There are 108 results.
Inner-alpine regions are rich in the natural resources water, sun, wind and biomass. This study investigates how the Murau region can become a stable and fail-safe, renewable 100% region and how it is possible to supply the energy-hungry conurbations as a needs-based energy export region.
The project is about 3D printed structural elements and their integration in building structures. The focus is predominantly set on bending stresses structural elements like panels and slabs. Results will point out technical, logistic and climate relevant aspects.
In the project, methods will be developed for analysing measured value curves to detect changes in operation or failures in the system. By integrating BIM data of buildings, corresponding models will be generated to validate the heating, ventilation, and air conditioning (HVAC)-networks, which will be used for analysis.
Anergy2Plus - Demonstration and expansion of an anergy network as part of a holistic energy concept and plus energy quarter
The overall objective of the project is to pursue and demonstrate a holistic approach to the design, construction and ultimately the use of the residential quarter in the context of energy supply. Especially in the area of thermal energy supply, a project with lighthouse character on the way to a plus-energy quarter is to be created by demonstrating the innovative supply concept based on an anergy network.
AR-HES-B – Energy storage, production and recovery of valuable substances in wastewater treatment plants
AR-HES-B develops technologically based concepts of municipal wastewater treatment plants in order to convert them from energy consumers into a hybrid energy provider, energy storage and a provider of resources. The concept enables wastewater plants to turn into an important platform in the regional energy and mass transfer.
baubehoerde.at - Development of a Vision 2030 for a Digital Building Authority and Recommendations for Action in Austria
In Austria, planning permission applications are submitted and managed largely manually. The aims of the baubehoerde.at project are to evaluate the potential and limitations of digitizing building approval processes and to create a Vision 2030 strategy for a digital building authority.
Collaborative R&D project to develop the next generation energy services with the interplay of various technologies: Virtual Reality (VR), machine learning, physical simulation and Internet of Things (IoT) platforms.
Automated integration and assignment of exchange requirements between the design and simulation programs, based on the elaborated exchange information requirements, should enable continuous energy efficiency planning along the design phase.
Building Information Modelling supported compilation of a Material Building Pass; as a qualitative and quantitative documentation of the material composition of, and the material distribution within, a building structure. This project is a central milestone towards standardized, BIM-generated building material passes.
The objective of this research project is to develop information requirements and process descriptions for the application of BIM models related to building services in facility management and to demonstrate the lifecycle-oriented use of these models in an open BIM environment. For this purpose, software solutions for the use of IFC in the open-source platform SIMULTAN and building management software are developed and evaluated on the basis of four typical use cases.
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.
BIMstocks - Digital Urban Mining Platform: Assessing the material composition of building stocks through coupling of BIM to GIS
The main goal of BIMstocks is the development of a method for the digital capturing of the material composition of the existing building stock for follow up modelling of an Urban Mining Platform as well as for the prediction of the recycling potentials.
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.
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.
Build4Climate - Demonstration building with a climate room concept at the Innovation Quarter Lavanttal in Carinthia
A new train station is being built near the exit portal of the future Koralm railway tunnel in Carinthia, in connection with a CO2-neutral technology park. The innovative entrance building of the newly developed area will be implemented as a frontrunner with a 'climate room' concept based on thermal component activation and extensive use of renewable energy sources.
CHALLENGE - Highly efficient use of hot gas and waste heat in air/water heat pumps for plus-energy buildings and quarters
CHALLENGE aims to further develop the system concept for air-to-water heat pumps in such a way that they can be used efficiently and without the above mentioned negative effects in densely built-up urban areas. In concrete terms, validated simulations and a functional model of the overall system on a laboratory scale are to be used to demonstrate that the concept can save 10% of electrical energy, reduce the noise of outdoor units in summer to a minimum and prevent the formation of local heat islands.
CityStore - Sondierung des wesentlichen F&E-Bedarfs zur Optimierung von städtischen Energiespeichern in integrierten Energiesystemen
CityStore pursues a first-of-its-kind, innovative approach on spatial location of storage needs and potentials. This includes the evaluation of concrete challenges and prerequisites as well as the identification of useful storage technologies and capacities. Model calculations for the model cities Graz and Weiz will be carried out. If, and to which extent, the results can be generalized will be investigated in the Follower Region South Burgenland. The results should enable optimized planning and realization of urban energy storage facilities – thereby enabling targeted investments in energy infrastructure to achieve (local) climate and energy targets.
CO-MOD - Increasing comfort and energy efficiency through improved lighting and air quality in schools - implementation through modular EPC-models and ESCO-networks
In general local educational institutions such as schools and kindergardens have a high average demand for improved comfort and energy efficiency improvements. CO-MOD develops a flexible, modular concept (with provider networks, various financing options incl. "Grandmother"-Energy Services, contract modules) that can also respond to the individual circumstances of smaller objects.
CO2 neuBau - The CO2-neutral Construction Site: a Contribution to the Climate Protection by the Austrian Construction Industry
Identification of all direct and indirect CO2, respectively, GHG emissions generated at construction sites. Analysis of the framework conditions and technologies towards demonstrating the options for their control. In parallel, added values, such as cost-benefit advantages of a CO2-neutral construction site, were outlined and quantified.
Development of systems for the emission-neutral cooling of office, research and urban quarters on the basis of photovoltaic or geothermal energy supply and user integration. Life cycle cost calculations and analyses of grey and operational greenhouse gas emissions allow a holistic assessment.