Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
Chemo-physical analysis and assessment of color alterations of selected hardwoods and development
Analyses of biochemical reactions causing colour changes during the hygrothermal treatment of selected hardwoods will lead to a model for defined and process-based colouration or maintenance of colour in drying and steaming processes. Based on this development the new drying and steaming schedules will be implemented in the industry.
Green Biorefinery - Primary Processing and Utilization of Fibres from Green Biomass
Tests on optimisation of the essential process unit mechanical fractionation of the primary raw material "green biomass" into a liquid and a solid - fibres containing - fraction. Furthermore, lab and pilot scale tests with respect to technologies and processes for primary processing of the solid fraction (e.g. technologies for obtaining specified well defined fibre fractions, reduction of odour etc.). Finally, lab and pilot scale tests regarding manufacturing of prototype fibre products (fibreboards and adhesives & fillers for the construction sector) based on specific well defined fibre fractions from green biomass as primary raw material.
Fibre composites with natural adhesive
Developing of suitable bonding agents, fibres and processing technologies for the production of form stable fibre composites made of natural components. Production of prototypes like boards and moulded parts. Material testing.
Feasibility concept for a customer-focused and resource-efficient production of wood-products, considering a parquet factory as an example
An innovative approach aiming higher resource-efficiency and added value by using new quality standards and production systems in parquet industry. A customer friendly product will be possible by combining industrial production methods with the flexibilty of a manufacture.
Green Biorefinery
An innovative Technology Concept for the Creation of a Sustainable Supply of Raw Materials within the "Fabrik der Zukunft" Subprogram
Forschungsforum
1/2004
Herausgeber: BMVIT
Englisch, 6 Seiten
Downloads zur Publikation
New potentials using hardwood with small diameters in forestry and timber industry
Identification of potentials to use hardwood with small diameters (SDH) in Austria with the help of the value added chain from the forest's location to the processor. Analysis and evaluation of availability, quality and market potential.
Candles, based on regional, renewable raw-materials
Feasibility study of candles based on growing again, regional raw materials, corresponding to todays market demands and produced with current production techniques.
"eco fashion - fashion for the future" - Congress about ecological and social impacts of textile production
The project was intended to promote a change of image related to ecotextiles. A congress provided teachers and education experts with background information and tools for their work, thus leading to a sustainable transfer of knowledge in education.
Assessment of user requirements and technical feasibility of lightweight applications based on renewables
Assessment of user requirements was studied. Furthermore, the technical feasibility of se-lected lightweight applications based on renewables in the furniture and interior design sector is investigated through involvement of all relevant stakeholders (panel manufacturers - further processing enterprises - distributors - consumers) in the value chain.
Renewable Biopolymers as Substitution for Bulk Plastics
Biopolymers consist of renewable resources. The concept deals with the development and implementation of technologies in the sector of renewable biodegradable materials.
Development of a starch based thermoplastic Biopolymer as substitution of standard polymers in niche applications
Developement of a businessnetwork for the market implementation of biodegradable products made out of renewable substances.
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.