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Waste heat utilisation and use of renewable energy sources in a metal-working enterprise

Use of waste heat and covering of the remaining energy demand by the renewable energy sources hydropower and biomass in a metal-processing company.

Wastewater cycle. Cascadic recycling of wastewater and organic residue streams in buildings.

Basic research is being conducted for a sustainable cycle-oriented system for the building-integrated recycling of wastewater and food waste. This includes nutrient recovery for a sustainable circulation system (production of plant fertiliser and biochar), electricity production to meet the demand (up to 15 %) of plus-energy buildings, as well as water recovery for irrigation of the building's own or urban greenery and for summer cooling.

Watersorption - Water absorption of Wood Plastic Composites

Analysis of the water absorption in Wood Plastic Composites (WPC) in order to develop solutions to decrease and stop water absorption. This enables a big variety of new applications made of WPC and brings economical and ecological advantages for the polymer processing industries.

What does sustainability mean for a cluster in industry?

Inquiry of requirements, implementation of qualification schemes and coaching in the design of sustainability reports for selected companies of the styrian automobile cluster with special emphasis on environmental and social costs.

Wiener Neustadt Climate neutral

Wiener Neustadt as a pioneering city, is making a conscious and ambitious transition towards climate neutrality. This complex transformation requires different measures. The measures shall both be developed in-house or developed by others and transferred to Wiener Neustadt. The effect of the entire bundle of measures from the different areas (e.g. governance, implementation districts, learning environment or energy, mobility, buildings, etc.) is subject to fact-based climate monitoring.

WohnMOBIL - Innovative living and transport options in areas with high settlement pressure

The objective of the WohnMOBIL project is the promotion of a land-, cost- and traffic saving settlement development and a change of transport priorities (priority of eco-mobility). This shall be reached by the transfer of innovative living concepts like "transitory living", until now mainly used in urban areas, to suburban-rural areas and the interrelation with needs-oriented multimodal mobility concepts.

Wood Plastic Composite - Direct extrusion

Development of a wood composite direct dosing system

Wood Plastic Composites

Wood Plastic Composites - Development of an extrusion tool

Development of a new generation extrusion tool for a wood plastic composite. This material will be developed in a second project an should show a fiber content of 60 - 85%. Important is a high profile quality as well as a high output to ensure an economical production.

Wood Plastic Composites - New property profile by refiner fibres

The mechanical properties and thus the application area of wood plastic composites with a wood content > 60 % shall be explicit increased by means of long wood fibres. The realization of a technological direct feeding system in extrusion process will enable an innovation jump of this wood like material.

Wood-processing employing a superimposition of ultrasonic vibrations

Development of wood-processing techniques employing high-frequency ultrasonic vibrations in terms of applications in the woodworking industry.

ZEBdemo - Development and demonstration of a scalable zero emission building for the realization of climate-neutral cities

The ZEBdemo project is developing and demonstrating a scalable zero-emission building that drastically reduces CO2 equivalent emissions during the construction phase by using building materials such as clay bricks and straw insulation. At the same time, operational emissions are minimized through an intelligent, data-driven energy management system.

ZERIA 3 (Zero Emissions Research in Application)

Elaboration of the principles for zero emission enterprises. The results show that this approach can be realistic and economically advantageous in many cases.

ZERMEG - Zero Emission Retrofitting Of Existing Galvanizing Plants

Method to optimize existing galvanizing plants consequently with the goal of zero emission and zero waste enterprises, to minimize operating cost including benchmarks and three case studies

ZERMEG II - Zero emission retrofitting method for existing galvanising plants

ZERMEG II is the follow up project of ZERMEG, which was commissioned after the first call of the Austrian Factory of the Future program in 2001. The project developed a method to revamp existing galvanising plants in order to operate them with a maximum reduction of the use of chemicals and maximum recycling.

ZERMEG III - Decision guidance for the visualisation of the achievements of sustainable corporate strategies

ZERMEG III creates a virtual factory of the future from the combination of the research results of different projects. This model will be used to generate real experience for managers in experimenting taking organisational and technical decisions with regard to a sustainable development.

ZERMET - Zero Emission Retrofitting For Existing Textile Plants

Minimisation of the consumption of water, chemicals and energy in the textile industry. Further development of the ZERMEG approach in the form of a questionnaire and application in the textile industry.

ZQ3Demo - Implementation of urban Future Quarters including stakeholder integration and legally and economically replicable solutions

ZQ3Demo accompanies three innovative urban quarters in Vienna to demonstrate and further develop ecologically and economically sustainable solutions for the implementation of Plus-Energy-Quarters (PEQ) on the basis of real-life examples.

Zero Carbon Buildings International - Evaluation and Analysis

Analysis of the performance of a demonstration building on the Philippines and potential for transferability to other developing and newly industrialising countries.

Zero Carbon Village - energy autarcic settlement

Development and demonstration of a totally CO2 neutral and energy self sufficient residential area, produced in prefabricated straw bale constructions. The focus of the research is put on industrialized modular mass production of "Zero Carbon Houses", energy self sufficiency and the use of energy efficient and sustainable materials like straw.