IEA HPT Annex 49: Design und Integration von Wärmepumpen für Niedrigstenergiegebäude (nZEB)

Ein dominierendes Konzept, Niedrigstenergiegebäude (nZEB) zu erreichen, ist die Kombination von PV-Anlagen und Wärmepumpensystemen. Das erweiterte Spektrum des Annex 49 umfasste die Energiebilanz von Einzelgebäuden und Gebäudegruppe bzw. Siedlungen sowie eine gründliche Untersuchung durch Simulation und Monitoring der Integrationsoptionen sowie des Designs und der Regelung für Wärmepumpen in nZEB und deren Integration in die Energiesysteme.

IEA EBC Annex 70: Energie-Epidemiologie – Analyse des tatsächlichen Energieverbrauchs in Gebäuden

Im Rahmen des IEA-EBC Annex 70 wurden Ursachen über Abweichungen errechneter zu tatsächlicher Energieverbräuche in Gebäuden empirisch untersucht und Anforderungen an die Datenqualität, -charakteristik oder -sicherheit erarbeitet. Weiters wurden Empfehlungen hinsichtlich der Verwendung international einheitlicher Standards und Methoden der Datenerhebung, -aufbereitung und -auswertung entwickelt.

IEA EBC Annex 70: Building Energy Epidemiology: Analysis of Real Building Energy Use at Scale

Within the framework of the IEA-EBC Annex 70, causes of deviations between calculated and actual energy consumption in buildings were empirically investigated and requirements for data quality, characteristics and security were developed. Furthermore, recommendations were developed regarding the use of internationally uniform standards and methods for data collection, processing and evaluation.

IEA-DSM Spotlight-Newsletter #64, März 2017

Der Themenfokus des Newsletter liegt auf dem Nutzen von Verhaltensänderungen, der Wirtschaftlichkeit von Gebäudenachrüstungen sowie der Schweizer Energiestrategie 2050

EBC News Issue 65: Juni 2017 veröffentlicht!

Der Newsletter stellt Aktivitäten des EBC-Programms vor: Schwerpunktthemen sind Energieeffizienz und Treibhausgasemissionen im Bausektor.

IEA HPT Task 42: Heat pumps in smart energy grids for sustainable cities

The aim of Annex 42 is to analyse the technical possibilities as well as the economic/regulatory framework conditions of heat pumps for load balancing in smart grids, which are largely controlled by electricity supplier, and to investigate the impact on thermal consumers and possible potentials, in order to work out economic incentive models for load shifting and the benefits for energy supply companies and end customers on this basis.

IEA EBC Annex 80: Resiliente Gebäudekühlung

Im Projekt werden leistbare, energieeffiziente und nicht-fossile Lösungen der Kühlung und Sicherstellung von Sommertauglichkeit systematisch analysiert und weiterentwickelt. Im Rahmen der internationalen F&E-Zusammenarbeit wird fragmentiertes Wissen gebündelt und der österreichischen Bau- und Maschinenbauwirtschaft zur Verfügung gestellt. Durch leitende Teilnahme an der internationalen Forschung wird österreichische Kompetenz in klima-sensitiver Gebäudeoptimierung international verbreitet.

IEA EBC Annex 80: Resilient Cooling for Residential and Small Non-Residential Buildings

In the project cost and energy-efficient and non-fossil solutions for cooling and ensuring summer suitability are systematically analyzed and further developed. As part of the international R&D co-operation, fragmented knowledge is bundled and made available to the Austrian construction and mechanical engineering industry. Austrian expertise in climate-sensitive building optimization is disseminated internationally through leading participation in this international research.

EBC News Issue 67 June 2018

Der Newsletter berichtet über die Aufstockung des schwedischen Energieforschungsprogramms und gibt Einblick in die Projekte EBC-Annex 72, 73, 74 und 75.
Publisher: IEA-EBC Programm
English, 16 pages

Publication Downloads

• EBC News Issue 67 June 2018 (pdf)

IEA HPT Task 41: Cold Climate Heat Pumps

The aim was to increase the efficiency of outdoor air heat pumps in cold climates in locations with low outside temperatures of up to -25°C. Newly developed heat exchanger concepts were tested and optimized regarding their icing behaviour. Different circuit modifications were modelled and simulation studies for low ambient temperatures were carried out.

IEA EBC Annex 60: New generation computational tools for building and community energy systems based on the Modelica and Functional Mockup Interface standards

The objective was to develop and demonstrate next-generation computational tools that allow building and community energy grids to be designed and operated as integrated systems. The work conducted in Annex 60 has helped to share, further develop and deploy free open-source contributions of previously uncoordinated activities in modeling and simulation, based on the Modelica and Functional Mockup Interface standards.

IETS Newsletter No. 8, July 2018

Der Newsletter informiert über Neuigkeiten aus den laufenden Annexen, neue Publikationen, Meetings und weitere Aktivitäten aus dem Programm "Industrielle Energietechnologien und Systeme".
Publisher: IEA IETS
English, 2 pages

ISGAN Award of Excellence

Der Award zeichnet herausragende Innovation, Integration und Transformation von Smart Grid Systemen aus. Schwerpunkt sind "Local Integrated Energy Systems (Smart Microgrids)". Einreichfrist: 26. November 2018

IEA EBC Annex 61 - Business and Technical Concepts for Deep Energy Retrofit of Public Buildings

Target of IEA EBC Annex 61 was the development of technical and economical concepts for Deep Energy Retrofit of public buildings. To force high-quality and energy efficient retrofit, besides the enhancement and dissemination of innovative, technical retrofit concepts, the focus was in the development of innovative business models (energy-contracting).

IEA EBC Annex 64: Optimised Performance of Energy Supply Systems with Exergy Principles (Working period 2014-2018)

To reduce CO2 emissions in cities, an overall understanding of energy conversion processes is necessary, which also takes temperature levels into account. This is particularly important when alternative heat sources such as waste heat, ambient heat, solar and geothermal energy are to be used, as these often have a low temperature level, i.e. a low exergy content. Accordingly, urban energy systems are analysed and optimised within the framework of the IEA EBC Annex 64 with the help of the exergy approach.

IETS Newsletter No. 5, January 2017

Der Newsletter informiert über Neuigkeiten aus den laufenden Annexen sowie kommende Veranstaltungen und weitere Aktivitäten aus dem Programm "Industrielle Energietechnologien und Systeme".
Publisher: IETS TCP
English, 2 pages

Publication Downloads

• IETS Newsletter No. 5, January 2017 (pdf, 453.39 kB)

IEA EBC Annex 75: Kosteneffiziente Strategien in der Gebäudesanierung auf Stadtteilebene

Für die Umwandlung von bestehenden Gebäuden zu Niedrig(st)energiegebäuden mit geringen Treibhausgasemissionen ist wichtig zu wissen, welche Strategien am kosteneffizientesten sind, um Emissionen und Primärenergieverbrauch der Gebäude zu senken. Insbesondere ist es wichtig die richtige Balance zwischen Energieeffizienzmaßnahmen und Maßnahmen zum Einsatz Erneuerbarer Energieträger zu finden. Dieser Frage wird in diesem Projektvorhaben nachgegangen.

IEA EBC Annex 75: Cost-effective Building Renovation at District Level Combining Energy Efficiency & Renewables

For the conversion of existing buildings into low(st) energy buildings with low greenhouse gas emissions, it is important to know which strategies are most cost-effective to reduce emissions and primary energy consumption of the buildings. In particular, it is important to find the right balance between energy efficiency measures and renewable energy measures. This question is addressed in this project.

IEA HPT Annex 49: Design and integration of heat pumps for nZEB

A dominating concept to reach a nearly Zero Energy Building (nZEB) is the combination of solar PV systems and heat pumps. The extended scope of the Annex 49 regards the balance of single buildings and groups of buildings/neighbourhoods, a thorough investigation of heat pump integration options for nZEBs and nZE neighbourhoods by means of monitoring and simulation as well as the design and control optimization for heat pumps in nZEB and the integration into energy systems.

IEA EBC Annex 62: Ventilative Cooling

The main goal of the Annex 62 is to make ventilative cooling an attractive and energy efficient cooling solution to avoid overheating in buildings. Ventilation is already present in buildings through mechanical and/or natural systems and it can remove excess heat gains as well as increase air velocities to widen the thermal comfort range. The results from the Annex facilitate better possibilities for both design purposes and for energy performance calculation.