Suchergebnisse
Sustainable quarter "Aspern"
The development concept for the new quarter in Vienna (a former airfield) demands a great deal of sustainability: overall energy strategy, sustainability criteria as financial incentives for applicants for building permits and construction of sustainable and energy efficient buildings.
ECO-MOVER - Development of an energy-optimized photovoltaic-system
The purpose of the project is the development of an ECO-Mover, an innovative photovoltaic-technology together with corresponding system components. The entire R&D process encloses the energetic optimisation of the photovoltaic technology as well as the development of essential components.
Applications of the synthesis gas from biomass gasification - polygeneration
Polygeneration based on biomass gasification offers a great variety of applications of the synthesis gas. A fundametnal study will be carried out to assess technical as well as economical and ecological possible routes to produce synthetic products.
Renewable energy in Austria: Modelling possible development trends until 2020
The project investigates possible economic, social and environmental effects of a sustainable energy policy. Within a participatory modelling process a sustainability model is used to simulate different energy scenarios (with a focus on renewable energy technologies) for Austria until 2020.
Fair market conditions for virtual power plants
Analysis of technical, economical and regulatory conditions to get fair terms under competition in the liberalised market for virtual power plants on renewable energy basis.
Direct feeding system for biogas plants
The aim of this project is to develop an energy- and cost-saving direct feeding system for biogas plants, which deals with differing types of substrates and sizes of plants. Furthermore it solves previous logistical problems.
FT-Biofuels in Austria
Development of a realistic concept for the production of Fischer-Tropsch-fuels from biomass in a size of about 200.000 to/a in Austria. Comprehensive evaluation of this concept with respect to available biomass resources, and economical and ecological benefits.
Regional acceptance of biogas power plants - suitability and availability of energy-plants
Development of an calculation tool for future biogas power plant operators and planners to check the regional acceptance of their power plants as well as possible energy-plants and their availability.
Valuation models for future energy clusters considering market, technology and policy uncertainty - Case Study Biomass
Market liberalization, technological change and increasing complexity of international policy processes (e .g. climate negotiations) necessitate new approaches to evaluating investments in an uncertainty and risk-augmented framework. This project developed valuation methods from financial theory - such as real options valuation and portfolio optimization - to quantify the relative competitiveness of bioenergy chains and total energy systems.
Multifunctional energy solutions in tourism
Multifunctional energy solutions for the tourism-region Alpendorf: Increasing energy efficiency, use of renewables, organisation measures considering existing cooperations.
Multifunctional Energy Centre Kötschach-Mauthen - model-system to achieve energy-self-sufficiency
Development of concepts for a multifunctional Energy Centre (biomass district heating und biogas polygeneration for the supply of heat, electricity, process heat, cooling and biofuels) and for a "Öko-Energietourismus" for the community of Kötschach-Mauthen on the way to energy-self-sufficiency
Multi-purpose apparatus for dedusting and ventilation of flue-gas from biomass-fired boilers
The multi-purpose apparatus is cheaper and requires less material and space. Less power consumption because of utilistion of the cyclone vortex in the induced draft fan.
Heat in containers
Storage of industrial waste heat in latent heat storage systems (common transport containers). Use of the heat in commercial enterprises and public or private buildings with integration of conventional energy suppliers. Technical and financial feasibility study.
IEA-IETS Task 19: Electrification of Industry
The electrification of industry can make a major contribution to CO2 reduction. The aim of the task was a transfer of knowledge between the international and the state levels. Nationally, the aim was to spread and establish the topic of “electrification of industry” through stakeholder involvement. A comparison of electrification based on roadmaps and resources was carried out and, above all, systemic aspects of electrification of industry were analysed.
IEA IETS Annex 17: Membrane filtration for energy-efficient separation of lignocellulosic biomass components
The overarching goal of IEA IETS TCP Annex 17 is to strengthen the network of the Austrian membrane and biorefinery landscape.
IEA-IETS Annex 15: Industrial Excess Heat Recover (Phase 2)
In the framework of IEA IETS Annex 15 potentials of excess heat and technologies for their integration were collected from national research projects, bundled and elaborated on. This way, a broad knowledge base was built on experience gained in carrying out surveys for potential use of excess heat. Experiences with questionnaires, process integration tools and extrapolation of data using existing knowledge about the respective energy systems were exchanged. A process database with detailed process information could also be established, which can be used for further research activities. Also, in the area of policy instruments, recommendations for future measures to increase the use of surplus heat were derived on the basis of national contributions.
IEA IETS Task 21: Decarbonizing industrial systems in a circular economy framework (working period 2025 - 2027)
Energy and CO2 savings through CCUS, and resource and energy efficiency through industrial symbiosis are key approaches to decarbonizing industry. The subtasks “Carbon Dioxide Capture in Industry” and “Facilitation of Industrial Symbiosis” of the IEA IETS Task 21 deal with CO2 management, legal requirements for CCUS, new value chains and associated stakeholders, technological integration in industry, tools to enable industrial symbiosis and a non-technical assessment of the status of cooperation.
IEA IETS Task 23: Drivers and Barriers for the Transformation of Industrial Energy, Technologies and Systems (Working period 2024 - 2025)
The successful reduction of industrial greenhouse gas emissions requires the integration of a wide range of competencies. In addition to technical barriers, there are also organizational, regulatory, societal and financial barriers. The new Task 23 addresses the need for collaboration and system thinking to overcome non-technical barriers. The technical work in ongoing tasks should be supplemented by this task, which should provide added value in overcoming non-technical hurdles.
IEA Industrial Energy-Related Technologies and Systems (IETS TCP)
The Industrial Energy-Related Technology Programme (IETS) focuses on energy use in a broad range of industry sectors. It fosters international co-operation amongst relevant research strands, networking within and across industrial sectors, as well as exchange of information and knowledge between experts from industry, science and politics.
IEA IETS Task 17: Membrane processes in biorefineries (Working period 2024 - 2025)
Membrane technologies in biorefineries are essential for industrial development in order to enable the transition to a bio-based industry. Biomass as a raw material requires efficient processes. The IEA IETS Task XVII (24-26) project promotes the transfer of know-how between research, industry and membrane manufacturers for resource-efficient applications. The national task strengthens the Austrian research landscape through networking activities.