There are 513 results.
KLIMDO - Urban energy and climate strategy of the city of Dornbirn as basis for achieving climate neutrality by 2030
A central goal of the project is to obtain detailed knowledge of energy consumption, energy consumption flows and energy potentials including spatialization in the entire urban araea of Dornbirn. Based on this data, various scenarios are to be elaborated that map possible developments in the city. Subsequently, the basis for an energy and climate strategy based on the vision of climate neutrality will be prepared.
KLIMUR: climate-resilient urban resource management for the case study of Zukunftshof and Rothneusiedl
For the concept of the Zukunftshof, an innovative urban agriculture area, development scenarios for an integrated energy and resource cycle system are to be developed using optimisation tools and parametric design studies. A roadmap consisting of technical concepts and a coordinated financing strategy will provide the basis for a demo project that demonstrates in practice how the Zukunftshof can be the starting point and basis for resource-efficient and climate-resilient urban development.
Using the example of demonstrational renovation, Kierling (built between 1977 and 1979) tests the possibilities of a renovation in passive house standard in technical, organizational and financial terms as an outstanding example of a comprehensive renovation.
KlimaStadtLinz2030: Linz and its path to climate neutrality by 2030 - Preparation for the EU - Mission “100 Climate-neutral Cities by 2030”
The research project investigates whether and how it is possible for the city of Linz to achieve climate neutrality by 2030 within its own sphere of influence. A common vision, which is being developed with the citizens in a participatory manner, unites the opportunities that arise for the city through the measures necessary for this goal.
Know-How-Plus - Options and constraints of building renovation towards plus energy building standard
Aim of this research project is to identify the realizable reduction potential of energy consumption and CO2 emissions by refurbishment of the Austrian building stock towards plus energy building standard. Furthermore a construction-oriented manual will be supplied for interdisciplinary planning.
The main objective of the project is to produce teaching-materials based on Ecobuilding ("sustainable building") for secondary schools / technical schools (Berufsbildende Höhere Schulen and Berufsschulen) in cooperation with school stakeholders (education experts) and by using e-learning platforms.
The aim of the project was to develop a continuous process chain for the energetic-economic optimization of zero and plus energy buildings. The project focused on proven and new approaches to cost reduction of nearly zero energy buildings (nZEBs) at all stages of the life cycle. The main goal was to identify the extra-costs for nZEBs, and to promote innovative approaches taking into account the cost-effectiveness for all the Stakeholders. A database containing important cost parameters and potential savings will be developed.
The consumption of ecological and economic resources over the whole life cycle is supposed to be anticipated and optimised in the design process of buildings and refurbishments. A combined life cycle assessment model together with an economic-ecological base element catalogue considering the klima:aktiv criteria was developed based on the structure of the life cycle cost model LEKOS and the ecological valuation tool Ecosoft.
The project LINE-FEED develops technologies that are required for a photovoltaic storage system which can be installed by anybody by simply plugging it into a wall socket. The aim is to create a storage system for households in urban areas that do not have the possibility to install a photovoltaic system themselves.
LOW TECH innovation-lab - real laboratory for the transformation to climate and resource-saving energy regions with innovative LOW TECH solutions
LOW TECH innovation-lab aims to set up an innovation laboratory in which innovative model solutions are developed, tested and widely rolled out in cooperation with suitable pilot regions on the basis of an optimized approach with regard to the use of technology on the one hand and the potential of the circular economy, local environmental resources and social innovations on the other.
LTS Flywheel - Long Term Storage-Flywheel: New approaches for increasing the economically usable storage time and safety
Development of the fundamentals for a Long Term Storage (LTS)-flywheel for decentralized storage of electrical energy (e.g. from wind or PV power plants), with a significant increase in storage time (goal: 12 hours) and safety, featuring low system costs. Therefore, the LTS-Flywheel is an essential contribution to the building of the future.
LZE 100 Lighthouse Objects - Long-term evaluation of the energy consumption of 100 energy-efficient buildings in Austria as a representative cross-section of Austrian lighthouse objects
Collection, evaluation and analysis of energy consumption data from 100 energy-efficient buildings in Austria over an operating time of 3 to 25 years as a representative cross-section of Austrian lighthouse objects. Differentiation according to building types, energy sources and determination of real greenhouse gas emissions. Comparison of the measured consumption to benchmark values.
The aim of the project is to explore transferable renovation concepts for the implementation of climate-fit renovations in Vienna. Integrally optimized renovation packages will be developed, which will be optimized in the building ensembles for implementation-probable, climate-friendly overall solutions with the relevant stakeholders.
LessIsMore - Energy efficient human centric lighting by innovative components and daylight integration
Human Centric Lighting (HCL) is focused on the positive visual and non-visual (biological) effects of light on humans, but is wasting energy by the inefficient use of components and daylight. In LessIsMore an exemplary pilot installation will be developed and evaluated.
Life Cycle Cost Forecasting Model - Real Estate-Database analysis for life-cycle based investment decisions
Estimation of operational costs of buildings based on a "cause/effect model" between technical building characteristics, investment and running costs to support the decision making process in early planning stages regarding energy efficient buildings.
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.
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.
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.
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.