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"Communal living for elderly - ecological, social and economical aspects" - eco-com.60+
The research project examined different forms of communal living of elderly people and contributes to the development of new, common forms of living for the elderly. Questions concerning demographic change and economic as well as ecologic challenges of our time had been dealt with.
"gugler! build & print triple zero" - subproject 3: recyclable constructing
Development of basic principles and proposals for highly recyclable constructions. A catalogue with main principles of recyclable designing with a particular focus on material inherent bonding and joint techniques as well as a selection of constructions including ecological benchmarks, calculation of building physics plus costs was created.
"gugler! build & print triple zero" - subproject 4: energy concept Gugler
The energy concept led Gugler in frame of the conversion and expansion of the company towards plus-energy standard. Significant measures ware a consequent maximum reduction of the energy demand, optimal utilisation of industrial waste-heat, maximum consumption of on-site energy sources, integrated energy production, ecologic load management with comprehensive response- and storage-techniques.
# Murau : Real-World Laboratory of energy transition for inner-alpine regions
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.
#EEG++ Digital Energy Communities Optimized
The project aims to develop an innovative energy system for plus-energy neighborhoods by integrating advanced photovoltaic installations, IoT technology, and energy communities to maximize the self-consumption of renewable energy while ensuring economic efficiency and user-centricity.
ABC - DisposaL - Assessment of Building and Construction - Disposal LCA Indicators for the disposal performance of construction
A framework of assessment for the disposal of building materials, constructions and buildings will be developed. The results will be included in the OI3-indicator and in the building assessment tool Total Quality Building. Demonstration projects of the programme Building of Tomorrow will be assessed with the new method.
AC/DC Office Buildings - Implementation of Electricity Networks with Alternating and Direct Current in Office Buildings - Feasibility and Energy Efficiency Potentials
Based on a literature and technology review this projects aimed to document and demonstrate already available and reasonable concepts for the implementation of electricity networks with alternating and direct current in modern office buildings. Focus of the study was to assess the feasibility in general and the energy efficiency potential in particular but it also documents necessary technical equipment and expected advantages and disadvantages. Additionally, important research questions for energy supply, energy distribution and application of direct current technologies were formulated.
ARIS - Application of non-linear control engineering and implementation of intelligent sensor systems for the improvements of energy efficiency in the building sector
The major goal of the project was the development of innovative control concepts for controlling and optimizing heating, cooling and ventilation systems (HVAC) as well as building loads. The implementation of advanced, energy efficient non-linear control techniques in building management systems is supported by new sensor technologies that are applied to building and energy systems in order to improve their energy-efficient operation.
Analysis for positioning a R&D-focus on "Building integrated Photovoltaic" in Austria
This study investigates if technologies of building integrated Photovoltaic could be developed and produced in Austria for being competitive on the global market. What starting position of the national PV industry and research is given and what steps are needed in order to seize this opportunity.
BIM4BEMS - Building Information Modeling for Building Energy Management Systems
BIM4BEMS explores use cases that represent the usage of building information models (BIM) in combination with building energy management systems (BEMS) during operation. This enables the interaction between BIM and building management systems (BMS) which improves the analysis and visualization of inefficiencies in facilities.
BIMaterial Process Design for Material Building Pass
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.
Balancing Energy Demand with Buildings
The project BED aimed to the development of new concepts for the operation and application of building automation systems in non residential buildings to reduce the maximal energy consumption and to ensure a stable and high-quality power supply.
Basic research on the load bearing capacity and high thermal insulation properties of foam glass granulate
The aim of the scientific investigations is to find the characteristic parameters of foam glass granulate applied as load transfer layer and thermal insulation, to provide the base for the application of a multi functional and economical insulation material at the interface between building and ground for buildings of the future.
BioSkin - Research potentials for biologically inspired energy efficient façade components and systems
The research study was targeting the identification of strategic research potentials in the field of biomimetics for innovative facade technologies of the future. With the identification of useful principles of biological role models and the transfer to bionic facade concepts, interdisciplinary R&D research activities are improved to enable the development of sustainable solutions for climate-adaptive energy-efficient facades systems of the future.
Biomimetic potentials - Interdisciplinary identification and preparation of innovative biological inspired key technologies for "Plus-energy buildings of the future"
Experts from various branches of industry and research as well as bionics representatives worked out innovative ideas regarding "Key technologies for Plus-Energy-Buildings". The results provide a collection of emergent bionic research potential for the implementation of innovative research in the Austrian building sector.
Build to satisfy: Modeling of user behavior in lowest and plus energy buildings: Consequences for building and comfort
Aim of the project was a better understanding and modeling of effects of user behavior on energy performance in office and service buildings, built with lowest energy building and plus-energy building techniques. The results support facility managers of office/service buildings and integrate gender and diversity issues.
Build4Climate - Demonstration building with a climate room concept at the Innovation Quarter Lavanttal in Carinthia
Near the Wörthersee in Carinthia a modern open-space research and office building with flexible use is being built on the site of Lakeside Science & Technology Park GmbH. The innovative building will be implemented as a frontrunner with a 'climate room' concept based on thermal component activation and extensive use of renewable energy sources.
Buildings of highest energy-efficiency with integrated renewable energy development
For the future supply of energy services the combination of energy efficiency, energy storage and decentralized use of renewable energy in buildings offers itself. The project identified dynamic potentials of possible active and passive energy yields of construction units with use of renewable energy sources, pointed future solutions to energy-efficient and ecological design of building construction-units and united all results to a signpost: From today's passive house to the energy-plus-house of the future.
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.
COOL-QUARTER-PLUS - GHG-neutral cooling of office and research quarters
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.