Search results

There are 37 results.

Stadt der Zukunft

MOTIVE – Modeling, Optimizing, and technical integration of Vacuum-Glazing-Elements

This project addressed the development of construction details for the implementation of vacuum glazing panels in new windows. In this project such constructions (form of frame, thermal bridges, structural aspects, mounting of glass) were explored via empirical experiments and via simulation. As an outcome, a mock-up was constructed, and the findings were documented in a comprehensive document.

Stadt der Zukunft

Move2Grid – Implementation of regional energy-supply-concepts by hybrid coupling

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.

Stadt der Zukunft

NaNu3 - Parametric Planning for a Sustainable Roof (Blue, Grey and Green)

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.

Stadt der Zukunft

PEQBacker: Integrated District Planning - Enabler on the way to a Plus-Energy District

Development of guidelines for the implementation of Plus-Energy District coordination units based on research of success factors, exploration of mission elements of existing structures and consultation of a broad stakeholder group with the goal of increasing the transformation of existing and emerging neighbourhoods toward Plus-Energy Districts.

Stadt der Zukunft

PhaseOut – Heat pump technologies in the renovation of existing buildings

The aim is the conception, optimization, implementation, demonstration and evaluation of innovative, minimally invasive renovation solutions (thermal renovation and heating system replacement) with heat pumps and PV in multi-storey buildings on seven identical buildings. The comprehensive comparison includes various technical solution variants based on modular and scalable building technology systems as well as multifunctional building components for the exchange of decentralized gas heating by central, semi-central and decentralized heat pump solutions.

Stadt der Zukunft

Plan4.Energy – methodological set for the planning support of positive energy districts

Plan4.Energy develops a set of methods to support the planning of positive energy districts. The data-based system integration will enable a user-friendly quantitative assessment of the possibilities for building a positive energy district. This will allow stakeholders without the relevant background knowledge to realistically assess different project variants.

Haus der Zukunft

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.

Stadt der Zukunft

ReHABITAT-Settlement: Sustainable rehabilitation and activation of a single-family housing estate in Mistelbach

Exploration of a sustainable single-family house redevelopment, with a holistically conceived definition of sustainability that starts with people, is based on sufficiency and also takes into account green and open spaces, social factors and mobility. The result is an integrated overall concept at the house and settlement level, and a transferable approach for other communities.

Stadt der Zukunft

SolCalc: Development of a standardized calculation algorithm for the energy consumption assessment and the energy certification of residential buildings with a solar fraction of up to 100% in combination with biomass boilers and heat pumps

Development of a standardized calculation algorithm for the energy consumption assessment and the energy certification of residential buildings with a solar fraction of up to 100% in combination with biomass boilers and heat pumps

Haus der Zukunft

solSPONGEhigh - High solar fraction by thermally activated components in an urban environment

Within this project the intensive use of thermally activated building elements (TABs) as an additional thermal storage in different buildings, with solar technologies (thermal, PV) preferred for energy supply, was investigated. The aim was to activate and use the thermal storage potential that is immanent in the building elements and thereby achieve solar coverage of the building's heat demand of nearly 100 %.

Stadt der Zukunft

Space & Green. Possibilities for integrating greening into the regulations of Austrian spatial planning

The R&D service "Raum & Grün" (Space & Green) is preparing a study that depicts the interrelationships between spatial planning and greening, shows the need for action and the scope for action by actors, and formulates concrete recommendations on how innovative urban greening and greening of buildings can be effectively anchored in the regulations of Austrian spatial planning.

Haus der Zukunft

Spatial Energy Planning for Smart City Quarters and Smart Regions

In the project ERP_hoch3 energy related policy research in three Austrian agglomerations (Vienna – Lower Austria, Graz – Styria and Vorderland-Feldkirch) has been done, scenarios of the current state and the target state have been modelled and calculated. The aim was to develop generic transferable recommendations for spatial energy planning in agglomerations.

Haus der Zukunft

Syn[En]ergy: Development of Potential Synergy Effects between the Interdependency of Urban Planning goals and Photovoltaic Usage on Open Urban Landscapes

Open spaces such as parking lots, brownfields and some categories of recreation areas offer an underutilised potential for photovoltaics in urban regions. In the course of Syn[En]ergy an inter- and transdisciplinary approach potential synergies and conflicts with other use demands were investigated, a typology and practical solutions for selected areas with regard to requirements from economy, urban planning and design, legal as well social aspects developed, and then evaluated by stakeholders from enterprises, administration and the general public.

Stadt der Zukunft

Urban MoVe - Private law contracts as innovative instruments for city and mobility planning.

The research project Urban MoVe investigated to what extent private-law contracts (e.g. mobility contracts, funds, urban development contracts) are suitable as municipal planning and steering instruments for mobility at residential locations based on best practice analyzes and implemented national practical examples.

Stadt der Zukunft

Urbane GmbA - Urban potential of greenable area in the obscured stock

Urbane GmbA aims to explore and assess the potential of greenable area from building and obscured stock (vertical and horizontal areas) in Vienna, to apply currently available survey instruments and to show research and development needs.

Stadt der Zukunft

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.

Stadt der Zukunft

VERTICALurbanFACTORY

The project researches possibilities and potentials of highly efficient use of space through modern concepts of "stacked" functions and vertical production.