve quality and cross-EU convergence of Energy Performance Certificate schemes, and the link between EPCs and deep renovation: High-quality Energy Performance Assessment and Certification in Europe Accelerating Deep Energy Renovation. The objective of the project is to improve the practical implementation of the assessment, issuance, design, and use of EPCs as well as their renovation recommendations, in the participating countries and beyond.
This report serves as a compilation of the project's proposal for an enhanced and converging EPC assessment and certification scheme. It aims to provide a detailed description on the set of practical concepts, policy proposals, and tools for an enhanced EPC scheme towards deep renovation, developed by the QualDeEPC project. The project's substantial proposals both on EU and national level are presented in a comprehensive and rational way, guiding the relevant stakeholders, in particular the policy makers and competed bodies, on which steps need to be followed so as the proposals to be adapted and how the specific values can be determined in MSs. Furthermore, this report includes the project's proposal for defining "Deep Energy Renovation" based on a modified nZEB-based approach.
The project's priorities A) to G) addressed are presented in the following order in this document, reflecting the importance of the enhanced EPC template form and the training of EPC assessors in such schemes:
A) Improving the recommendations for renovation, which are provided on the EPCs, towards deep energy renovation;
E) High user-friendliness of the EPC, by way of an enhanced EPC template form, including an introduction of the proposed "Energy Rating" indicator;
D) Regular mandatory EPC assessor training or examination on assessment and renovation recommendations, required for certification/accreditation and registry;
B) Online tool for comparing EPC recommendations to deep energy renovation recommendations;
C) Creating Deep Renovation Network Platforms (DRNPs);
F) & G) Voluntary/mandatory advertising guidelines for EPCs and Improving compliance with the mandatory use of EPCs in real estate advertisement.
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.
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.
Target 2020 : policies and measures to reduce greenhouse gas emissions in the EU ; final report
(2005)
Zielsetzung des Forschungsprojektes war es, Klimaschutzszenarien für Deutschland zu entwickeln, die hinsichtlich ihres klimapolitischen Ziels, d.h. ihres langfristigen Emissionsminderungsbeitrags, im Wesentlichen gleich sind, die aber zum Teil auf unterschiedliche Optionen zur Reduktion der energiebedingten CO2-Emissionen setzen. Diese Klimaschutzszenarien wurden hinsichtlich sozioökonomischer und ökologischer Kriterien evaluiert und miteinander verglichen.
There's no decarbonisation without energy efficiency : but take care of the "rebound effects"
(2013)
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.
Die Grundstoffindustrie steht derzeit vor großen Herausforderungen. Die Unternehmen müssen die akuten dramatischen Folgen der Coronakrise bewältigen, aber auch bereits in den nächsten Jahren in neue klimafreundliche Technologien investieren, um das Ziel einer klimaneutralen Wirtschaft im Jahr 2050 zu erreichen. Im Fachforum Energieintensive Grundstoffindustrie beim Grünen Wirtschaftsdialog diskutierten Akteure aus Wirtschaft, Politik und Wissenschaft, welche politischen Instrumente die Transformation der Industrie unterstützen und die notwendigen Investitionen ermöglichen können. Vom Wuppertal Institut wurde für das Fachforum ein Scoping Paper erstellt, welches den Stand der aktuellen Fachdiskussion zu zentralen Politikinstrumenten zusammenfasst und die wichtigsten offenen Ausgestaltungsfragen diskutiert. Das Papier wurde im Austausch mit den Akteuren im Fachforum entwickelt und in mehreren Sitzungen des Forums vorgestellt und diskutiert. Inhaltlicher Schwerpunkt sind Instrumente für faire internationale Wettbewerbsbedingungen, Carbon Contracts for Difference, und Ansätze für Energiepreisreformen.
Using natural gas for fuel releases less carbon dioxide per unit of energy produced than burning oil or coal, but its production and transport are accompanied by emissions of methane, which is a much more potent greenhouse gas than carbon dioxide in the short term. This calls into question whether climate forcing could be reduced by switching from coal and oil to natural gas. We have made measurements in Russia along the world's largest gas-transport system and find that methane leakage is in the region of 1.4%, which is considerably less than expected and comparable to that from systems in the United States. Our calculations indicate that using natural gas in preference to other fossil fuels could be useful in the short term for mitigating climate change.
Der Anteil erneuerbarer Energien bei der Wärme- (und Kälte-)Versorgung lag 2021 in Deutschland bei 16,5 % (knapp 200 TWh/a). Davon stammten 86 % aus Biomasse und davon wiederum 47% allein aus Holzfeuerungen im häuslichen Bereich. Der Rest der erneuerbaren Wärme stammte aus oberflächennaher Geothermie und Umgebungswärme (Wärmepumpen) mit 9 % und Solarthermie mit 4,2 %. Bisher vergleichsweise kleine Beiträge stammten aus der tiefen Geothermie. Im Jahr 2021 waren bezogen auf die rund 21 Millionen im Bestand befindlichen Einzelgebäudeheizanlagen (nicht Einzelraumfeuerstätten) 1,1 Mio. Wärmepumpen und 0,9 Mio. Biomassekessel im Betrieb. Hinzu kommen zusätzliche 2,5 Mio. solarthermische Anlagen mit einer Gesamtkollektorfläche von rund 21 Mio. m2. Bei den neu installierten Wärmeerzeugern konnten Wärmepumpen und Biomassekessel auch 2021 einen deutlich steigenden Absatz verzeichnen, wobei ihr Anteil an den insgesamt rund 930.000 neu installierten Wärmerzeugern bei knapp 25% lag.
Doch 2021 nutzten immer noch rund 19 Mio. Wärmeerzeuger Gas und Öl. Darüber hinaus müssen in Wohngebäuden auch noch Etagenheizungen und veraltete Biomasseheizsysteme ausgetauscht werden. Für eine erfolgreiche Wärmewende bis 2045 im Gebäudewärmebereich müssen also weiterhin jedes Jahr rund eine Million neue komplett Erneuerbare-Heizanlagen installiert und in Betrieb genommen werden. Nach dem Anschluss an zumindest perspektivisch vollständig erneuerbar versorgte Wärmenetze sind für alle anderen Objekte Wärmepumpen, Wärmepumpen-Biomasse-Hybride und, nur wo es keine anderen Möglichkeiten gibt, reine Biomassekessel zu installieren. Alle Lösungen lassen sich zusätzlich mit Solarthermieanlagen ergänzen. Im Vergleich zu Erdgasthermen ist jedoch allein die Installation der deutlich komplexeren Systeme mit mindestens dem doppelten Zeitaufwand zu veranschlagen, während die Branche bereits heute über einen realen Fachkräftemangel klagt. Es braucht also wirksame Lösungsansätze der Forschung zur Überwindung dieser und vieler anderer Hemmnisse zur erfolgreichen Wärmewende bis 2045.
Die Entscheidung für ein von volatilen Erzeugungsquellen dominiertes Stromsystem stellt an die Stabilisierung des Systems neue Anforderungen. Zugleich bieten sich neue Optionen. Die bisherige Asymmetrie, nach der für die Stabilisierung die Kraftwerksseite verantwortlich sei, ist überkommene Praxis, deswegen auch heute habituell naheliegend, aber vermutlich nicht länger effizient. Die im Titel genannten nachfrageseitigen Ausgleichsoptionen (SE & DSM) bieten sich an. Im Beitrag wird deren Potential abgeschätzt. In vier Gestaltungsfeldern wird zudem gefragt, ob die bislang von der Politik gegebenen rechtlichen Mandate konsequent SE & DSM als Option berücksichtigen. Das Ergebnis ist viermal (weitgehende) Fehlanzeige.
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.
Die Dekarbonisierung der Mietwohnungsbestände ist zwingende Voraussetzung für die Einhaltung deutscher Klimaschutzziele. Hierzu ist eine schnelle und deutliche Verbesserung der Energieeffizienz unabdinglich. Aber: funktioniert der Markt für Energieeffizienz bei Mietwohnungen? Eine empirische Untersuchung auf dem Wuppertaler Mietwohnungsmarkt gibt Antworten darauf. Um die Sanierungsrate signifikant zu steigern, etwa durch eine höhere Zahlungsbereitschaft für Energieeffizienz, braucht es sowohl für Vermieter als auch für Mieter verbesserte Rahmenbedingungen.
The electric utility sector in Australia, Germany and the U.S. are all going through major changes driven by declining sales, increasing use of distributed energy sources and policy responses to global climate change. This paper discusses efforts in each of these countries to reform their electric industries, address climate change and promote energy efficiency. Going forward, we see a role for government, utilities and private market energy efficiency efforts in all three countries, although the emphasis will vary by country and will evolve over time. Where all three parties can work together with a common vision, reform efforts are likely to be more successful and more sustained. In all three countries the future is uncertain. In the face of this uncertainty, energy efficiency supporters need to keep abreast of these changes, and find more flexible and nimble policy strategies for energy efficiency to prosper, as the future is likely to unfold in unexpected ways.
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.
Strengthening global climate governance and international cooperation for energy‐efficient buildings
(2023)
Buildings constitute one of the main GHG emitting sectors, and energy efficiency is a key lever to reduce emissions in the sector. Global climate policy has so far mostly focused on economy-wide emissions. However, emission reduction actions are ultimately sectoral, and opportunities and barriers to achieving emission reductions vary strongly among sectors. This article therefore seeks to analyse to what extent more targeted global governance may help to leverage mitigation enablers and overcome barriers to energy efficiency in buildings. To this end, the article first synthesises existing literature on mitigation enablers and barriers as well as existing literature on how global governance may help address these barriers ("governance potential"). On this basis, the article analyses to what extent this governance potential has already been activated by existing activities of international institutions. Finally, the article discusses how identified governance gaps could be closed. The analysis finds that despite the local characteristics of the sector, global governance has a number of levers at its disposal that could be used to promote emission reductions via energy efficiency. In practice, however, lacking attention to energy efficiency in buildings at national level is mirrored at the international level. Recently, though, a number of coalitions demanding stronger action have emerged. Such frontrunners could work through like-minded coalitions and at the same time try to improve conditions for cooperation in the climate regime and other existing institutions.
Die große Herausforderung der Industrietransformation ist von besonderer Bedeutung für Nordrhein-Westfalen als eine der wichtigsten Industrieregionen Deutschlands und Europas, in der etwa die Hälfte der Anlagen der energieintensiven Grundstoffindustrie Deutschlands verortet sind und in der die industrielle Produktion wirtschaftlich eine besonders große Rolle spielt. Gleichzeitig kann eine gelingende Transformation der Industrie in NRW als Blaupause für andere Regionen dienen. Der vorliegende Bericht stellt die Ergebnisse des Forschungsprojekts SCI4climate.NRW 2018-2022 dar, welches die Industrietransformation in NRW wissenschaftlich begleitet und untersucht hat.
Energieeffizienz weltweit : energieeffiziente Gebäude als Schlüssel für eine nachhaltige Entwicklung
(2015)
Rund ein Drittel der weltweiten energiebezogenen CO2-Emissionen sind auf den Verbrauch durch Gebäude zurückzuführen. Ohne eine sogenannte Gebäudewende sind die notwendigen CO2-Einsparungen nicht zu ereichen. Eine Internetplattform bündelt das weit verstreute Wissen zu diesem Thema und bietet Orientierung.
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.
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.
In der dreijährigen Forschungspartnerschaft "Infrafutur" kooperierten das Wuppertal Institut, dreizehn Unternehmen der kommunalen Wirtschaft und der Verband kommunaler Unternehmen. Sie untersuchten, welche Strategien geeignet sind, um die Ver- und Entsorgung von privaten Haushalten und der Wirtschaft in den Sparten Energie, Wasser/Abwasser und Abfall zu sichern und zu stärken. Zu diesem Zweck wurden in Form von Szenarien die Zukunftsaussichten kommunalwirtschaftlicher Infrastrukturunternehmen im Spannungsfeld von Wettbewerb, Klimaschutz und Qualität intensiv analysiert. Die Methoden der Forschungspartnerschaft "Infrafutur" können auch von anderen kommunalwirtschaftlichen Unternehmen gewinnbringend eingesetzt werden. Dieser Endbericht in Buchform stellt die erarbeiteten strategischen Konzepte einem breiten Kreis für die Umsetzung zu Verfügung. Als ein wesentliches Ergebnis wurde herausgearbeitet, dass Dezentralität als Leitprinzip und der Ausbau dezentraler Infrastrukturen eine entscheidende Grundlage für eine nachhaltige und umfassende Qualitätssicherung in den Sparten Energie, Wasser/Abwasser und Abfall bilden. Die von kommunalwirtschaftlichen Unternehmen erbrachte Daseinsvorsorge überwindet die einseitige Orientierung am Shareholder Value zugunsten eines Beitrags zur Sicherung der natürlichen Lebensgrundlagen durch Klima- und Ressourcenschutz. Sie fördert die Vielfalt von Akteuren und kann die Ausweitung oligopolistischer Strukturen begrenzen. Zudem verstärkt sie die Kundenbeziehung, mobilisiert Potenziale vor Ort bei den erneuerbaren Energien, bei Energie- und Materialeffizienz und reduziert den Import von Energie und Rohstoffen. Die Szenarienanalysen zeigen jedoch auch, dass diese positiven Beiträge und Perspektiven dezentraler Infrastrukturen sich nicht im Selbstlauf ergeben, sondern dass im EU- und nationalen Maßstab förderliche Rahmenbedingungen in der Klima-, Energie-, Abfall- und Wasserpolitik geschaffen werden müssen.