Scenarios for the Biobased Industry in Austria

In order to support the implementation of the Austrian Bioeconomy Strategy, three scenarios for the bio-based industry in Austria were developed. The present study is intended to serve as a solid overview and as a starting point for further detailed studies by other researchers.

Sophokles - Solar shading lamellas with photovoltaic coating for climate-neutral, energy-efficient structures

Development of lightweight, strip-like photovoltaic modules that combine shading and emission-free power generation in one monolithic component. The size and module voltage of the photovoltaic blinds can be individually adapted to the conditions of the building. The core of the innovation is an interconnection concept for thin-film solar cells, with which the film-like photovoltaic material can be interconnected in series and in parallel as required.

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.

BATTBOX - BATTeryrecycling Best Operations by X-processes for circular battery ecosystem

In the BATTBOX project, e-mobility traction batteries are analysed for their cycle capability. The design and structure of battery systems are examined and evaluated regarding potential hazards. Based on this, the best possible handling and processing procedures are developed to improve and optimize the product life cycle regarding safety and recyclability.

StraTex ‐ Sorting and processing strategies for used textiles to produce recyclable fractions

In StraTex, suitable, economically viable and holistic strategies for the collection, processing and automated sorting of mixed non‐reusable textiles are being developed and experimentally implemented in order to increase the proportion of marketable fractions for high‐quality material recycling (preferably fibre2fibre).

Villab – Exploration of a Villach innovation laboratory for the cooperative development of sustainable neighbourhoods

The "Villab - Probe" project serves to check the feasibility of an urban innovation laboratory to accelerate the transformation of Villach districts towards climate neutrality. Assuming positive feasibility, the cooperation with relevant stakeholders will be deepened and a business plan drawn up for a future innovation laboratory.

SYSPEQ - Systemische Lösung zum Betrieb von Plusenergiequartieren

Full-scale planning concepts for positive energy districts (PEDs) and their operation as energy communities (ECs). The focus is on the implementation in the existing building stock, especially in the area of social/non-profit housing. Financing options for renewable generation units, planning and operation of a PED (especially as an EC), marketing opportunities for surplus electricity and the development of an information and networking platform are part of this project. A special highlight is the practical proof-of-concept in Fuchsenloch, which is a social housing quarter of Sozialbau.

Secondary Phosphorus as Raw Material for the Chemical Industry

Recycling of Phosphorus as Contribution to the Security of Supply of Bioeconomy

KLIMDO - Urban energy and climate strategy of the city of Dornbirn as basis for achieving climate neutrality by 2030

A central goal of the project is to obtain detailed knowledge of energy consumption, energy consumption flows and energy potentials including spatialization in the entire urban araea of Dornbirn. Based on this data, various scenarios are to be elaborated that map possible developments in the city. Subsequently, the basis for an energy and climate strategy based on the vision of climate neutrality will be prepared.

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.

CircularFood - High-quality products through cascading recycling cycles of residual materials from the food industry

The CircularFood project investigates the material and energetic cascading use of organic food residues from Austrian food production. The aim is to develop innovative processes for the extraction of high-quality protein components, liquid biofertilizers, organic plant substrates and peat substitutes in order to promote the circular economy and reduce CO2 emissions.

home dreams

Listening to the inhabitants of innovative buildings and using their satisfactory and unsatisfactory experiences as the basis for drawing up practice based criteria and recommendations for a quality, user-orientated building policy. The target groups are funding bodies, building contractors and town planners.

RENEW SCHOOL Austria: Examples and financing models for school renovations

The project aimed at learning from 14 Austrian school buildings, from their financial and cooperation models, meaning successful cooperation between involved parties. The success factors have been derived from these projects and together with 10 best practice schools been published in a brochure. The project supported the Austrian activities in the IEE EU-Projekt RENEW SCHOOL (www.renew-school.eu).

IÖB-ENERGY - Public procurement for intelligent urban energy solutions

Assessment of the potential for pre-commercial procurement in the Smart City energy sector in Austria in the areas of innovative building technologies, urban energy systems and systems for urban planning. The results will serve as the basis for recommendations for future priority setting for public procurers.

INN'FIT4UM - Innsbruck "Fit4UrbanMission" - climate neutral Innsbruck 2030

Cities are the place where decarbonization strategies for energy, transport and buildings intersect. A few years ago, the municipality of Innsbruck set up a Smart City Group consisting of staff from the municipality, IIG, IKB and IVB to address this challenge. The goal of INN'F4UM is to develop a step-by-step plan to achieve climate neutrality for the city by 2030, building on an up-to-date representation of energy and resource flows together with the University of Innsbruck.

lieBeKlima - quality assurance of cross-property greening for urban climate resilience in the neighbourhood development "Am Kempelenpark"

lieBeKlima aims to initiate the implementation of a cross-property and cross-system greening concept for the "Am Kempelenpark" neighbourhood development. This will be realized with innovative, identity-creating participation processes and a comprehensive quality assurance process. The focus lies on an interconnected consideration of integral greening concepts with higher-level water management and plus-energy concepts.

RE:STOCK INDUSTRY - Digital framework for the circular reuse of existing structures for vertical production

RE:STOCK INDUSTRY is developing AI-based Scan-to-FEM methods, vertical 3D production concepts, and an interactive AR application for precise capturing, modelling, and analysis of industrial buildings' load-bearing structures. The aim is to determine the potential of the structure for reuse, modernization, and vertical expansion, considering aspects of circular economy.

GameOpSys - Gamification for optimizing the energy consumption of buildings and higher-level systems

The central goal is the development of a mobile application that enables the energy optimization and planning of buildings, neighborhoods and higher-level energy systems through the participation of the user and the user as a new source of data and information. The development of the application is strongly transdisciplinary and integrates mathematical methods of simulation and optimization as well as psychological aspects of user behavior in order to develop new business models and open up new markets.

greening UP! Sustainable green maintenance, maintenance, maintenance of vertical greenery including legal aspects

Based on extensive surveys and analyses of existing vertical building greenery in outdoor areas (floor and system-bound façade greening) and vertical interior greenery, the project developed tailor-made green care, maintenance and repair concepts and addresses legal aspects. The "greening UP!" Knowledge pool with concrete recommendations and clearly presented findings as well as the conception of a digital tool for the "First Green Aid" complete the project.

Cooling LEC - Energy-flexible buildings by controlling cooling systems via unidirectional communication in local energy communities

As a result of climate change and the rise in temperature, especially due to the increase in active cooling systems, especially at low-voltage level, new challenges are being posed to the electricity system (in particular to the distribution network). Due to the high electrical input of active cooling units and the high density of plants, which are sometimes operated uncoordinated and at unfavorable times, leads to peak consumption in the system. The project Cooling LEC therefore has as its overall objective the development and demonstration of a central control / intelligence of decentralized active cooling systems by further developing the unidirectional communication of ripple control systems to create energy-flexible buildings in the sense of the new approach of "Local Energy Communities" by creating a "special tariff". Ripple control systems have been established for many decades and are available and proven by all energy suppliers. The upscaling potential is very big.