Suchergebnisse
IEA AMF Task 63 Online Seminar-Serie: Sustainable Aviation Fuels
17. November und 1. Dezember 2022
Online
Drei Online Seminare werden im Rahmen des AMF Projekts zu nachhaltigen Flugtreibstoffen durchgeführt (IEA AMF Task 63: Sustainable Aviation Fuels). Diese dienen dazu, Best Practice Beispiele vor den Vorhang zu holen und zu diskutieren. Die Vortragssprache ist Englisch.
IEA IETS Task 19 Workshop: Elektrifizierung der Industrie
14. Oktober 2022
Redoutensäle, Promenade 39, 4020 Linz, AT
Dieser Workshop soll einen Überblick über das breite Thema der industriellen Elektrifizierung, ihre Bedeutung im Innovationssystem zur Dekarbonisierung, und ihren internationalen Kontext geben: Technologien für die direkte und indirekte Elektrifizierung, länderspezifische Perspektiven der IEA IETS Task 19 Teilnehmer:innen, Energieressourcennachfrage der Industrien, Nachfrage nach System- und Infrastrukturdienstleistungen.
Austrian ERS Forum
18. Juni 2024, 14 - 17 Uhr
Österreichische Energieagentur, Mariahilfer Straße 136, 1150 Wien, AT
Bei dieser Veranstaltung halten verschiedene Expert:innen Vorträge zum Thema Oberleitungs-Lkw, außerdem kann ein funktionstüchtiger Oberleitungs-Lkw besichtigt werden. Die Veranstaltung findet im Zuge des 6. IEA HEV Task 45 Workshops statt.
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 HPP Annex 33: Compact heat exchangers for heat pumping equipment
International cooperation aiming at widening the use of compact heat exchangers in heat pumping equipment. The goal of this project is to identify compact heat exchangers, either existing or under development, that may be applied in heat pumping equipment such as compression or absorption heat pumps.
IEA HPT Annex 43: Fuel Driven Sorption Heat Pumps
The project aimed at investigating the performance and market potential of gas-fired absorption heat pumps (AHPs) in domestic and small commercial or industrial buildings or applications. Selected processes were simulated for various types of buildings in order to calculate the energetic, ecological and economical potential of this technology. The results were compared with monitoring data of a gas-fired AHP system. In addition, a market survey including market barriers for gas-fired AHPs in Austria was conducted and a list of market supporting measures was compiled.
IEA HPT Annex 50: Heat Pumps in Multi-Family Buildings for Space Heating and DHW
The project aims at demonstrating the potentials of heat pump technology for the energy supply of multi-family houses (MFH) and to contribute to the elimination of existing market barriers. Concepts and innovative technology options for heat pumps in MFH will be investigated in detail by means of simulations and experiments. The findings and results will be presented in international expert meetings and disseminated among national heat pump manufacturers, installers and planners.
IEA HPT Annex 59: Heat Pumps for Drying Processes
Drying processes are highly energy-intensive and widespread in industry and commerce as well as in households in various forms. In this project, the potential for energy savings in drying processes in various applications will be investigated, which can be tapped through the use of heat pumps and made available to the relevant target groups in the form of guidelines, data, etc.
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 Cities Task 2: Data for Urban Energy Planning (Working period 2025 - 2029)
Cities consume 60–80% of the globally produced energy and play a central role in the energy transition. However, they face challenges such as insufficient data, missing methodologies, and legal barriers. The project offers practical solutions, best practice examples, and tools for urban energy planning. The focus is on international knowledge exchange, improved data access and quality, as well as collaboration with multipliers and municipalities.
Decarbonization of Cities and Communities (Cities TCP)
The Cities TCP is a joint international effort that aims to accelerate the decarbonization in cities by providing a communication platform for relevant expertise of all IEA bodies to the local scale including cities, financing institutions, utilities, service providers and building constructors. Vice-versa, the platform generates evidence-based research questions of cities needs for IEA TCPs.
IEA AFC Annex 31: Polymer electrolyte membrane fuel cell (Working period 2017 - 2019)
Task 31 is a research and development oriented Task with the objective to contribute to the identification and development of techniques and materials to reduce the cost and improve the durability of polymer electrolyte fuel cells (PEFCs).
IEA AFC Annex 31: Polymer Electrolyte Fuel Cells (Working period 2020 - 2024)
AFC Annex 31 covers the technological development of the key components of fuel cells, system development, market introduction support through the analysis and development of the political framework conditions and the reduction of market entry barriers.
IEA AFC Annex 34: Fuel Cells for Transportation (Working period 2022 - 2025)
The vision of the Technology Collaboration Programme on Advanced Fuel Cells (AFC TCP) is to make a significant contribution to addressing the opportunities and barriers to the commercialisation of fuel cells by promoting the development of fuel cell technologies and their applications at the international level. In detail, Annex 34 deals with the advantages and disadvantages of fuel cells, the further development of storage media, the recording of cost reduction potentials and the results analysis of pilot projects for mobile applications.
IEA AFC Annex 35: Fuel cells for portable applications (Working period 2017 - 2019)
The aim of Annex 35 is the information exchange on the status and new developments of portable fuel cell systems and comprises the development and manufacture of membrane electrode assemblies (MEAs) all the way through to system components such as electronic converters or gas supply units. In addition the setup and configuration of hybridized systems and the key topics of secure operation, codes and standards are of interest.
IEA AFC Annex 33: Stationary Applications (Working period 2017 - 2019)
The main objective of Annex 33 is to support the technology development of key components and systems. Market implementation and transformation will be supported by the analysis and development of the necessary political framework and instruments. The current technological, economic and political barriers are to be identified, solutions developed and the barriers gradually removed.
IEA AFC Annex 35: Fuel cells for portable applications (Working period 2020 - 2023)
The aim of Annex 35 is the information exchange on the status and new developments of portable fuel cell systems and comprises the development and manufacture of membrane electrode assemblies (MEAs) all the way through to system components such as electronic converters or gas supply units. In addition, the setup and configuration of hybridized systems and the key topics of secure operation, codes and standards are of interest.
IEA AFC Annex 34: Fuel Cells for Transportation (Working period 2019 - 2022)
The overall objective of the project is the advancement of fuel cells in transportation applications. To ensure a comprehensive penetration of the automotive market, the focus will be laid on the cost-reduction potential of fuel cell components and systems including hydrogen storage, the hydrogen infrastructure and fuel cell vehicles in public transportation as well as fuel cell powered utility vehicles.
IEA TCP AFC Annex 33: Stationary Fuel Cells (Working period 2024 - 2027)
The focus of this task is on the secure supply of electricity for service and industrial applications. Analyses of at least three real applications (e.g. applications in healthcare facilities, data centers) show the strengths and weaknesses of stationary fuel cells compared to batteries and diesel generators. Global technological developments are considered in the analyses and target group-specific communication is used to promote the exchange with stakeholders.
IEA AFC Task 30: Electrolysis (Working period 2024 - 2027)
IEA AFC Task 30 deals with the production of hydrogen through electrolysis. Questions regarding material costs and durability, efficiency and reliability are at the core of research efforts. This is addressed through the development of new materials and advanced monitoring strategies to detect aging phenomena, as well as the optimisation of operating strategies. Within Task 30, developments shared among the world's leading research institutions and companies.