Metsä Fibre plays an important role in three new development partnerships that have been successful in project evaluations and thus secured multiannual funding from the EU, as the company says in the press release received by Lesprom Network.
The concepts of relevance to Metsä Fibre in these partnerships include new technologies to produce lignin-based products and pulp-based textile fibres, as well as the utilisation of bark as a replacement for coal in the production of heat and electricity. The recently initiated long-term development projects aim to prove the commercial viability of these concepts.
The LigniOx project focuses on the utilisation of lignin in products with high added value. The project advances a technology developed by VTT Technical Research Centre of Finland, in which wood-based lignin is separated from the black liquor generated in pulp production. At the same time, it will be converted into so-called dispersants, i.e. additives that improve solutions and mixtures.
The Biomotive project aims to develop new environmentally friendly biomaterials to be used in car parts, for instance. Metsä Fibre’s role in Biomotive is to develop a new production method for pulp-based textile fibres. In addition to clothing, textile fibres are also used in technical textiles, such as the seats of vehicles.
The third project is Biofficiency, which studies, among others, the significance of bark’s high ash content when it is used as fuel in large-scale combined heat and power boilers.
LigniOx and Biomotive are four-year projects operating under the Bio-Based Industries PPP instrument, while Biofficiency is a three-year project operating under the European Union’s normal Horizon 2020 research and innovation programme.
The projects aim to strengthen and diversify the future bioproduct portfolio and ecosystems of Metsä Group and Metsä Fibre, which is part of Metsä Group. The Bioproduct mill entity, started up in mid-August 2017 in Äänekoski, Finland, already now includes innovative production plants that produce bioproducts on an industrial scale.
These plants produce product gas from bark, sulphuric acid from the mill’s waste gases, and biogas and biofuel pellets from the sludge of the wastewater treatment plant.