There are 129 results.
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.
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.
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.
The research project investigates how digital technologies can support us in determining the existing and future material resources in construction qualitatively (building materials and their recycling) and quantitatively (quantities of building materials).
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.
MEIDLINGER "L"-Participatory and scalable climate change adaptations in existing buildings at the intersection of public and private space
The project pursues an integral and interdisciplinary approach to climate change adaptation in existing buildings at the interface between public and private space. A scalable and multipliable model for Vienna and other cities will be developed.
Updating the Smart City Strategy (SCS) of Klagenfurt to achieve climate neutrality by 2030 and adapting the indicators to the Sustainable Development Goals (SDGs) of the UN. Fulfilling the participation requirements for the urban mission of Horizon Europe "100 Climate-neutral Cities by 2030".
MUFUWU Stadtbaum - Development, evaluation of multifunctional urban tree habitat in existing streets. Root zone, retention, microclimate
Applied research and development of a construction concept for road construction that enables the establishment of large-crowned urban trees and is tailored to specific local requirements, such as metrological, geological, and climatic conditions. The results are taken as a basis for a standard construction concept for densely built urban areas.
MURREAL connects the actors of the industrial region Murtal with specialists in the field of high tech and materials with the raw material and energy sector, service providers and research and development. In this exploration for a real laboratory, synergies are to be worked out and business models are to be built up to consistently take the path towards 100% renewable energy and climate neutrality by 2040.
Stationary battery storage devices for the maximisation of the private consumption in PV-systems, large heat storage for local and district heating systems, thermal activation of buildings and the area of innovative storage systems have been chosen for the first market survey within this project. The historical market diffusion of these technologies is surveyed empirically and documented up to 2020.
Evaluation of activated building parts as heat storage for renewable energy shown on the example of the multi-family houses "Tonpfeifengasse".
Based on the results of the national-funded exploratory projects called “Smart Exergy Leoben”, and “Energy Sponge Bruck”, the present implementation project aims at analysing how local, renewable resources support the supply of electric mobility in Leoben in the long term and to integrate it into the municipal distribution grid in a good economic sense.
In the NETSE project the basics for the implementation of energy communities are developed. This includes the relevant technical equipment and interfaces, the development of a platform for the operation of an energy community as well as tools for the optimization of the technical setup and the operation of energy communities.
Demonstration of the feasibility and validation of a parametric model that can evaluate the practical and financial feasibility of the combined use of roof areas as well as its microclimate and environmental effectiveness at an early planning stage.
Current IoT (Internet of Things) solutions for buildings depend almost exclusively on cloud infrastructure and cloud-based services. In the OctoAI project, we are developing the next generation of high-performance Edge AI (Artificial Intelligence) for smart buildings. In OctoAI, we combine the concept of edge AI with user-centric energy services and test two edge-ready applications.
PRoBateS - Potentials of planning and building legislation for energetically sustainable city structures
The aims of this project are to analyse planning and building legislation in order to identify barriers, potentials and suitable courses of action for energy-orientated policy measures. Specific policy recommendations are developed with a view to increasing the sustainability of energy-related city structures. For these purposes the project combines two different disciplinary approaches: a thorough legal analysis and a spatial structure and quantitative impact assessment.
PV4residents – Innovative Finance Service and Business Model for PV Power Plants of Multiple Dwellings with On-site Use of Electricity
The aim is to develop a business model, which enables a stronger penetration of PV plants on multiple dwellings with self-consumption of produced electricity by the residents. Involvement of the municipality allows to deliver surplus electricity for their needs. Basis of the business model is an analysis of the technical, legal, administrative, user related and economic barriers with participation of stakeholders and to identify best practice solutions.
Piezo-Klett: Development of piezoelectric hook-and-loop application for the energy supply of active sensor technology in the building industry
The present project considers buildings, parts of buildings and their joints (component nodes) as energy generators by using the hook-and-loop fastener in combination with the piezoelectric effect to perform a so-called energy harvesting.
The city of Melk has set itself the goal of playing a pioneering role in renewable energy supply and climate protection. In this context, an initiative aimed at implementing Positive Energy Districts. Two urban development projects are currently underway to examine under which framework conditions, technical and organisational solutions Positive Energy Districts can be realised. A proactive participation process aims at informing developers and investors as well as other stakeholders about the realization of PlusEnergy concepts.
The project explores paths to a sustainable, future-proof Positive Energy-District (PED) in the area surrounding the location of the University of Applied Sciences Vienna (FH-Technikum Wien). The feasibility of a new university building as a Plus-Energy teaching building will be examined in detail to prepare its implementation. Central innovation contents are the energetic flexibilization of the new building and the quarter as well as the conception of the Plus-Energy building as a "Living Lab".