S.3 Ökodesign und Energieverbrauchskennzeichnung
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Energy efficient products often have a higher purchase price than less efficient alternatives. However, the life cycle costs are often lower due to the lower operating costs. From a purely economic point of view, efficient appliances are not only more ecological but often also more economical and, accordingly, should be purchased more frequently than less efficient appliances. However, this is not always the case. Information deficits are one of the major reasons of this discrepancy: the purchase price is visible during the purchasing process, but the follow-up costs are not, at least not in their exact amount. The EU Energy Label can be considered as a solution to close this gap. During the past decades, there has been a discussion on whether it would be better to communicate the monetary costs associated with energy consumption, since their calculation by the consumer is difficult or needs a high level of cognitive effort.
In this study, experiments and field studies on a total of 19 product groups were evaluated with regard to the question of whether the indication of costs instead of physical units affects the decision-making process of the consumer. It has been assessed under which circumstances it might positively influence the purchase decision of the customer, i.e. helping him or her to arrive at a more “energy efficient” decision. Overall, the results indicate that monetary claims possibly exceed the effect of claims on a physical basis when the costs or the differences between the alternatives available seem “relevant” to the consumer.
Eines haben die Krisen dieses Jahrzehnts gemeinsam: Sie motivieren zum Handeln. Bezüglich der Klimakrise wird eine grundlegende Änderung unseres Wirtschaftens als wesentlicher Lösungsweg gesehen. Die aktuell praktizierte lineare Wertschöpfung führte zu Ressourcenknappheit und -abhängigkeit und trug aktiv zur Verstärkung des Klimawandels bei. Wie wir in diesem Jahrzehnt unseren Absprung von gewohnten Produktions-, Konsum- und Verwertungsmustern gestalten, wird entscheidend für die nächsten Jahrzehnte sein. Die Frage, wie bis 2030 die Transformation hin zu einer zirkulären Wirtschaft gelingen kann, wurde u.a. von der Circular Economy Initiative Deutschland beantwortet. Sie nennt zehn Handlungsschwerpunkte, wobei „Standardisierung“ mit an wichtigster Stelle steht. Dieses beruht auf Gegenseitigkeit. Auf der diesjährigen G7 Standardisation High-level Conference wurde Circular Economy zu dem Themabereich mit dem größten Potential für Klimaschutzmaßnahmen gesehen.
In 2022 haben DIN, DKE und VDI mit über 500 Fachexperten aus Wirtschaft, Wissenschaft und Politik an einer Normungsroadmap Circular Economy gearbeitet. Die BAM war in fünf von sieben Schwerpunktthemen beteiligt. Ziel der Roadmap ist es, einen Handlungsrahmen für die Normung und Standardisierung zu schaffen, der die Transformation hin zu einer Circular Economy fördert. Normen und Standards bilden den untergesetzlichen und technischen Rahmen, auf denen eine zirkuläre Wirtschaft aufwachsen kann. Sie definieren Schnittstellen und stellen eine klare Kommunikation zwischen den verschiedenen Phasen des zirkulären Kreislaufes sicher – sie machen einen Kreislauf erst möglich.
In der Präsentation sind die Highlights der Normungsroadmap Circular Economy dargestellt. Die Roadmap liefert einen Überblick über die aktuelle Normungslandschaft sowie die An- und Herausforderungen zu Schwerpunktthemen wie Elektrotechnik, Kunststoffe, Verpackungen, Textilien, Bauwerke, etc. Mit >250 Normungs- und Standardisierungsbedarfen zeigt die Roadmap konkrete Handlungsfelder auf, ebenfalls mit Überschneidungen zum Geschäftsfeld der BAM.
Deutschland befindet sich inmitten eines umfassenden Transformationsprozesses hin zu einer klimaneutralen und nachhaltigen Wirtschaft und Gesellschaft. Sowohl das Erreichen der Klimaziele als auch die Anpassung an die Folgen des Klimawandels fordern ein rasches, bestimmtes und gleichzeitiges Handeln in vielen Sektoren und Lebensbereichen.
Normen und Standards können einen wichtigen Beitrag zum Erreichen dieser Ziele leisten. So haben Normungsorganisationen weltweit mit der ISO London Declarationeinen Pakt zur Unterstützung des Klimas geschlossen. Das bestehende Normenwerk muss auf Klimawandel-Tauglichkeit überprüft und eine Überarbeitung angestoßen werden.
Der Klimawandel als Querschnittsthema betrifft alle Wirtschaftszweige, und daher bieten DIN, DKE und VDI mit dieser durch Impulsvorträge eingeleiteten Diskussionsreihe eine Plattform zum Austausch über Normung als Werkzeug zum Thema Klima mit allen Akteuren.
„Getränkekühler optimal einsetzen“: So sparen Sie die Energiekosten und schonen das Klima.
Wussten Sie, dass Sie durch den Einsatz eines effizienten Getränkekühlers (Energieeffizienzklasse B) ca. 114 € pro Jahr sparen im Vergleich zu einem weniger effizienten Gerät (Energieeffizienzklasse D)? Aber nicht immer gibt es die Möglichkeit ein Neugerät anzuschaffen. Oft werden die Kühlgeräte von Getränkeherstellern zur Präsentation ihrer Waren zur Verfügung gestellt. Trotzdem tragen am Ende die Betreiber:innen die Betriebskosten der Geräte.
Aber auch beim Einsatz Ihres weniger effizienten Getränkekühler gibt es verschiedene Möglichkeiten, die Energiekosten zu senken. Beispielsweise kann schon der Einsatz einer Zeitschaltuhr zu einer Stromreduzierung von bis zu 50 Prozent oder auch die richtige Platzierung der Geräte an kühlen Orten ohne Zugluft zu einem geringeren Strombedarf von bis zu 30% führen.
In unserer Checkliste für die Aufstellung und das Betreiben von Getränkekühlgeräten zeigen wir Ihnen einfache Schritte, um den Energieverbrauch schnell zu senken.
The global COVID-19 pandemic has brought far-reaching changes for our society. Suddenly, millions of people spent the majority of their time at home - either due to a lock down or by switching from office to working remotely. This paper offers a literature review regarding pandemic-related behavioural changes and a first mapping of likely consequences for EU Ecodesign regulations. These impacts are considered for product groups that are already regulated by EU Ecodesign or are under discussion for future regulation. Furthermore, potential for smart home applications are analysed exemplarily. We identified which behavioural changes have the potential to become established in the long-term. This might need to result in adaptions for regulations under the Ecodesign Directive and EU-Energy Labelling regulations to better reflect the recently appeared usage profiles. It might require different priority settings regarding the product groups to be regulated and communicated to users, due to online shopping proliferation, to be updated. Changed behaviour can be observed in product groups such as ICT, consumer electronics and household appliances. Examples include the increased use of laptops and tablets for digital teaching, use of gaming devices and office equipment in private households (IT, printing and network devices) and changed cooking behaviour. This resulted in increased sales of some product types. Online sales became even more important than in-store sales, which also means that consumers are increasingly informed online about energy efficiency. More do-it-yourself (DIY) home projects result in more frequent - not yet regulated - DIY power tool use and over the long run might stimulate the need for (semi-)professional tools. The changes in behaviour patterns also offer the opportunity to optimize consumption by means of smart homes and smart products. However, the control of networked household appliances requires additional energy for standby states and data exchange. As an illustrative example, we discuss the conflict between higher energy consumption for smart system components and the possible optimization of consumption in private households.
In 2020, the European Commission has announced to propose a Sustainable Product Policy for the EU which shall ensure that the performance of front-runners in sustainability progressively becomes the norm. In addition, the European Commission has re-emphasised the necessity to significantly improve the effectiveness of the current Ecodesign framework for energy-related products.
With this paper, we present an initial outline of a policy approach which we call the “EU frontrunner approach”. The approach aims at installing a regulatory framework which enables a semi-automated, progressive adaptation of ecodesign minimum requirements for products. It builds on performance levels of the best products available on the market by aggregating information in a database.
The “front-runner approach” could first be applied to progressively adapt product-related minimum energy-efficiency requirements. This way it would serve as a starting point to introduce this conceptto the EU policy arena.
While the approach can be applied for energy efficiency, it is neither limited to energy-related products nor to energy-related requirements. It can be applied to the wide range of nonenergy related products within the scope of the upcoming Ecodesign for Sustainable Products Regulation (ESPR) as well as to non-energy-related requirements, such as minimum requirements for durability, reparability, recyclability and recycled content.
(i) Überblick zum aktuellen Stand der Normung und aktuellen Normungsvorhaben im Bereich Ökodesign.
(ii) Vorstellung des Forschungsprojektes (Steigerung der produktbezogenen Energie- und Ressourceneffizienz) vor allem in Hinblick auf Vorhaben die sich auf die Langlebigkeit, Reparierbarkeit und Recyclingfähigkeit.
Smart Products Enable Smart Regulations—Optimal Durability Requirements Facilitated by the IoT
(2021)
The challenges and opportunities linked with IoT have been intensively discussed in recent years. The connectivity of things over their entire life cycle and the smart properties associated with it provide new functionalities and unprecedented availability of (usage) data. This offers huge opportunities for manufacturers, service providers, users, and also policymakers. The latter May impact policy areas such as the regulations on resource and materials efficiency under the Ecodesign Directive 2009/125/EC. With the general approach as it is practiced today, legal requirements are usually set for entire product groups without considering the products individually, including user behavior and environmental conditions. The increasing number of smart products and the growing availability of product data are sparking a discussion on whether these requirements could be more product and application-specific. This paper presents a method for calculating the economically and ecologically optimal durability of a product. It allows determining the point in time when a product should be replaced by combining consumer data with product design data. This novel Approach could contribute to making product regulation more flexible and possibly more efficient. In this context, fundamental challenges associated with smart products in policymaking are also discussed.
Highly ordered and highly cooperative water with properties of both solid and liquid states has been observed by means of neutron scattering in hydrophobic one-dimensional channels with van der Waals diameter of 0.78 nm. We have found that in the initial stages of adsorption water molecules occupy niches close to pore walls, followed later by the filling of the central pore area. Intensified by confinement, intermolecular water interactions lead to the formation of well-ordered hydrogen-bonded water chains and to the onset of cooperative vibrations. On the other hand, the same intermolecular interactions lead to two relaxation processes, the faster of which is the spontaneous position exchange between two water molecules placed 3.2-4 A from each other. Self-diffusion in an axial pore direction is the result of those spontaneous random exchanges and is substantially slower than the self-diffusion in bulk water.
Whilst the concept of ecodesign is intended to account for the environmental impacts of the product across its whole lifecycle, European ecodesign policy to date has been heavily focused upon energy efficiency in the use phase. The Ecodesign Directive and Energy Labelling Regulation have achieved substantial energy savings since their inception. For many products, the magnitude of savings available from further tightening existing energy efficiency requirements is now often outweighed by savings that can be achieved by material efficiency requirements. Further, there are some products such as smartphones for which there are limited gains to be made in energy efficiency but for material efficiency. In the Commission’s Circular Economy Action Plan from 2015, a new direction was defined for ecodesign policy, to systematically examine considerations such as reparability, durability, upgradability, recyclability, or the identification of certain materials or substances. The Commission consequently issued a standardisation request (M/543, 2015) to the European Standardization Organisations (CEN / CENELEC / ETSI) to develop generic/horizontal standards relevant to energy-related products that address these major aspects of material efficiency. In this study we evaluate the potential contribution of these new standards (with specific focus on the standards for repair, durability and recyclability) to future developments under the European Ecodesign Directive. Opportunities for the impact of these standards to be enhanced by future work are highlighted.