There are 45 results.
"gugler! build & print triple zero" - subproject 9: Monitoring Gugler - Monitoring, evaluation, optimization GUGLER
The project objective is the measurement of relevant building values (energy consumption, ...), the evaluation of these values compared with the intended objectives and the optimization of the system based on the measured data. As a special innovation, monitoring the storage of alternatively generated electricity using photovoltaic and wind energy in the form of compressed air must be considered.
Development of a cost-efficient all-in façade greening system („Greening-Toolkit“) including a maintenance concept, involving all trades and processes, for a broad (facing roads) implementation on facades in the urban built environment, combined with a process innovation for simplification of all necessary coordination processes.
The subproject 10 is part of the flagship project BIGMODERN. It is based on the results of subproject SP 7 in which a monitoring concept has been developed. This concept is now implemented through monitoring of different aspects occurring during the first two years of operation of both BIGMODERN demonstration buildings.
Development of a pattern for comprehensive documentation of the project results. The concepts contain amongst others monitoring of energy consumption, resources, costs, functionality and comfort, etc.
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.
Demonstration building of the eco²building system: First passive house prefabricated wood building system for commercial and industrial buildings
The EU funded "eco2building" construction system in a timber-frame based modular design represents a systematic approach for energy efficient commercial and industrial buildings. The object of the eco²building demonstration project - the logistics centre in passive-house quality for "Eine Welt Handel AG" - in Niklasdorf was to optimize the planning and construction processes and prepare for the market launch of the eco²building construction system. Accompanying research monitored and disseminated the experience.
Development of affordable building equipment and services for future "Energy Plus houses" (Plus-Hybrid)
"Plus-Hybrid" integrates knowledge and experience from current activities and complement them by adopting a holistic approach, considering the intelligent interconnection of components as well as managing the planned efforts and human resources in time. The goal of this project was to develop affordable building equipment and services for future "Energy Plus houses".
Digital Twin / Building Tracker - Coupling of building simulation with a physical building in real time
The goal of the project ist o couple an office building during operation with its virtual twin, the "building tracker", which will be developed and applied for the first time within the project. Thanks to coupling of monitoring and simulation, innovative building energy management of nearly zero-energy building is possible.
The multifunctional neighbourhood "+ERS - Plus Energy Network Reininghaus Süd" was realized within the urban planning area of Graz-Reininghaus. The project aims to optimize the energy concept of the single buildings as well as of the building cluster in order to achieve a plus-energy standard within the residential neighbourhood.
EDEN - Developement of a structured data and preparation documentation with a minimized error-proneness for energy performance cerificates.
Current energy performance certificates hold major flaws. Therefore, the presented research initiative aimed at the development of a standardized and easy-to-use, generic Input-Data-Documentation, which ensures the quality of energy certificates for all involved stakeholders. During the development, the documentation had been conducted and for a chosen sample of representative buildings, which is expected to demonstrate the high potential of such a development.
The major objective of the project EnRiMa was to develop an internet based decision-support system (DSS) to enable operators of public buildings to increase the system efficiency as well as to reduce the CO2 emissions. The DSS can be linked to existing energy management systems as DESIGOTM. The University of Applied Science Burgenland, Campus Pinkafeld, and ENERGYbase, Vienna, have been used to test and calibrate the EnRiMa DSS.
Energy Mosaic Austria - Austrianwide modelling and web-based visualisation of energy consumption and greenhouse gas emissions on local level
The project consists of a modelling and a web-based visualisation of energy consumption and greenhouse gas emissions of all Austrian cities and municipalities considering all kinds of land use and mobility. The results deliver a sound basis for numerous energy and climate relevant fields of action and for awareness raising of decision makers and the public.
User behavior is a key factor for the energy consumption and the actual energetic performance of a building. A new type of user feedback system will be investigated in this research project. Users provide feedback on the sensed room quality. The data obtained by the feedback system are used to optimize settings of building services in order to improve the energy efficiency and the comfort in the building. A basic proof of concept of this system will be undertaken by means of two use cases.
In GEMA, the project team will study and analyse the energy consumption of at least 10 commercial and residential buildings in Austria, which include innovative technologies or concepts for minimising their energy requirements. The results will allow for the potential optimal performance in terms of energy, environmental and social indicators of buildings in future construction projects.
GameOpSys - Gamification for optimizing the energy consumption of buildings and higher-level systems
The central goal is the development of a mobile application that enables the energy optimization and planning of buildings, neighborhoods and higher-level energy systems through the participation of the user and the user as a new source of data and information. The development of the application is strongly transdisciplinary and integrates mathematical methods of simulation and optimization as well as psychological aspects of user behavior in order to develop new business models and open up new markets.
High value energy efficient refurbishment of an ensemble of three neighbouring Wilhelminian style buildings in a non-lucrative location.
The main aim is the documentation and monitoring of the demonstration projects within the scope of the project "Historical buildings of tomorrow" with regard to the technical implementation, investment and operation costs and to the energetic performance. All demonstration projects will be accompanied by an evaluation process regarding occupants' satisfaction and the refurbishment process. Beyond that, legal constraints for innovative refurbishment of historical buildings will be documented and proposals for adaptations of the rental law and refurbishment subsidy schemes will be developed.
The project involved the evaluation of the significance of new approaches for the increase of in-house consumption of solar energy (electric energy and heat) of buildings in Großschönau, which are already equipped for such measurements. The existing municipal buildings, commercial buildings and households are aggregated to form virtual building clusters. Subsequently, the clusters were analyzed according to their in-house consumption with and without the usage of batteries and H2 storages. The economic analysis of this concept derives from a regional implementation plan for further industrial research.
Innovation & Cost efficiency: Building standards for multi family residential buildings at optimal cost (Inno-Cost)
In this project, innovative building standards were examined concerning their economical aspects through the life cycle of a building. By means of life cycle-costs for 40-50 multi family lowest energy and passive house residential buildings on actual data from the day-to-day operation, reliable data and know-how was compiled for the first time, which is to support further market penetration of innovative building standards in the field of multi family residential buildings.
Using the example of demonstrational renovation, Kierling (built between 1977 and 1979) tests the possibilities of a renovation in passive house standard in technical, organizational and financial terms as an outstanding example of a comprehensive renovation.