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BIGMODERN - Subproject 4: Life-cycle cost analysis (LCCA) during the planning process
Creation of technical and organisational preconditions for constructors to integrate life-cycle cost analysis (LCCA) already into the planning process. Furthermore, the findings will be applied within the two demonstration projects of the flagship project BIGMODERN (SP2 and SP3). The publication of fundamental results makes conceptive basics and LCCA-results available for all stakeholders in the real estate industry.
BIGMODERN - Subproject 5: Feasibility studies about innovative technical solutions
The application of innovative technologies means additional planning and coordination effort which usually cannot be incorporated into the conventional planning processes of the BIG. To overcome these barriers for the application of innovative technologies, the sub project at hand aims at preparing information, feasibility studies, planning records, experiences and practical examples in a way, that they can be implemented directly into the planning process.
BIGMODERN - Subproject 6: Incentives to enforce energy efficiency and sustainability in modernizations of BIG-buildings
Development of approaches, which lead to general conditions for complete refurbishments in BIG-buildings, which support high standards regarding energy efficiency and sustainability. This will ensure high-quality modernizations for BIG's real estate.
BIGMODERN - Subproject 8: Demonstration building Amtshaus Bruck - Realisation
In the frame of the flagship project BIGMODERN the "Amtshaus Bruck an der Mur" had been renovated according to above-average quality standards concerning energy efficiency and sustainability while complying with an industrial management point of view.
BIGMODERN - Sustainable refurbishment standards of federal buildings constructed between 1950 and 1980
The project aims at developing sustainability and climate protection criteria for the refurbishment of federal buildings of the postwar period. These criteria will be tested for their practical suitability within the framework of demonstration projects. Subsequently, these criteria will be defined as fundamental guiding principles in the planning and building processes for all future BIG retrofit projects.
BIGMODERN Subproject 3: Demonstration building University Innsbruck - Main building of the Faculty for Technical Sciences - Planning process
Demonstration of feasibility of renovation of an official building in high thermal and energetical quality and consideration of further sustainable criteria.
BIGMODERN Subproject 7: Monitoring concept
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.
BIM2BEM Flow - Continuous BIM-based energy efficient planning
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.
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.
BIM4BIPV - Future aspects of building-integrated photovoltaics (BIPV) in cross-system BIM planning
Research into an end-to-end BIM planning flow for energy-optimised, building-integrated photovoltaics (BIPV) that simultaneously generates solar energy, enables optimal use of daylight and provides shading.
BIMBestand - BIM-based management of existing buildings
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.
BIMSavesEnergy - BIM-based planning-methods for the assurance of energy-efficiency in the building process
The Building Information Model (BIM) brings about fundamental changes in the planning and construction of buildings, as the common base makes it possible to work closely together across disciplines in construction projects. In this project, BIM-based planning methods were developed, which make the influence of planning decisions on energy efficiency quantifiable and controllable in the management process.
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.
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.
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.
BONSEI! Optimal use of existing buildings – energy efficient implementation of renovation!
The project BONSEI! would like to support an energy efficient and socially acceptable densification of privately owned residential buildings in urban space and to develop a methodological basis for resource efficient urban areas. The results are used for the conception of an innovative service in order to provide a neutral consulting regarding private densification plans.
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.
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.
Beacon of innovation gugler cross media, ecoeffective zero energy cross media enterprise featuring zero-emission, zero energy, zero waste
The aim of the flagship project is a new dimension of sustainability (cradle to cradle, ecoeffective zero energy enterprise) for business operation and building, which means zero emission, zero energy, zero waste. This will be shown on the basis of a beacon of innovation: Gugler GmbH, a modern sustainable media services enterprise (traditional print and new media) will extend their current building from about 2100 square meters and about 90 employees to about 5,000 square meters.