Suchergebnisse
IEA ES Annex 50: Prefab Systems for Low Energy/High Comfort Building Renewal
Development of integrated concepts for multi-storey buildings, which enable renovations of buildings with high energy efficiency at good user acceptance during the realisation phase as well as afterwards (comfort, affordability). Relevant components: integrated solutions of roof and façade with high rate of pre-fabrication, the possibility of integrating the energy façade/roofs and energy distribution and supply.
Climate prevention model Feldbach 1.0
In Austria, Feldbach counts to the active players in the field of climate policy. It has already implemented numerous projects in the areas of climate protection and energy.
Bregenz 2040 climate neutrality roadmap focussing on the electricity and heating transition, mobility and public acceptance
The central goal of the project is to create a consistent, comprehensive, and feasible roadmap to achieve climate neutrality in Bregenz by 2040.
Kapfenberg_2_zeroCO2 - Creation of the 2040 climate neutrality plan for the industrial city of Kapfenberg
For the industrial city of Kapfenberg in Upper Styria with over 22,000 residents, achieving climate neutrality is both challenging and necessary. The companies of Kapfenberg have been heavily reliant on fossil fuels. Implementation of climate protection measures is essential for their future viability and for maintaining a high quality of life for the population of Kapfenberg.
KLARA Amstetten: Klimaneutralitätsfahrplan Amstetten – Roadmap to Action
For the first time, goals for a climate-neutral Amstetten are defined and the necessary climate protection and climate change adaptation measures are developed and fields of action are prioritised.
Climate neutrality roadmap Feldkirch
Feldkirch has already implemented important measures in the field of climate and energy policy. The city is a member of a KEM and KLAR region and has been a very active e5-municipality since 2005.
#EEG++ Digital Energy Communities Optimized
The project aims to develop an innovative energy system for plus-energy neighborhoods by integrating advanced photovoltaic installations, IoT technology, and energy communities to maximize the self-consumption of renewable energy while ensuring economic efficiency and user-centricity.
MARGRET - Measurement of greened/non-greened objects for the adaptation of calculation models
Development of measurement methods to determine the influence of greening measures on greened versus non-greened reference objects with contemporary building standards under uniform framework conditions. Proposals for adaptations of calculation models or standards to e.g. enable an integration in the energy performance certificate.
Designing Synergies. Spatial and Energetic Transformation Scenarios for Small Towns and Municipalities Using the Example of the Wagram Region (Lower Austria).
An interdisciplinary exploratory project that synergistically analyses strategies for the activation of vacant buildings and the potential for the formation of small-scale energy communities. The starting point is student projects from the Institute of Architecture and Design, TU Wien, for four municipalities in the Wagram region. On this basis, an interdisciplinary team of experts is developing a concept for a synergy cluster focussing on spatial energy planning, building physics, the circular economy and social innovation.
KliB40-Climate Compass: Climate-neutral Bregenz 2040, climate compass for the structured participation of stakeholders and the citizens
The "KliB40 Climate Compass" supports Bregenz on its path to climate neutrality by 2040 through transparent development, selection, and monitoring of measures. It facilitates the coordination of climate protection activities and actively involves stakeholders. By evaluating existing software solutions, the project ensures optimal digital support for planning and implementing the city's climate strategy.
Urban Sky - Satellite-based planning and analysis applications for climate-neutral and resilient cities
The project investigates how satellite data can support cities and municipalities (e.g. urban development, spatial energy planning, mobility transition). Based on demand and potential analyses, service concepts will be derived that integrate existing data and tools with satellite applications. The results will be presented in a study and a Space4Cities implementation roadmap.
LehmKur - Rammed earth walls for multi-storey residential buildings
Research of a lighthouse project consisting of rammed earth-timber exterior wall components with accompanying ecological life cycle analysis, building physics simulations and documentation of the necessary logistical, building law, fire and soundproofing measures.
AnergieLeichtGemacht - Development of Scalable Implementation Models for Geothermal Anergy Networks to Decarbonize the Building Sector
The project develops standardized technical, organizational, and financial implementation models for anergy networks to enable sustainable heating solutions in cities and municipalities. By identifying suitable settlement typologies, analyzing existing framework conditions, and engaging stakeholders, scalable solutions are created. The goal is to reduce planning and implementation barriers and facilitate investments in local anergy networks.
REal - The laboratory for Integrated Regional Renewable Energy Systems
In the REal project, a holistic, scalable and user-friendly concept is created, whereby sector-coupled, municipal energy systems with 100% renewable energy can be implemented, considering all necessary aspects from planning to operation, reducing design costs and accelerating an Austria-wide implementation.
PEAR – Test facility for energy efficient automation and control of buildings
The energy demand calculated in the design phase often differs from measured values in the actual building operation. This projects reviews building automation and operation by presenting a solution how to assess energy efficiency of control strategies in the fields of air conditioning systems, concrete core activation and free cooling. The results are implemented in the demonstration building "Post am Rochus".
VERTICALurbanFACTORY
The project researches possibilities and potentials of highly efficient use of space through modern concepts of "stacked" functions and vertical production.
ENUMIS - Energetic effects of urban manufacturing in the city
The project examines the challenges of urban manufacturing (UM) from the energy perspective and shows opportunities arising from the implementation of UM concepts for the future design of sustainable energy systems for cities.
EnergyCityConcepts - Methods and concepts for the implementation of sustainable energy systems in cities
Two concrete model regions (small city Gleisdorf and urban city quarter Salzburg-Schallmoos) will be developed and tested using new methodical approaches (interdisciplinary urban and regional energy planning, modeling and simulation). Therefore, it is aimed to substantiate scenarios and concepts for the implementation of defined targets on technical, ecological and economic criteria.
Storage Cascade MZ: Storage cascade system to establish urban PLUS energy systems on the example of the city of Mürzzuschlag
In the "Storage Cascade MZ" project, battery storage systems are implemented on different grid levels in the city of Mürzzuschlag, whose measurement data enable an integrated grid monitoring and create the basis for a future expansion of the nominal power of photovoltaic (pv) systems.
CHALLENGE - Highly efficient use of hot gas and waste heat in air/water heat pumps for plus-energy buildings and quarters
CHALLENGE aims to further develop the system concept for air-to-water heat pumps in such a way that they can be used efficiently and without the above mentioned negative effects in densely built-up urban areas. In concrete terms, validated simulations and a functional model of the overall system on a laboratory scale are to be used to demonstrate that the concept can save 10% of electrical energy, reduce the noise of outdoor units in summer to a minimum and prevent the formation of local heat islands.