Search for dissertations about: "Mechanical pulping"
Showing result 1 - 5 of 57 swedish dissertations containing the words Mechanical pulping.
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1. Fracture Behaviour of Wood and Fibres as Related to the Mechanical Pulping Process
Abstract : The fibre separation step in refining is crucial to energy consumption.... READ MORE
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2. Mechanical Pulp-Based Nanocellulose : Processing and applications relating to paper and paperboard, composite films, and foams
Abstract : This thesis deals with processing of nanocellulose originating from pulps, with focus on mechanical pulp fibres and fines fractions. The nanocellulose materials produced within this research project were tested for different purposes ranging from strength additives in paper and paperboard products, via composite films to foam materials. READ MORE
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3. Process intensification in mechanical pulping : Reduced process complexity and improved energy efficiency
Abstract : This work shows that, for newsprint quality grades, the production processes for mechanical pulp can be simplified, and the specific electrical energy demand can be reduced with around 600 kWh/ton (30%). The purpose of the work is to demonstrate how the production cost for mechanical pulps can be decreased through increased energy efficiency and reduced number of unit operations. READ MORE
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4. Low consistency refining of mechanical pulp : process conditions and energy efficiency
Abstract : The thesis is focussed on low consistency (LC) refining of mechanical pulp. Theresearch included evaluations of energy efficiency, development of pulpproperties, the influence of fibre concentration on LC refining and effects of rotorposition in a two-zoned LC refiner. READ MORE
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5. Designing grinding tools to control and understand fibre release in groundwood pulping
Abstract : Mechanical pulping is a very energy demanding process in which only a fraction of the energy is used for the actual separation of wood fibres. The rest of the energy is lost, partly in damaging already separated fibres and partly as heat during viscoelastic deformation of the wood. READ MORE