Suchergebnisse

The Box - Thermal High Performance Decoupling - Next Generation Thermal Break Technology

The project pursues the overall strategic objective "solution of the problem-inducing heat bridge". For this purpose, the thermal bridging losses should be reduced by the factor of 15 in contrast to the state of the art. The significant increase in efficiency should rely on existing system solutions, but incorporating a new holistic view in terms of construction, geometry and materials.

P³Power - Plug&Play Storage of Photovoltaic Power

The core of the project P³Power is the measurement technology NetDetection, which is able to detect the power consumption of a household from any point, e.g. a regular wall socket. Based on this technology a plug&play powerplant, consisting of photovoltaics and battery pack, is realized. The system is able to guarantee 100% self-consumption within flexible aggregates (from single households to whole communes) without any changes of existing infrastructure. The measurement technology will be implemented into digital hardware, evaluated comprehensively in lab and household environment and subsequently new energy service business models are developed.

S - House

Innovative Use of Renewable Resources demonstrated by means of an Office and Exhibition Building

Itz Smart – Carbon neutral city district development Itzling – Implementing innovation and technology via co-operative process design

The goal of the project “Itz Smart” is to tie in with existing activities and to consistently develop Itzling as a residential location further. In the test and demonstration area, sustainable residential quarters with trendsetting solutions for mobility are developed in the zone of the transport axis (railway and Schillerstraße) and along the local supply axis (Itzlinger Hauptstraße). The consideration of housing and mobility with regard to the aspect of “city of short ways“ also entails a discussion of determined mixed utilisation and the development of such residential quarters.

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.

Multi-WP – High-efficiency multivalent heat pump concepts for the thermal use of external air with geothermal storage

Optimization of multi-WP systems consisting of air-source heat pumps and geothermal storage with regard to increasing flexibility and efficiency from 30 kW for individual buildings as well as neighbourhood solutions and addressing aspects such as PV utilization optimization, mode of operation, utilization conflicts and noise pollution from air-source heat pumps. The project will establish the use of the heat source external air in combination with seasonal storage as a particularly efficient alternative for heating, cooling and hot water supply.

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.

VAMOS - Casement windows with vacuum glazing: Performance-Monitoring for Building retrofit

Knowledge consolidation of the exploratory project VIG_SYS_RENO; This project focused on the application of vacuum glass in existing casement windows for purposes of energetic performance improvement of buildings. Expected results include new insights about and a guideline for the application and utilization of vacuum glass products in existing window systems.

RAARA - Residential Area Augmented Reality Acoustics

Populations with high exposure to noise emissions will generally agree: Noise means trouble. The aim of project RAARA is to develop a simple, intuitive albeit accurate method for reducing noise imissions in urban areas. This method involves placing a noise-source into its planned real-world destination prior to actual installation, by means of augmented reality. The ensuing sound-imissions are then made tangible by means of sound effects and coloured visualizations. This exceptional approach will facilitate planning for heating and cooling devices and thus reduce noise pollution in urban areas. This, in turn, can contribute to an increase in societal acceptance and investment in renewable energy.

Innovation lab act4energy

The Innovation Lab act4energy is set up as an innovation laboratory project. Its focus is to solve the problems of renewable energies integration with a focus on photovoltaic power paired with local consumption, linked to the the high fluctuation of renewable energies.

ÖKO-OPT-AKTIV - Optimised control and operating behaviour of thermally activated buildings in future urban districts

Development and simulation of scalable, distributed control strategies for the use of the storage effect of thermally activated components in buildings of future city districts for their energy supply by an energy centre.

"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.

Photonic Cooling – Efficient cooling of buildings through the use of photonic

Within the scope of the project a photonic cooling approach was investigated and evaluated in terms of feasibility and cost efficiency for building applications. In particular cost-efficient photonic surfaces and concepts were investigated which need to have a high reflectivity in of the incident solar radiation (>97%) and a high emission coefficient within the spectral range of 8 – 13 micrometer in order to enable the emission of heat into the sky.

VERTICAL FARMING - Investigation on requirements of a Vertical Farm-prototype development for crop plant production

In the center of interest stands the investigation of fundamental principles for a new building typology – the Vertical Farm. Urban vertical food production can contribute to more energy efficient cities by concurrently reducing land use. Substantial influencing factors to achieve these goals are intended to be revealed.

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.

Study of the Potential of Popcorn-Technologies for the Austrian Energy System

P2PQ - Peer2Peer im Quartier

The research project Peer2Peer im Quartier deals with applications optimizing the selfconsumption of PV-generated energy within urban quarters by enabling peer-to-peer relations among energy prosumers based on Blockchains. Aim is to develop and validate these applications in real operation.

Hook-and-Loop fastener application for the technical building equipment

The aim of this exploration study is to explore a possible systematic change that will allow for a more universal application of Hook-and-Loop (or similar) fasteners in the construction industry, especially in building installation phase.

Bluetooth home control system

Purpose of this project was to realise a wireless intelligent home, that can be radio controlled from each bluetooth compatible mobile (2 mrd in curculation all over around the world). Entrence, security and also to control electrical devices where the cornerstones of this project.

Clay - Passiv Office-Building Tattendorf

The motivation for developing the project "Clay Passiv Office-Building Tattendorf" was the dissatisfaction with the situation of a great difference in the state of technology in three fields relevant to the research project: 1) sustainable production of energy , 2) sustainable energy conservation technologies and 3) use of sustainable building materials.