Suchergebnisse
BIOCOOL - Bio-inspired Surfaces for the Evaporation Cooling of Building Envelopes
The BIOCOOL project will explore the transfer of morphological principles from leaves of deciduous trees, with optimized thermal properties and efficiency of evaporation to the parametric design of form-optimized architectural ceramic surfaces for climate control of building envelopes. The study paves the way for an industrial research project.
Evaluation of visionary architectural concepts
The aim of this project is to show that even at first glance unrealistic and seemingly unworkable solutions can contribute to overcome or mitigate increasingly global problems. The keywords "smart city", "smart home" (and similar ones) require solutions that are envisioned on free roads, as off-the-shelf solution often do not deliver the required output.
Urbane GmbA - Urban potential of greenable area in the obscured stock
Urbane GmbA aims to explore and assess the potential of greenable area from building and obscured stock (vertical and horizontal areas) in Vienna, to apply currently available survey instruments and to show research and development needs.
Sozial100%Erneuerbar: 100% renewable heating and cooling supply in social housing - the demonstration project Käthe-Dorsch-Gasse
100 % renewable (on-site) heating and cooling supply in social housing while achieving good living comfort. Implementation, monitoring and optimisation of an overall heating and cooling system that has not yet been implemented in this combination (especially in social housing).
ÖKO-OPT-QUART - Economically optimized control and operating mode of complex energy networks of future city districts
In the project ÖKO-OPT-QUART energy-based, economic and control-orientated models will be developed in order to simulate the operating mode of complex, sustainable energy networks in city districts. For an exemplary configuration these models will be combined to an overall model which allows a realistic economic comparison of different control strategies. The final goal of the project is the development of a method for the systematic design of cost-optimized, predictive control strategies for complex energy networks in city districts.
BIMpeco - Environmentally relevant product data in collaborative BIM environments
Construction products can pose a risk to the environment and health due to their pollutant content or releases. In the BIMpeco project, workflows and data structures for digital information management of this environmentally relevant product data are developed. For this purpose, the new ISO standards ISO 23387 and ISO 19650-1 are tested and synchronized with established process flows. The project results will be made available on an open-source basis and can be integrated into any Common Data Environment (CDE) that complies with the standards mentioned. The BIMpeco project is the first to lay the foundations for product information management of environmentally relevant properties in the CDE, covering the entire lifecycle and supply chain.
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 are to be worked out and business models are to be built up to consistently take the path towards 100% renewable energy and climate neutrality by 2040.
RENEWnow - New impulses for the highly efficient energetic renovation of multi-storey buildings and districts
Exploration of an innovative approach for the highly efficient renovation of apartment buildings in Austria. The aim is to develop a new service model (one-stop shop) for property managers and owner associations through a targeted, novel mix of technical and non-technical measures.
CELL4LIFE - Reversible SOCs as a link between electricity, heat and gas networks to increase the self-sufficiency and resilience of neighbourhoods
A system consisting of a solid oxide fuel cell and a Machine Learning-based control system for increasing efficiency and minimizing degradation is being developed. As a link between all energy supply networks, the system is intended to increase the self-sufficiency and resilience of plus-energy districts.
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.
GLASGrün - Regulation of climate, energy demand and comfort in GLASS buildings through structurally integrated vertical GREEN
Development of vertical vegetation systems for summergreen shading of glass facades of food retail and commercial areas. GLASGrün generates quantitative data on energy and microclimate balance and qualitative data on user perception. The results are guidelines for scalable and transferable constructive solutions with maintenance and management plans.
LooPi - the autonomous unisex plant-based urinal for public spaces
Application of the prototype in the operational environment for a period of 20 months. Technical monitoring thoughout the cycle of seasons, user interviews concerning satisfaction, evaluation of the potential use of LooPi material streams as soil conditioner for organic farming. Results serve the development towards market maturity.
Urban Mining - Energy and resource savings due to urban mining
The use of natural resources in long-lived products and buildings has led to the build-up of enormous urban material stocks. The present project analyses the potential of these urban mines to increase the resource efficiency of modern cities.
KlimaStadtLinz2030: Linz and its path to climate neutrality by 2030 - Preparation for the EU - Mission “100 Climate-neutral Cities by 2030”
The research project investigates whether and how it is possible for the city of Linz to achieve climate neutrality by 2030 within its own sphere of influence. A common vision, which is being developed with the citizens in a participatory manner, unites the opportunities that arise for the city through the measures necessary for this goal.
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.
KoPro Lzk+ - Cost and process optimization in the life cycle of nearly zero energy buildings
The aim of the project was to develop a continuous process chain for the energetic-economic optimization of zero and plus energy buildings. The project focused on proven and new approaches to cost reduction of nearly zero energy buildings (nZEBs) at all stages of the life cycle. The main goal was to identify the extra-costs for nZEBs, and to promote innovative approaches taking into account the cost-effectiveness for all the Stakeholders. A database containing important cost parameters and potential savings will be developed.
M-DAB2: Material intensity of inner development - resource assessment and localization of urban development potentials
For the first time, the material intensity of inner development (in terms of material quantities) for different design variants was considered in the evaluation of inner development potentials. A set of methods for the holistic evaluation of potential areas and different development variants and scenarios for resource-saving inner development was created.
Smart Pölten 2.0 Holistic view on a Vertical Farm in preparation for a demonstration project for the city of St. Pölten
The city of St. Pölten forsees great potential in Vertical Farming with regard to the objectives related to the concept of the Smart City program - linking local food production, quality of life by reducing resource consumption. This has to be evaluated by combining Vertical Farms with existing living buildings. Eco-social and socio-economic considerations play an important role in this process.
HEDWIG - Collection of measurement data to assess the impact of green buildings
HEDWIG aims for the assessment of effects from green roofs and facades on buildings by using monitoring data referring to microclimate and building physics. The objective is to define validated vegetation parameters and performance indicators on indoor and outdoor level and on microclimatic relevant street space level. Standardised indicators, evaluation and analysis procedures will be elaborated.
CoolAIR - Predictive control of natural nighttime ventilation and daylight-optimized shading for passive building cooling
Natural nighttime ventilation and daylight-optimized shadowing are high potential approaches to efficiently and economical cool buildings. Nevertheless, the full potential cannot be acquired, since, if at all, such behavior is manually initiated by users. Goal of this project is the development of an automated, self-learning system that can assess the full cooling capabilities and establish an alternative to conventional air conditioning systems.