Projects within the framework of open4innovation
There are 1230 results.
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 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 51: Acoustic Signatures of Heat Pumps
The aim of the project was to increase the acceptance of heat pumps by reducing their noise emissions and vibrations and to reduce market barriers. Using innovative measurement and data analysis methods, influencing factors on the acoustic emissions of heat pump systems and the impact of acoustic protection measures were investigated. The results were prepared in the form of guidelines and recommendations for action.
IEA HPT Annex 54: Heat pump systems with low GWP refrigerants
The aim of the project was to investigate the current situation in the area of refrigerants with a low global warming potential ("low-GWP"). The focus of the national project lies on the current refrigerant application situation and on an outlook until 2030 on the availability of components and systems.
IEA HPT Annex 55: Comfort and Climate Box – Speeding up market development for integrating heat pumps and storage packages
In the IEA HPT Annex 55, heat pumps with integrated thermal/electrical storage systems for existing buildings that are as close to the market as possible were developed. Furthermore, measures to accelerate market development have been worked out.
IEA HPT Annex 56: Digitalization and Internet of Things for Heat Pumps
As digitalization progresses, heat pumps are becoming part of the Internet of Things (IoT). In this project, the opportunities and challenges of IoT-capable heat pumps for the use in households, commercial enterprises and industrial applications will be investigated. The aim of the project is to provide a structured overview of IoT-enabled heat pumps.
IEA HPT Annex 57: Showing flexibility benefits through heat pump implementation in multi-vector energy systems and thermal networks
This project analyzes the future implementation of heat pumps in multi-vector energy systems and thermal networks. This is intended to increase flexibility and to use it for various applications, e.g. for system services or to participate in different electricity markets. Using international case studies, influencing factors and potentials for flexibility options will be evaluated and suitable business models will be derived.
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 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 Hydrogen Task 41: Analysis and Modelling of Hydrogen Technologies
IEA Hydrogen Task 41 focused on the current representation of hydrogen and its utilization pathways in various models and approaches to improve them. Different levels of modelling were considered: Choice of appropriate modelling approach, structural representation of hydrogen use chains, as well as data needed for this.
IEA IETS Annex 11: Industrial Biorefineries (Working period 2020-2022)
With the increasing market share of bio-based products, the concepts of circular economy are highly relevant for the industry. In this context, biorefineries have established themselves as an explicitly integrative, multi-functional overall concept and essential hub in the use of biomass as a raw material source for the sustainable production of various (intermediate) products (chemicals, valuable materials, energy carriers).
IEA IETS Annex 15: Industrial Excess Heat Recover (Phase 3)
Within the framework of the IEA IETS Annex 15 (Phase 3), potentials for the use of waste heat as well as technologies for its integration are collected, bundled and processed through contributions from national research activities. The contributions of the Austrian consortium included technology development and integration concepts of heat pump and energy storage systems, risk analysis in the implementation of waste heat projects, and work on operation optimization and design of hybrid energy systems.
IEA IETS Annex 17: Membrane processes in biorefineries (Working period 2020 - 2022)
The aim of IEA IETS Task 17 was to network and strengthen the Austrian membrane and biorefinery research landscape and to promote international exchange on energy- and cost-efficient separation technologies such as membrane distillation (MD), forward osmosis (FO), pervaporation (PV) and liquid membrane permeation (FMP) for the optimised use of lignocellulosic material in biorefineries. A guideline for the integration of emerging membrane processes was created for this purpose.
IEA IETS Annex 18: Digitalization, artificial intelligence and related technologies for energy efficiency and reduction of GHG emissions in industry (Working period 2020 - 2023)
The work in Task 18 enables the exchange of experience and knowledge between industry and research institutions from different countries. Through this cooperation best practices are identified and disseminated to promote the implementation of energy-efficient technologies in industry. In the medium and long-term, this contributes to reduce energy consumption and greenhouse gas emissions of industry.
IEA IETS Task 21: Decarbonizing industrial systems in a circular economy framework (working period 2022 - 2024)
Energy and CO2 savings through circular economy, especially directly through carbon circularity (CCU), and resource and energy efficiency through industrial symbiosis are two key approaches to decarbonizing industry.
IEA ISGAN Annex 3: Benefit/Cost Analyses and Tools of Smart Grids
Together with experts from 11 countries, the EI-JKU has analysed cost-benefit models and developed proposals for their adaptation and further development. In the course of the work, the EI-JKU dealt in particular with two questions: how such an evaluation model can be adapted to Austrian conditions and which socio-economic factors influence the question of whether an end consumer emerges as a winner or loser from Smart Grid-based functionalities.
IEA ISGAN Annex 5: Smart Grids International Research Facility Network (SIRFN). (Working period 2013-2018)
The Smart Grids International Research Facility Network (SIRFN) aims at improving the implementation of Smart Grids technologies by collaboration between smart grid testing facilities, test beds, and large-scale demonstrations. By active participation, Austria’s position and leading role on the forefront of international Smart Grids development has been strengthened.
IEA ISGAN Annex 5: Smart Grids International Research Facility Network (SIRFN). (Working period 2019-2021)
The Smart Grids International Research Facility Network (SIRFN) aims at improving the implementation of Smart Grids technologies by collaboration between smart grid testing facilities, test beds, and large-scale demonstrations. The focus during the working period 2019-2020 was laid on the implementation of extended interoperability tests and innovative laboratory testing methods for decentralised energy resources. By active participation, Austria’s position and leading role on the forefront of international Smart Grids development was strengthened.
IEA ISGAN Annex 6: Electricity Transmission and Distribution Systems (working period 2021-2022)
ISGAN Annex 6 deals with the possible system-related challenges in the development of future smart grids. Austria is leading Task 4 Interaction of Transmission and Distribution Networks. The main topic in the work program relates to flexibility topologies within transmission and distribution grids. The results and analyses had been published on the one hand in a discussion paper and in condensed form in a video. Communication and dissemination activities were targeted and conducted to different stakeholder groups.
IEA ISGAN Annex 6: Power Transmission and Distribution Networks (working period 2019-2020)
ISGAN aims at enhancing the knowledge about Smart Grid Technologies and accelerating their international development. In this project, relevant findings from technical-scientific projects as well as successful approaches from national and international projects on the topic of interaction between transmission and distribution system operators were collected and analyzed.