There are 18 results.
Anergy2Plus - Demonstration and expansion of an anergy network as part of a holistic energy concept and plus energy quarter
The overall objective of the project is to pursue and demonstrate a holistic approach to the design, construction and ultimately the use of the residential quarter in the context of energy supply. Especially in the area of thermal energy supply, a project with lighthouse character on the way to a plus-energy quarter is to be created by demonstrating the innovative supply concept based on an anergy network.
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.
ESSBAR – Edible balcony gardens for retrofit – Vertical Greening Technologies for the City
Demonstration of an affordable, resource-saving and innovative balcony system with integrated edible vertical gardens and rainwater management. Considering the needs of residents for green outdoor spaces and the active participation of residents are an important part of the project.
EnErGy Plant Weiz - Renewable energy community Business Park Energy Lane and Factory Lane Weiz
Based on the results of the exploratory study project REC-Businesspark, a demonstrator for a "renewable energy community business park" is to be developed in Weiz. The focus is on the development of innovative operating and tariff models for a redox flow storage system that is integrated into a renewable energy community.
INReS - Integration of sustainable stormwater management tools into planning execution and management software (BIM)
Exploration to prepare and evaluate the applicability of an interactive web application to recommend appropriate stormwater management measures for existing and new buildings that allows for (1) BIM compatibility for object-based implementation and (2) simplified application in the form of the stormwater toolbox.
LINE-FEED - Plug-in Photovoltaic Storage for the Wall Socket
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.
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.
MISSION KS 30 - Mission Klagenfurt climate-neutral and smart until 2030
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".
NETSE - User orientated development of technologies and services for energy communities
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.
Plus Energy Melk - Path for the realization of Plus-Energy-Districs in Melk
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.
Plus-Energy-Campus - Energy-flexible Positive Energy District with "Living Lab"
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".
Reallabor Weizplus - Reallabor climate-neutral region Weizplus
Clarification of relevant questions for the potential establishment of a real lab in the region of Weizplus, which aims at a 100% supply of the region with renewable energies by 2030. The content-related technological focus of the activities of the future real lab is on all energy-relevant sectors (heating, electricity, cooling) applied to the focal points of energy efficiency and replacement of fossil energy in buildings, in trade and industry as well as mobility.
SC_micro-quarters – Planning and modernisation of smart city quarters with a view to energy optimisation and a high quality of life
The SC_micro-quarters project demonstrates possibilities for urban planning and urban quarter development with a view to creating a path to a low carbon city with a high quality of life and good resilience, while taking into account existing and proposed buildings, infrastructures and uses. The central element is the modelling of urban structures at micro-quarter level.
SocialLowCostFlex - Collaborative flexible low-cost energy supply concepts for social housing
This project aims for feasible low-cost solutions, which allow residents of multi-party houses, with special focus on social housing to profit and participate in the energy transition process and associated trends (e.g. community generation units, exploitation of flexibility). The results of the project are low-cost concepts and business models of community generation units and utilization concepts, tested for their feasibility in a social housing complex. These concepts are based on special requirements of different lifestyles in low-income households and take the framework of social housing such as tenant fluctuation into account.
Stanz+ - An innovative, energy-flexible plus-energy district - the centre of the village Stanz
Stanz+ is working on the implementation of an energy strategy for structurally weak municipalities with specific measures for revitalisation and re-densification in the building stock as well as the integration of renewable energy sources in the municipality of Stanz im Mürztal (Styria). The project includes multipliable approaches towards energy autonomy, hybrid use of energy networks for flexible usage and an energetic revitalisation of the village centre with the involvement of users in the "Rural Pioneers Community" for the usage of energy services.
TANZ - Exploration of a regional living lab: Tourism as an opportunity for the energy transition in Pinzgau
Exploration for a regional living lab to accelerate Austria's climate neutrality in 2040 in the tourism region of Pinzgau. Based on numerous preliminary works, model solutions (“Realtests”) for the innovation fields of sector coupling, energy communities and sustainable heating solutions are designed, the organisational structure of the living lab is developed and stakeholders are actively involved.
Vertical Farm Aspern - Democratization of vertical farming under consideration of parameters of circular economy
Planning, construction and optimization of a vertical farm for urban food production, involving the users in the operational management. The building and the operator concept represent the entire food value chain, from planting to selling.
Vilipa - Visible light based Person and Group Detection in existing buildings
Evaluation of the technical and economic feasibility of an occupancy detection system based on the technology of visible light sensing, which, in combination with the building management system, should reduce the energy consumption of buildings. The goal is to implement low-tech/low-complexity solutions that can distinguish between individuals and groups based solely on the detection of visible light reflections.