Feasibility concept for a customer-focused and resource-efficient production of wood-products, considering a parquet factory as an example

An innovative approach aiming higher resource-efficiency and added value by using new quality standards and production systems in parquet industry. A customer friendly product will be possible by combining industrial production methods with the flexibilty of a manufacture.

IEA PVPS Task 15: Acceleration of BIPV

Building integrated Photovoltaics (BIPV) is one of the future markets for Photovoltaics which enables the combination of architecture and energy technology. The project focussed on further national research in the area of BIPV, which is to be raised to an international level.

Braunau 2040

The city of Braunau am Inn is one of the first Climate Alliance municipalities in Upper Austria, a long-standing member of a climate and energy model region and regularly implements measures and projects in the area of climate action and protection (energy concept, mobility concept, etc.). Together with the Climate Alliance Upper Austria, the municipality of Braunau am Inn would now like to develop a municipal climate neutrality roadmap with clear options for action for the coming years.

Ternitz 2040

The town of Ternitz has been a Climate Alliance municipality since 1991, a member of the KEM Schwarzatal region since 2010/2011, an e5 municipality (with 4e) since 2011, and was awarded the title "Energie.Vorbild.Gemeinde" in June 2023 within the LEADER region NÖ-Süd. Key focus areas include the expansion of photovoltaics, the promotion of cycling, public transport and e-mobility, energy efficiency in the public sector, the use of synergies with local industry, and the implementation of energy-efficient residential building concepts.

Urban wind energy - Development of methods for the assessment of small wind turbines in urban areas

The project "Urban wind energy" aims to create the basis for the assessment of roof-mounted small wind turbines (SWT) in urban areas. Therefore, methods for the characterisation of turbulent wind flow fields are developed and on the other hand the impacts of turbulent wind conditions with reference to selected turbulence indicators on the performance of small wind turbines are investigated. The overall aim of the project is to address the question how to evaluate sites in urban areas for the application of small wind turbines.

LivingMODELofTomorrow

Development of transparent, technical and economic models for medium and high volume residential buildings, with special focus on the non-profit sector. Topics such as generation living, teleworking as well as smart homes are developed in an integrated model, for dense structures as well as pavillons and townhouses. All models follow the three pillars of sustainability.

Best-of "Building of Tomorrow" 2010

22. and 23. November 2010
Skylounge, Austrian Chamber of Commerce (WKO) Vienna, AT

In the frame of this conference results and ongoing activities of the research programme "Building of Tomorrow" are going to be presented.

Plus Energy Melk - Path for the realization of Plus-Energy-Districs in Melk

The city of Melk has set itself the goal of playing a pioneering role in renewable energy supply and climate protection. In this context, an initiative aimed at implementing Positive Energy Districts. Two urban development projects are currently underway to examine under which framework conditions, technical and organisational solutions Positive Energy Districts can be realised. A proactive participation process aims at informing developers and investors as well as other stakeholders about the realization of PlusEnergy concepts.

Gründerzeit with future - subproject 4: Development of a real estate portfolio management tool for real estate trustees and owners

Development of a portfolio management tool for the administration of real estate technical data and to support the decision-finding process related to renovation of "Gründerzeit" buildings. The management tool will be applied in practice, in the demonstration projects implemented within the flagship project "Innovative Modernisation of Wilhelminian style "Gründerzeit" Buildings". The results will be available in the form of check-lists and guidelines applicable in the decision-finding process related to renovation measures.

IEA SHC Task 68: Efficient Solar District Heating Systems (Working period 2022 - 2024)

Regarding the use of CO2-free technologies for local/district heating systems, solar technologies in particular offer an efficient option. In this task, the opportunities and challenges are investigated in order to efficiently provide the required temperatures necessary for local/district heating networks through solar technologies, to promote digitalisation, to identify new business models and measures for cost reduction, and to spread the knowledge about the potential of solar district heating systems.

VR4UrbanDev - Virtual Reality as an innovative, digital tool for the integrative urban development of the future

Virtual reality (VR) has the potential to make complex issues more quickly comprehensible and directly tangible. In the VR4UrbanDev project, we are using this potential for energy planning processes for buildings and urban districts. On the basis of test areas, we develop methods for importing and visualising energy-related real-time data and simulation data in the VR environment.

Developing and implementing product-service-systems in the IT-sector

Developing and implementing product-service-systems in the IT-sector. Bringing the idea of sustainable IT-solutions for enterprises towards marketable models.

Ozon as service

Developement of a concept of "service ozone as a special gas" has the main reason to support the chemical industrie, laboratories and others to substitute chemical oxidatives, which is a big ökological advantage.

e80^3-Buildings - Sub project 2: Concept development

Based on the selection of suitable demonstration projects in Subproject 1 an innovative concept for passive and active building envelopes and energy supply of so called "Plus Energy Buildings" (renovation) has been developed.

e-retrofit kit - tool kit for passive house retrofit

Development of an internet-based tool for passive house retrofit für - target group social housing companies. Actualization of tool after test and evaluation in case-studies. dissemination activities in austria.

Measures for Minimisation of Rebound-Effects Concerning Residential Building Renovation (MARESI)

Development of a pragmatic assessment scheme applicable to building practice for the impact of building products on human health

BTTAB - Broad-based testing of energy-efficient demonstration buildings with thermally activated building components

Buildings with thermal building component activation that have not yet been researched in as many federal states and application categories as possible will be monitored, which will include operating data as well as the experiences of those involved. The aim of this study is to take a general look at the various applications of the thermal building component activation technology and to evaluate and compare the pilot projects with the help of suitable evaluation criteria.

ProKlim+ - Use of Model Predictive Control to optimize solar power consumption in case of increased energy efficiency.

Using weather forecast for building automation can help improving the energy efficiency of buildings and, thus, saving energy. In the project ProKlim+ the forecast of solar radiation will be used to optimize the building automation to satisfy the needs of the building users, and at the same time to minimize the energy demand on the one hand and to maximize the consumption of self-produced energy on the other hand.

Ecological restoration of a listed building with passive house technologies

Ecological exemplary reconstruction of the "Haidenhof"-building, Bad Ischl, Upper Austria. Building refurbishment with respect to monumental protection and newest passive house technologies. Reorganisation of the former residential building to an academy of arts and culture.

Test stand method for the determination of system efficiency and emission factors of small-scale biomass combustion systems

Determination of key data with practical relevance of typical applications in only one test run. Monitoring of air pollutants and efficiency and continuous improvement of technology possible with test stand method.