Energy-Sponge: The Building as an Energy-Sponge - Electricity In - Heat Out

Innovative, dynamic control concepts had been developed which enable (air) heat pumps in combination with PV- or renewable grid electricity to use the building mass of a multi-familiy house as heat storage. User acceptance had been evaluated and possible business models had been developed.

Plus-Energy-Campus - Energy-flexible Positive Energy District with "Living Lab"

The project explored paths to a sustainable, future-proof Positive Energy-District (PED) in the area surrounding the location of the University of Applied Sciences Vienna (FH-Technikum Wien). The feasibility of a new university building as a Plus-Energy teaching building had been examined in detail to prepare its implementation. Central innovation contents are the energetic flexibilization of the new building and the quarter as well as the conception of the Plus-Energy building as a "Living Lab".

MURREAL: Murtaler Reallabor - On the way to 100% renewable energy by 2040

MURREAL connects the actors of the industrial region Murtal with specialists in the field of high tech and materials with the raw material and energy sector, service providers and research and development. In this exploration for a real laboratory, synergies had been worked out and business models had been built up to consistently take the path towards 100% renewable energy and climate neutrality by 2040.

AIA4ALL - development of open, modular and automatable employer’s information requirements (EIR) and BIM execution plan (BEP)

The Employer's Information Requirements - EIR (German: AIA) - serves the client to define goals and use cases for a BIM-based construction project. The aim of this project is to create a modular, machine-readable AIA that can be seamlessly integrated into the tool landscape of openBIM projects. This is done by developing an open platform for creating use cases for the AIA.

DeLight Monitoring - Demo light Impact-Monitoring and metrological investigation of energy-efficient buildings

The Project consists of the metrological examination of eleven innovative buildings in terms of energy consumption and user comfort. In addition, building constructors and operators as well as the public are sensitized to the subject of energy-related optimization of building operation. Also, the potentials of energy-related optimization of building operation are shown.

Timber Passive House at Mühlweg, 1210 Vienna

Low-rise housing with 70 units (200 residents) in solid wood plate construction designed to meet European passive building standards. Strategies for highly ecological and sustainable building within the economic constraints of social housing, Mühlweg, 1210 Vienna. Industrial pre-fabrication, ...

Green SandboxBuilder - Regulatory sandboxes in the field of sustainable construction and renovation

In the "Green SandboxBuilder" project, for the first time in Austria, the need for regulatory sandboxes for ecologically sustainable and climate-effective projects in the building sector had been systematically explored. The implementation of regulatory sandboxes in the Austrian construction sector can contribute to decisively accelerating the introduction of technological, procedural and social innovations and thus to achieving the sustainability goals.

Biobased Plastics Scenario 2050 - plastics made from renewable resources

A “2050 scenario - plastics made from renewable resources (bio-based plastics)” has been developed. The hypothetical target of this scenario is for bio-based plastics to have a 100 % market share of product manufacturing in the EU. The scenario provides the basis for further national RTI activities and for recommendations for regulation.

ThermSat - pilot training program "Thermal renovation engineer in construction industry"

The goal was to design, offer, evaluate and refine a practical training, adapted to the current development. Aim of the courses is to have well-trained engineers and technicians with practical and theoretical knowledge in the field of thermal renovation of buildings.

DRoB - Drones and robotics for efficient monitoring and management of green facades or roofs

Strategic transdisciplinary networking of experts for the analysis of innovative monitoring and management systems for green facades and roofs. The aim is to demonstrate the potential of different UAV sensors for vegetation monitoring and robots for maintenance measurements of green façades.

KELVIN - Reducing the urban heat island effect via improving the reflective properties of buildings and urban areas

The aim of this project was to estimate the potential to reduce urban heat islands via low-tech measures such as the variation of the surface albedo, using the City of Vienna as an example. The project has also assessed the energy savings and greenhouse gas emission reductions due to the decreased energy demand for cooling as a result of such measures.

INNERGY - Real laboratory in the central Inn-valley for climate-neutral semi-urban areas

Sustainable energy supply solutions for existing quarters and industry had been surveyed holistically and cross-sectorally in a small-structured area, consequently pilot projects had been elaborated with the aim to build up a climate-neutral region.

Solar Assisted Heating Networks

An investigation of the economic and ecological usefulness of coupling two CO2 neutral energy sources; solar installations for multi-family houses, producing standardised systems concepts and planning guidelines.

THERM-opti-BALCONY-P2 - Thermal Optimized Renovation of Balconies Phase 2: In-Situ-Pilot-Station

Pre-cast cantilever balconies represent a particular problem in the case of thermal rehabilitation of buildings. With the THERM-opti-BALKON-System a solution is currently being investigated under laboratory conditions. Phase 2 aims to create an in-situ-pilot-station. The most important object of study is the long-term behavior of the THERM-opti-BALKON-System.

Experiences and attitudes of users as a basis for the development of sustainable housing concepts with high social acceptance

The aim of this project was to a) analyse current experiences of users of ecologically innovative residential buildings ("passive houses", solar houses, etc.) in Austria, b) to evaluate innovative housing concepts in focus groups, and c) to create a model for the continuous participation of users in the innovation process.

ECC – EnergyCityConcepts – Development of a methodology and concept for the implementation of sustainable energy systems in cities by the example of Gleisdorf and Salzburg

In the context of this project two concrete model regions (small city Gleisdorf and urban city quarter Salzburg-Schallmoos) will be developed and tested with new methodical approaches (interdisciplinary urban and regional energy planning, modeling and simulation). An ambitious political commitment of both model regions is a 100% renewable or rather CO2-neutral energy supply.

Housing 4.0 - digital platform for affordable living

The main aim of this project is the development of an integrated framework for the digital platform "Housing 4.0"; thus supporting integrated planning and project delivery through coupling various digital tools and databases. Thereby, the potentials of BIM for modular, off-site housing assembly in order to improve planning and construction processes, reduce cost and construction time and allow for mass customization will be explored. The novel approach in this project is user-involvement; which has been neglected in recent national and international projects on off-site, modular construction, supported by digital technologies.

old house? old house!

The renovation and restructuring of existing housing stock using modern, ecologically efficient building technology as a means for developing Assisted Living Centres for senior citizens within an urban context

"Green Biorefinery - Utilitsation of Grass Fibres"

Basic properties of grass fibres from a green biorefinery will be investigated in order to have a sound base for comparison of grass fibres with other renewable fibres. Selected prototype-products with these grass fibres as main raw material source (e.g. insulation materials, gardening material, animal nutrition) will be developed, tested and evaluated whether they are technologically as well as economically feasible.

Assessment of user requirements and technical feasibility of lightweight applications based on renewables

Assessment of user requirements was studied. Furthermore, the technical feasibility of se-lected lightweight applications based on renewables in the furniture and interior design sector is investigated through involvement of all relevant stakeholders (panel manufacturers - further processing enterprises - distributors - consumers) in the value chain.