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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.
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.
Energiesuffizienz ist neben Energieeffizienz ein zweiter Weg, den Energieverbrauch zu reduzieren. Während Energieeffizienz bei unverändertem Nutzen den Energieinput senkt, ist Energiesuffizienz eine Strategie mit dem Ziel, die Menge an technisch bereitgestellter Energie durch Veränderungen der Quantität oder Qualität des Nutzens aus Energie auf ein nachhaltiges Maß zu begrenzen oder zu reduzieren. Das kann durch Reduktion, Substitution oder Anpassung des Nutzens an den Bedarf im Alltag geschehen. Viele Haushalte praktizieren schon Energiesuffizienz, aber die Hemmnisse für eine stärkere Nutzung sind groß. Auch die Energiesuffizienz im Haushalt benötigt daher eine Flankierung durch die Politik. Im BMBF-Projekt "Energiesuffizienz" wurde daher erstmals eine integrierte Energiesuffizienzpolitik untersucht, die insbesondere den Stromverbrauch in den privaten Haushalten adressiert.
Energy Efficiency First (EEF) is an established principle for European Union (EU) energy policy design. It highlights the exploitation of demand-side resources and prioritizes cost-effective options from the demand-side over other options from a societal cost-benefit perspective. However, the involvement of multiple decision-makers makes it difficult to implement. Therefore, we propose a flexible decision-tree framework for applying the EEF principle based on a review of relevant areas and examples. In summary, this paper contributes to applying the EEF principle by defining and distinguishing different types of cases - (1) policy-making, and (2) system planning and investment - identifying the most common elements, and proposing a decision-tree framework that can be flexibly constructed based on the elements for different cases. Finally, we exemplify the application of this framework with two example cases: (1) planning for demand-response in the power sector, and (2) planning for a district heating system.
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.
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.
The paper presents the results of an ex-ante evaluation of the economy-wide benefits that may be achieved through the implementation of the 20-year Energy Efficiency Action Plan (EEAP) in Thailand. The objective of the EEAP is to reduce energy intensity by 25 % in 2030 compared to 2010. This is to be reached by reducing the projected energy consumption by 20 % or 38 Mtoe until 2030. We have specified an analytical framework, which allows for a calculation of the overall energy cost savings, energy import cost reductions and reduced CO2 emissions. Moreover, we calculated the induced energy efficiency investments, employment effects and impacts on governmental budget. The evaluation shows that an effective implementation of the plan may lead to a reduction in energy expenditure of 37.7 billion EUR by 2030. Moreover, the EEAP-induced energy savings will significantly reduce the greenhouse gas emissions as well as Thailand’s energy import costs and generate private investment in energy efficiency of about 5 billion EUR annually in 2030, which in turn may lead to about 300,000 new jobs. The size of the net impact of the plan on Thailand’s governmental budget is uncertain due to positive and negative effects on corporate and income tax revenues, expenses for unemployment benefits, governmental energy consumption, expenses for energy subsidies and energy tax income.
In Germany, the number of renewable energy prosumers has increased rapidly since 2000. However, the development of prosumers has faced and will continue to face various economic, social, and technological challenges, which have triggered the emergence of a number of innovative business models (BM). This paper enriches the empirical basis for prosumer-oriented BMs by investigating two BM innovations in Germany (P2P electricity trading and aggregation of small-size prosumers) drawing on business model and socio-technical transition theories. A mix of qualitative data collection methods, including document analysis and semi-structured expert interviews, was applied. We found that while both BMs can potentially address the challenges associated with renewable energy prosumer development in Germany, small-scale prosumers’ participation in both BMs has been limited so far. We identified various internal and external drivers and barriers for scaling up these BMs for prosumer development in Germany. Despite these barriers, both aggregation and centralized P2P targeting prosumers may potentially be also taken up by incumbent market actors such as utilities. Decentralized P2P on the other hand still faces significant internal and external barriers for upscaling. Based on the analysis, the paper provides policy recommendations with respect to the identified drivers and barriers. From a theoretical perspective, our findings provide further evidence to challenge the dichotomous understanding of niche actors and incumbents, the latter of which are often theorized to be resistant to radical innovations.
Das vorliegende Papier zeigt, welche Weichen die Politik stellen muss, um den Gebäudebestand bis 2045 klimaneutral zu machen. Im Fokus stehen höhere Effizienzanforderungen für Bestands- und Neubauten, ein schnellerer Ausstieg aus Gas- und Ölheizungen, gleichzeitig aber auch höhere Anreize und bessere Unterstützung für Gebäudebesitzende sowie warmmietenneutrale Sanierungen, um Mietende vor einer Überlastung zu schützen.
Dabei müssen bestehende Gebäude so renoviert werden, dass sie ähnlich wie Neubauten kaum noch Energie verbrauchen. Gleichzeitig müssen Heizenergie und Stromversorgung komplett auf erneuerbare Energien umgestellt werden. Zudem muss durch intelligentere Nutzungskonzepte der Anstieg der Gebäudeflächen gebremst werden. Die kommende Legislaturperiode ist somit entscheidend, damit Klimaneutralität im Gebäudesektor bis spätestens 2045 erreicht werden kann.
Dieser Zukunftsimpuls schlägt daher ein 14 Maßnahmen umfassendes und konsistentes Politikpaket vor. Neben den oben genannten Maßnahmen des Förderns und Forderns gehören dazu insbesondere klare Vorgaben für eine bessere energetische Sanierung und ein deutliches Ziel für den Ausstieg aus fossilen Gas- und Ölheizungen, die allen Beteiligten Sicherheit geben. Individuelle Sanierungsfahrpläne für alle heute noch nicht effizienten Gebäude bis spätestens 2028 und kommunale Wärmepläne helfen den Gebäudebesitzenden bei der technischen Entwicklung ihrer Gebäude und der Investitionsplanung. Häufig sind es die nicht-monetären Hemmnisse, die maßgeblich für die geringe Sanierungsrate sind. One-Stop-Shops verringern die Hemmschwelle Maßnahmen umzusetzen. Darüber hinaus wirkt Quartiersmanagement unterstützend und hilft Kräfte zu bündeln.
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