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There are 48 results.
PVOPTI-Ray, Optimization of reflecting materials and photovoltaics in urban environment with respect to energy balance and bioclimate.
Within the scope of the project PVOPTI_Ray the influence of reflection and energy balance on the performance of building integrated photovoltaics (PV) in complex urban environment have been investigated. Equally the influence of PV modules and of the energy conversion of solar energy at the PV module surface has an impact on micro climate and therefore also on pedestrians who are exposed to the radiation fluxes. This was also investigated.
ParaSol - Multifunctional solar canopies for urban streets and places
With the city of Leoben as a use case this exploratory project will, for the first time ever, examine the spatial effects, synergy- and energy potentials of newly developed wide-span light-weight solar canopies for streets and squares in urban public space as well as their implications on the townscape, the image of the city and the city function.
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 explored 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 had been 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".
Probing for PV façade systems made of lightweight plastic modules with reversible fittings for new and old buildings (PV-FAS_light + easy)
Probing for a new, simple, cost-effective and building-integrated PV facade system made of plastic PV modules through initial investigations for fixing technology, for building physics, for fire protection and for electrical engineering concerning the usability, the areas of applicability and the yield and application potentialfor new buildings and for existing buildings.
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.
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.
SOFC4City - SOFC-waste heat utilization for buildings and industry
In this project the application of a solid oxide fuel cell (SOFC) for energy supply (heat and power) of urban areas will be investigated. Due to the high temperature level of the produced heat it would be possible to use this heat for the energy supply of different heat and power consumers (residential buildings, industrial plants, etc.). One aim is to provide the SOFC-heat at several temperature levels in order to establish the advantages of the fuel cell. On the one hand the legal and market-based conditions will be evaluated, on the other hand the technological feasibility will be scoured by the use of CFD-simulation of the heat production.
STP2030, St. Pölten 2030: KlimaNEUTRAL + KlimaFIT
A broadly based, participatory strategy process for the co-creative development of the “Roadmap to Climate Neutrality” St. Pölten by 2030. The roadmap is based on a shared vision, which is differentiated into transformation paths in different fields of action. The result is a “climate of change” in urban society that serves as the basis for participation in tenders, cooperation and implementation on the way to climate neutrality.
SUPERBE - Potential of Superblock-concepts as contribution to planning energy-efficient urban quarters
The exploratory study SUPERBE for the first time looks into the applicability and potential effects of Superblock concepts in an Austrian urban context in order to assess their contribution to energy-oriented urban planning.
Salzburg:KanS - Salzburg: Climate-neutral city
Salzburg:KanS aligns the vision and climate protection goals of the city of Salzburg with the climate neutrality targets of the province and estimates the sector-specific CO2 reduction contributions until 2030. Based on these contributions, the project develops implementation strategies for the entire city as well as the focus areas of “climate-neutral mobility” and “climate-neutral neighborhoods”.
Smart Pölten 2.0 Holistic view on a Vertical Farm in preparation for a demonstration project for the city of St. Pölten
The city of St. Pölten forsees great potential in Vertical Farming with regard to the objectives related to the concept of the Smart City program - linking local food production, quality of life by reducing resource consumption. This has to be evaluated by combining Vertical Farms with existing living buildings. Eco-social and socio-economic considerations play an important role in this process.
SmartCity Baumgarten - Demonstration of an anergy network and implementation of climate-friendly solutions in existing districts
Implementation of a cross-property anergy network for the supply of heating, cooling and electricity in an existing neighbourhood. With this demonstration project, a technical-legal alternative for areas outside of district heating supply is developed, which makes it possible for neighbourhoods to join together to use renewable energies in common.
SmartQ+ Bruck/Leitha - Energy saving potentials through neighbourhood and community planning
First-time linking of transport and energy simulation models for municipal planning in order to visualise (energy) saving potentials in settlement development and effects of planning projects on mobility demand and the energy network of a municipality in an interactive visualisation.
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 were designed, the organisational structure of the living lab is developed and stakeholders were actively involved.
The Green Parking Space – Utilization of urban parking areas for production of biomass
Many traffic areas in urban environments are actually used as such only a small fraction of the time. Subject of this project was to investigate the possibility of using those areas by additional integration of photobioreactors for the production of biomass, integrating such systems to the maximum extent into the urban substance and energy cycles.
Urban district heating extended – Development of flexible and decarbonized urban district heating systems
Development of innovative urban district heating systems by integration of long-term thermal storage, large scale heat pumps, large scale solar thermal installations, waste heat recovery and analysis and evaluation by simulation. The results of this project will provide templates for technology selection, system design and merit order for new urban district heating areas.
UrbanEnergyCells - Requirements for the implementation of energy cells in future energy system designs
The transformation of the currently hierarchical electricity system into a renewable, decentralized electricity system poses major challenges for the actors in the energy industry and society. Most of the installed decentralized renewable energy sources are installed in rural areas, due to easier legal implementation and shorter decision-making pathways. However, the energy density in urban areas is significantly higher, resulting in a transport of electrical energy to the consumption centers.
VERTICALurbanFACTORY
The project researches possibilities and potentials of highly efficient use of space through modern concepts of "stacked" functions and vertical production.