Projects within the framework of open4innovation
There are 2530 results.
LifeCycle Tower - Energy efficient prefabricated multi-storey timber houses
Based on the results of previous research projects, the project at hand deals with the development of a wooden prefabricated module construction for energy efficient office buildings with up to 20 storeys. This sustainable system ensures cost certainty through the whole life cycle of the building.
LightCycle
Fiber-reinforced thermoplastic composite components with low weight, so-called lightweight components for transport and mobility, lead to significant CO2 savings. Despite established production technologies and weight savings, further progress in lightweight construction is increasingly difficult because the sustainability of these products is currently not given due to the unresolved recycling problem, although the regulations require, among other things, 85 % recycling of an end-of-life vehicle.
LightFromFacade - Optimized Day- and Artificial Lighting by Facades
Multfunctional facades with integrated artificial- and daylighting systems had been simulated and evaluated regarding lighting and energy (lighting quality and energy demand). The results create basics for further façade developments and for academic education.
Linz with Ambitio3xn - Linz with ambition for climate neutrality: governance, infrastructure and climate-social neighborhood Franckviertel
The project "Linz with Ambitio3xn" supports the city of Linz in becoming climate neutral by 2040. Contributing to this ambitious goal requires aligning urban planning instruments with urban climate mitigation and decarbonizing existing gas infrastructure in the Franckviertel neighborhood. In the project, standards for net zero non-profit housing will be tested in practice and shared learning are promoted.
LiveDetail - AI-Supported Structuring, Evaluation, and Generation of Construction Details
The exploratory project investigates the feasibility of an AI-supported workflow that can automatically identify, semantically structure, and convert technical planning details into an openBIM-/IFC-compatible format while also enriching them with ecological assessment indicators. Its objective is to enable planners and architects to access high-quality detail knowledge through intelligent, language-based interaction and thus support more sustainable and resource-efficient planning decisions in the construction industry.
Living Lab Vorarlberg
The methodology of living labs centers the requirements of the user into the development process. The original approach of the MIT should be adapted to the sustainable discrete production in the region of Vorarlberg as a living lab.
Living and Working in the Moosburg, the "community of education"
The design aims not only at creating comfortable living spaces and practical work environments, but at connecting these realms, thus providing a holistically attractive “living space”. A pilot project will be built on an appropriate site in the very core of Moosburg, neighbouring both the village square and the educational campus.
Living in the "Sustainable Building of Tomorrow" - Book Publication on User Experiences and Socio-Economic Aspects of Sustainable Buildings
The book will give an introduction and a systematic overview of socio-economic research performed in the programme 'Building of Tomorrow' and will present instruments to improve user acceptance and motivation.
Living lab INNERGY (Tyrol): Transformation of heat and energy supply in Tyrol
The goal of transforming heat and energy supply is to be accelerated by the submitted initial project INNERGY. It consists of an innovation laboratory and a coordinated lead project.
Living lab Murau: Real-world laboratory of the energy transition for inner-Alpine regions
The # Reallbor Murau uses a cooperative approach to promote the Murau region as a 100% renewable regional system power plant. The aim is to create the highest possible degree of utilisation of renewable energy in the region itself and at the same time to export surplus energy in line with demand.
Living lab WEIZplus (Weiz)
The WEIZplus region is committed to the climate-neutral transformation of its energy system through a regionally supported energy cooperative that develops, finances and implements projects. The EnergieRaumLabor innovation lab promotes this transition through supporting measures and serves as a real-world test bed with great transfer potential for Austria. The flagship project “Fossilfree-4Industry” uses five model solutions to demonstrate how industry and commercial enterprises can phase out fossil fuels.
Living lab Waldviertel: 100% renewable energy
“We help people shape their (energy) future”. The living lab 100% RES Waldviertel has set itself the goal of developing solutions to supply the Waldviertel with 100% renewable energy sources and to become climate-neutral by 2035. To achieve this, the results developed in the EneuerbaresWald4tel flagship project are being put into practice by the 100% RES Waldviertel innovation lab.
Living lab cells4.energy (Burgenland): Regional energy cells as multi-energy living labs for a rapid system transition
The project objective of the initial project, which is to be achieved as part of this overall concept, is the development and implementation of a regional energy cell concept that is capable of ensuring a secure and reliable energy supply based on 100% renewables across all sectors as a core component of the future energy system.
Living-city Joint-space-potential Salzburg
Exemplary transformation of a traffic abused open urban structure. The target was to develop a model through supplementary housing as well as social measures and measures for the surrounding.
LivingMODELofTomorrow
Development of transparent, technical and economic models for medium and high volume residential buildings, with special focus on the non-profit sector. Topics such as generation living, teleworking as well as smart homes are developed in an integrated model, for dense structures as well as pavillons and townhouses. All models follow the three pillars of sustainability.
LoPQ - Local Heat together - Pioneer Quarters for Neighborhood Heat and Colling Supply and Quarter Renovation
LoPQ develops integrated supply and renovation concepts for urban quarters by coupling anergy networks with renewable energy sources. From 20 initial sites, five pilot quarters will be selected for detailed feasibility studies, with one final quarter proposed for a follow-up R&D&I project. The interdisciplinary consortium combines expertise in technology, geosciences, and economics to create inaugural, holistic operating and financing models. Scaling these solutions addresses an investment volume of €1.9 billion and a CO2 reduction potential of approximately 25,600 t per year.
Long-term scenarios of the austrian electricity system
Economic analyses and scenarios of the evolution of the Austrian electricity supply system until 2050 in consideration of various technology options in order to provide energy services optimally from society's point of view.
LooPi - the autonomous unisex plant-based urinal for public spaces
Application of the prototype in the operational environment for a period of 20 months. Technical monitoring thoughout the cycle of seasons, user interviews concerning satisfaction, evaluation of the potential use of LooPi material streams as soil conditioner for organic farming. Results serve the development towards market maturity.
Low Tech - High Effect! An overview of sustainable low-tech buildings: realized best practice examples, innovative approaches, principles and systematic solutions
In this study approaches of low-tech buildings were examined and particularly innovative and representative concepts were documented in detail. The aim was to elaborate the current state of the art and the existing know how and knowledge on the basis of realized examples as well as to show potential for further development.
LowEnergyBuildingServices - Highly efficient presence detectors and end user technologies
Highly energy efficient presence detectors, control systems for sun shades etc. are de facto not available on the market. Regarding plus-energy office buildings, the minimisation of the power consumption of these components is a central criterion to achieve the "plus" part in terms of the energy of the building. A highly energy efficient presence detector was successfully sketched in this project, which undercuts the intended standby consumption of 0,05 W.