Projects
There are 22 results.
3D*3B - 3D-Concret Printing, Reinforcement for low carbon and bending stressed structures.
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.
Circular Bio Floor- Floor construction made from biomaterials
In this project biogenic building materials from wood industry waste and geopolymer binders are developed that can be used as tamped fill or 3D-printed dry-screed elements in timber construction. These materials offer functional benefits and an excellent eco-balance, contribute to the conservation of forests and enable the production of separable and reusable floor segment panels using digital manufacturing technologies. That significantly reduces the consumption of primary raw materials.
Circular Standards: Development of a circular standard-detail-catalogue
In this research project, the technical design of standardized constructions details is the subject of investigation. Construction details will be researched, analyzed and evaluated and (further) developed or revised with regard to the parameter "recyclability". The expected result consists of circular-standard-details and the identification of problem areas and opportunities.
Circular Twin - A Digital Ecosystem for the Generation and Evaluation of Circular Digital Twins
By 2030, more than the equivalent of two Earths will be needed to meet the demand for natural resources, therefore a transition to circular systems is essential, especially in the construction industry. The digital "Circular Twin" ecosystem enables the early implementation of circular economy goals as well as end-to-end digitalization in construction utilizing Digital Twins, Generative Design Algorithms and Virtual Reality.
CircularBioMaterials
ParaStruct GmbH explores the technical and economic possibilities of recyclable, mineral-bound biomaterials in the project. The result is a basis for further development work and investments in this area.
DREI x NULL = NULL - Research project on climate-neutral construction in all life cycle phases based on three demonstration buildings
The aim of the F&E project is the realization of three different residential buildings, which are all climate-neutral in the life cycle phases of construction, operation and dismantling. The aim is to create exemplary showcase projects for the future residential construction sector.
DiCYCLE - Reconsidering digital deconstruction, reuse and recycle processes using BIM and Blockchain
DiCYCLE aims at identifying, analysing and mapping current End-of-Life processes in the building industry, as well as optimizing those for digitalization, using BIM, Blockchain and Smart Contracts. The goal is to enable sustainable digital planning, construction and deconstruction workflows for reuse and recycling of building materials and components along the life cycle.
Earthen building 2.0: Earthen building of the future - The art of craftsmanship based on engineering approaches
The exploratory project investigates the suitability of fiber optic sensors for the long-term monitoring of the deformation behavior of rammed earth wall elements under moisture and temperature fluctuations (shrinkage) as well as loads (creep). The experimental findings will be integrated into a finite element model to simulate failure behavior under load.
Favorite Facades Reuse
The exploratory project "Favorite Facade ReUse" has set itself the goal of renovating and thermally upgrading buildings with curtain facades with a maximum proportion of reuse and the greatest possible protection of the residents. The authenticity of the building is preserved, and CO2 emissions are minimized.
Flucco+ - Flexible user comfort in quarter-hourly CO2-neutral Positive Energy Districts (PED)
The aim of the project is to improve the planning basis for the construction and operation of energy flexible buildings in three specific areas. First the further development of existing models of thermal comfort for dynamic situations, second the quantification of future energy grid usefulness and third the holistic testing of the developed comfort and CO2 model at three potential positive energy districts (PED), taking into account the ecological assessment as well as the life cycle costs.
FluccoSan - Circular energy flexibility for resilient, climate-neutral refurbishments
FluccoSan aims to develop innovative and cost-effective refurbishment solutions for the building sector that contribute to achieving the Austrian federal government's climate targets. The focus is on energy-efficient, minimally invasive and socially acceptable measures, so-called “dynamic renovations”. By integrating the circular economy and social science research, these solutions should ensure long-term sustainability and a high level of acceptance among users. Status: ongoing
Joining Cards - Investigation of de-constructable fastening and joining techniques for the development of mono-material interior systems made of cardboard
Strategic examination of cardboard products and paper-based materials for the development of de-constructible interior systems and the definition of building components and their interfaces. The result forms the basis for further research projects in the form of a comprehensive knowledge gain.
KLIMADEMO VIS-A-VIS: Participatory realization of a climate-neutral demonstration building Vis-à-Vis
Participatory development of a pilot project at the interface between climate neutrality, affordability and multi-storey wooden housing based on well-founded decision-making bases in terms of renewable materials and renewable energies. The result is a multipliable carbon neutral building and the dissemination of carbon neutrality know-how to a larger audience.
LehmKur - Rammed earth walls for multi-storey residential buildings
Research of a lighthouse project consisting of rammed earth-timber exterior wall components with accompanying ecological life cycle analysis, building physics simulations and documentation of the necessary logistical, building law, fire and soundproofing measures.
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 is to be 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 will be created.
ReAssuRe – risk management for re-use of construction components and building technology by non-destructive on-site testing procedures
Risk assessment and insurability is essential for the re-use of functional components in buildings. In the best case, properties of components can be examined before they are removed from the donor building. ReAssuRe identifies suitable on-site testing procedures and establishes a network for the quality assurance of re-use components.
ResourceRevival - District development from industry site to resource neutrality in Möllersdorf
The reuse of building elements is a much-discussed topic, but a truly circular district encompasses much more. Through interdisciplinary cooperation as part of a co-creative concept development at the Werk Möllersdorf, previously separately considered aspects of the circular economy are combined, symbioses between demand and availability of materials, energy, rainwater and grey water are identified and their circularity is maximized.
SAVE circular approaches for green buildings!
The project demonstrates the cycle and use of synergies in an ARWAG residential building from the extraction of valuable raw materials through a urine treatment plant (fertilizer) using energy recovery measures (heat recovery, heat pump, photovoltaics) to the use of the fertilizer for the generously designed greening measures and the associated effects on the microclimate.
Vertical Farm Aspern - Democratization of vertical farming under consideration of parameters of circular economy
Planning, construction and optimization of a vertical farm for urban food production, involving the users in the operational management. The building and the operator concept represent the entire food value chain, from planting to selling.
ZEBdemo - Development and demonstration of a scalable zero emission building for the realization of climate-neutral cities
The ZEBdemo project is developing and demonstrating a scalable zero-emission building that drastically reduces CO2 equivalent emissions during the construction phase by using building materials such as clay bricks and straw insulation. At the same time, operational emissions are minimized through an intelligent, data-driven energy management system.