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- Energie-, Verkehrs- und Klimapolitik (17) (remove)
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.
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.
Die Energiewende regional gestalten : auf dem Weg zu einer Energiewende-Roadmap im Ruhrgebiet
(2017)
Diese Broschüre ist ein Produkt des Rahmenprogramms zur Umsetzung der Energiewende in den Kommunen des Ruhrgebiets: Die Aufgabe des Projektes bestand darin auszuloten, in welcher Weise Kommunen ihre Handlungskapazitäten zur Umsetzung der Energiewende in der Region bewahren beziehungsweise perspektivisch erweitern können.
Das Rahmenprogramm steuerte in seiner dreijährigen Projektlaufzeit (2013-2016) einen Beitrag zur Analyse der Handlungsfähigkeit von Kommunen im Ruhrgebiet zur Umsetzung der Energiewende bei und systematisierte bisherige Handlungsansätze in der Region. Es setzte an bestehenden Rahmenbedingungen an und versuchte, in Zusammenarbeit mit regionalen Akteurinnen und Akteuren künftige Handlungsansätze für eine langfristig angelegte Umsetzung der Energiewende in der Region zu identifizieren. Das vorliegende Dokument führt Ergebnisse des Projektes zusammen und formuliert strategische Hinweise für die weitere Umsetzung der Energiewende im Ruhrgebiet.
Der Abschlussbericht des dritten Arbeitspakets im Projekt "Energiesuffizienz" entwickelt aufbauend auf den Erkenntnissen der vorhergehenden Projektarbeiten Empfehlungen für ein integriertes Paket von Energiesuffizienzpolitiken im Feld Bauen/Wohnen. Der Fokus liegt auf dem Stromverbrauch in Haushalten. Dafür werden zunächst Leitlinien für die Governance von Energiesuffizienz und eine Methodik für die analytische Herleitung einer Energiesuffizienzpolitik entwickelt. Diese Analyse betrachtet Mikro- (Individuum) und Mesoebene (Haushalts-/Versorgungsökonomie). In sieben Schritten wird ein integriertes Politikpaket für Energieeffizienz und Energiesuffizienz entwickelt und eine juristische Kurzeinschätzung gegeben. Das Paket umfasst unter anderem eine Weiterentwicklung von Ökodesign und EU-Energielabel, eine integrierte Energieberatung sowie Förderprogramme für Geräte, die einen suffizienten Gebrauch ermöglichen, und für ressourceneffiziente Dienstleistungen, die Geräte im Haushalt ersetzen können. Zudem werden als Teil des Politikpakets auch übergreifende Politikansätze (Stromkundenkonto, Politikinstrumente zur Begrenzung des Wachstums der Pro-Kopf-Wohnflächen) analysiert.
Energy sufficiency has recently gained increasing attention as a way to limit and reduce total energy consumption of households and overall. This paper presents selected results of a research project funded by the German Federal Ministry of Education and Research that examined the potentials and barriers for energy sufficiency with a focus on electricity in households, how household members perceive sufficiency practices, and how policymakers could support and encourage these. Bottom-up calculations for an average 2-person household in Germany yielded a total electricity savings potential from energy efficiency and sufficiency combined of theoretically up to 75 %.
The continuous growth of per capita living space was identified as one important driver for additional energy consumption both for heat and electricity. The paper will present findings of a representative survey of 600 persons responsible for the housework. It revealed that a part of the households is already practicing sufficiency options or are open towards these. Up to 30 % of these households can imagine, given the right conditions and policy support, to move to a smaller dwelling or to share an apartment with others when they are older.
Results of a first comprehensive analysis of an energy sufficiency policy to encourage and support households to sufficiency practices form the second part of the paper, with a focus on the feasibility and potential effectiveness of instruments for limiting the growth in average living space per person. This includes a case study on fostering communal housing projects as a measure to reduce living space. Further, the feasibility of a cap scheme for the total electricity sales of a supplier to its customers was examined. Instruments supporting energy-efficient and sufficient purchase and use of equipment complete the integrated energy sufficiency and efficiency policy package.
The paper will finally present the project's conclusions on an integrated energy sufficiency policy package resulting from this analysis.
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.