Projects

Here you will find R&D projects in the field of climate-neutral cities, which were funded as part of initiatives of the Ministry of Climate Protection (BMK), such as "TIKS" or "City of the Future".

There are 76 results.

Stadt der Zukunft

"Gasthermenersatz" - Modular heat pump with environmentally friendly refrigerant to replace natural gas-based heating systems in large-scale residential buildings

The project "Gasthermenersatz" aims at developing, manufacturing, and testing a functional prototype of a decentralized, sound-optimized heat pump solution with refrigerant circuit modules connected in series or parallel. This renewable technology is well-suited to replace existing natural gas-based heating systems in large-scale residential buildings and to pave the way to carbon-neutral cities.

Stadt der Zukunft

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.

Stadt der Zukunft

6D BIM-Terminal: Missing Link for the development of CO2 neutral buildings

The present project aims to close the gap between specialist consultants and Building Information Modeling (BIM) applications. For that, relevant data for cost estimation, scheduling construction planning and management or sustainable building operation and facility management, shall be added automatically to BIM elements and imported into the respective specialist planning software. This data exchange shall be carried out using IFC interface according to ÖNORM A6241-2 and the properties of the ASI properties server via a central platform, the "6D BIM-Terminal".

Klimaneutrale Stadt

AI4FM - Artificial Intelligence for Facility Management

AI-based anomaly and fault detection in buildings. Digital twins of buildings with simulation models for testing and optimizing rule-based fault detection methods. Mining of the recorded time-series data from existing Building Management Systems to train Machine Learning models for fault detection.

Stadt der Zukunft

AR-AQ-Bau - Use of Augmented Reality for acceptance and quality assurance on construction sites

The aim of this research project is the development of a construction site-suitable augmented reality (AR) system included a Remote-Expert-System and a BIM-Closed-Loop data transfer system for improving the quality of construction, building security and energy efficiency as well as increasing the efficiency of construction investigation.

Klimaneutrale Stadt

BATTMON - Increasing the usable charging capacity, service life and safety of battery storage systems in urban areas

The aim of BATTMON is to develop an improved method of determining the condition of battery storage systems for applications in buildings and neighborhoods. To this end, area-based foil sensors are being developed for the spatially resolved measurement of temperature and pressure. This data will be used to estimate the state of charge and also the state of health more accurately and to detect cell damage at an early stage in order to reduce the risk of fire and explosion.

Stadt der Zukunft

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.

Stadt der Zukunft

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.

Stadt der Zukunft

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.

Stadt der Zukunft

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.

Klimaneutrale Stadt

BIPV-Booster - Game changer for façade-integrated PV systems: Development of proof-free constructions regarding fire protection

The central result of the project will be the development of a catalogue of “proof-free constructions” with regard to fire protection for façade-integrated photovoltaic systems, particularly for the more difficult case of high-rise buildings. These constructions will be defined in the project and tested in fire tests. The fire tests are to be supplemented by electrical and material-related module tests before and after the fire tests.

Stadt der Zukunft

Beyond - Virtual Reality enabled energy services for smart energy systems

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.

Stadt der Zukunft

BiBi-TGA, Potential for the ecological optimization of technical building equipment through the usage of biogenic materials

Assessment of the substitution potential of conventional components of technical building equipment by biogenic materials. The aim is to provide new data on the ecological improvement potential of the usage of biogenic resources in the technical building equipment in office buildings. The potentials are analyzed by means of LCA screenings and technical feasibility studies.

Stadt der Zukunft

CELL4LIFE - Reversible SOCs as a link between electricity, heat and gas networks to increase the self-sufficiency and resilience of neighbourhoods

A system consisting of a solid oxide fuel cell and a Machine Learning-based control system for increasing efficiency and minimizing degradation is being developed. As a link between all energy supply networks, the system is intended to increase the self-sufficiency and resilience of plus-energy districts.

Klimaneutrale Stadt

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.

Stadt der Zukunft

Cool Windows - Windows with shading optimising the trade-off between summery overheating, wintery heat protection and adequate illumination

Windows with their associated components such as sun and glare protection are optimised as a holistic building equipment unit regarding different seasonal requirements in light of the climate crisis. The results serve as a basis for new developments in the window and shading technology in order to provide summery and wintery heat protection as well as adequate natural illumination over the year.

Stadt der Zukunft

CoolAIR - Predictive control of natural nighttime ventilation and daylight-optimized shading for passive building cooling

Natural nighttime ventilation and daylight-optimized shadowing are high potential approaches to efficiently and economical cool buildings. Nevertheless, the full potential cannot be acquired, since, if at all, such behavior is manually initiated by users. Goal of this project is the development of an automated, self-learning system that can assess the full cooling capabilities and establish an alternative to conventional air conditioning systems.

Stadt der Zukunft

Cooling LEC - Energy-flexible buildings by controlling cooling systems via unidirectional communication in local energy communities

As a result of climate change and the rise in temperature, especially due to the increase in active cooling systems, especially at low-voltage level, new challenges are being posed to the electricity system (in particular to the distribution network). Due to the high electrical input of active cooling units and the high density of plants, which are sometimes operated uncoordinated and at unfavorable times, leads to peak consumption in the system. The project Cooling LEC therefore has as its overall objective the development and demonstration of a central control / intelligence of decentralized active cooling systems by further developing the unidirectional communication of ripple control systems to create energy-flexible buildings in the sense of the new approach of "Local Energy Communities" by creating a "special tariff". Ripple control systems have been established for many decades and are available and proven by all energy suppliers. The upscaling potential is very big.

Stadt der Zukunft

DW² - Thermal improvements on diaphragm walls

New materials and installation methods for diaphragm walls will be investigated in laboratory and field tests in order to improve the thermal properties of the construction elements. Additional numerical and ecological aspects are considered to ensure an energetic enhancement of underground constructions such as underground garages or thermal energy storages.

Stadt der Zukunft

Digitization in the construction and real estate industry

In the multitude of digital possibilities, it is very difficult to maintain an overview, to assess trends and potentials, and to recognize correlations. This report therefore aims to describe the current state of the art and the market assessment of promising digital technologies. Information is provided on concrete use cases, added value and challenges of the respective technologies. The analyses presented serve to assess the potential and set the strategic course for the integration of the currently most important digital technologies in the construction and real estate industry.