Innventia, SP och Swedish ICT har gått samman i RISE för att bli en starkare forsknings- och innovationspartner för näringsliv och samhälle.
Under 2017 kommer innventia.com att vara en av flera webbplatser inom RISE. Besök gärna ri.se för mer information om RISE.

Klusterforskningsprogram 2012-2014

Klusterforskningsprogrammet startade i januari 2012. Detta program tog upp frågor av stort intresse för våra kunder, så som energi-och materialbesparingar, produktionseffektivitet och nya biobaserade produkter.

Programmet bestod av 12 nya kluster samt Tissue klustret (2010-2013) som fortsätter. Totalt omfattade programmet 25 partnerföretag.

Klusterforskningsprogrammet 2012-2014 (pdf)

The kraft pulp fibre line

 

The kraft pulping processes need constant refinement to stay competitive: improvement of the fibre properties and production efficiency of the kraft pulp mill both yield increased utilisation of the natural resources used in the given process. Thus, research performed within the area of chemical pulping should be driven by these areas.
Kontaktperson: Lennart Salmén

Chemical and energy recovery in the kraft pulp mill

 

The basic idea is to gather, describe and propose solutions to well-known process disturbances induced by NPE in the recovery area and fibre line of the kraft pulp mill.
Kontaktperson: Åsa Samuelsson

Biorefinery processes and products

 

Rising wood and energy costs makes it increasingly urgent for the forest-based industry to find by-product uses with higher market value than the fuel value. This is also reflected in the quickly growing involvement by forest industry companies in biorefinery activities the last few years.
Kontaktperson: Birgit Backlund

Fibre, stock and product optimisation

 

Traditionally the stock treatment processes focus on the use of the entire pulp, or choosing a different fibre raw material. Instead, the focus should be shifted towards using and/or optimizing the components of a given stock e.g. fines, long fibers, short fibres, earlywood and/or latewood fibres. These components have largely varying properties and roles in the pulp, and certain product properties could be selectively controlled without influencing the remaining properties if this aspect is taken into consideration.
Kontaktperson: Elisabeth Björk

Nanocellulose process

 

Due to the high potential of nanocellulose in e.g. paper applications, there is a desire to make the nanocellulose process economically viable. Innventia’s laboratory scale processes have been shown to be very energy efficient and the processes have been upscaled in Innventia’s new nanocellulose pilot factory. However, there are several remaining challenges to be addressed like optimisation of the pre-treatment processes.
Kontaktperson: Eva Ålander

Optimized production by advanced paper chemistry

 

In order to increase the profit, paper and board producers strive to lower their raw material costs. Independent of quality, papermakers have to compromise between retention, formation, strength and dewatering. A fine paper producer might want to increase the filler content to decrease the use of the more expensive fibres or the board producer might want to use bulking fibres. In order to do so the retention has to be improved, which requires increased use of retention aids, which deteriorates the formation. The poor formation can be improved by formation aids, but these often deteriorate dewatering and the strength of the paper. The strength is also deteriorated by the increased filler content.
Kontaktperson: Ida Östlund

Process efficiency and variability in papermaking

 

In order to remain competitive with respect to energy and material consumption, the paper and board manufacturers need to continuously improve the efficiency of the production process and reduce the heterogeneity of the product.
Kontaktperson: Paul Krochak

Paper mechanics for improved quality

 

The cluster has the following aims: Provide relevant, robust, and reliable test methods. Identify mechanisms behind different types of paper behaviours. Clarify how furnish, papermaking strategy and chemical additives relate to paper properties. Define strategies to control and design paper properties.
Kontaktperson: Mikael Nygård

Improved convertability of paperboard

 

The aim is to increase productivity, reduce customer complaints, and reduce waste caused by damaged packages by e.g. providing experimental methods for study of creasing and folding, developing generally applicable methods to assess convertability.
Kontaktperson: Johan Alfthan

New wood fibre-based materials

 

Our aim is to develop new wood fibre-based materials and show their potential in concept demonstrators.
Kontaktperson: Fredrik Berthold

Bio-based barriers for packaging materials

 

The aim is to improve fibre-based packaging materials with bio-based barrier materials. By finding concept applications, defining process and product requirements, a base from which new barrier materials can be developed has been found. Concept demonstrators will be developed based on partners’ requirements.
Kontaktperson: Helena Halonen

Tools to predict flexographic print quality for packaging

 

This cluster will work with hypotheses based on our sound expertise and determine the areas to investigate using the state-of-the-art measurement techniques. The focus is on the use and development of tools that can be used when improving flexographic printability, in terms of high, consistent and predictable print quality.
Kontaktperson: Li Yang

Tissue, 2013 – 2014

 

It is important for the pulp, paper and tissue industry to make efficient use of the required resources and to develop efficient production processes to remain competitive. Reducing the grammage with maintained product functionality by changing or modifying the pulp are ways of improving the cost efficiency. Important product properties for most of the tissue products are strength, softness, and absorbency. When investigating a change or modification of the fibres at lower basis weights, the effect on crucial product properties cannot be sacrificed. For the tissue industry this will require increased knowledge and better understanding on how the product properties change at lower basis weights.
Kontaktperson: Mattias Drotz