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CHEMICAL PULPING: A theoretical model for the prediction of energy consumption during the chipper canter process
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Per A. Gradin
Published/Copyright:
July 19, 2018
Published Online: 2018-07-19
Published in Print: 2013-05-01
© 2018 by Walter de Gruyter Berlin/Boston
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Articles in the same Issue
- BIOREFINERY: Strength and barrier enhancements of composites and packaging boards by nanocelluloses – A literature review
- BIOREFINERY: Nanofibrillated cellulose for enhancement of strength in high-density paper structures
- 8TH INTERNATIONAL PAPER AND COATING CHEMISTRY SYMPOSIUM 2012: The use of fluorescence microscopy and image analysis to characterize the porous structure in micro fibrillar cellulose gel – Part I: Brownian motion
- MECHANICAL PULPING: Latency removal of mechanical pulps: Phenomenological observations
- MECHANICAL PULPING: The influence of process conditions during pulp storage on the optical properties of Norway spruce mechanical pulps
- CHEMICAL PULPING: A theoretical model for the prediction of energy consumption during the chipper canter process
- PAPER CHEMISTRY: Approaching super-hydrophobicity from cellulosic materials: A Review
- PAPER CHEMISTRY: Flocculation of fillers with polyelectrolyte complexes
- PAPER CHEMISTRY: Enhancing paper properties by preflocculation of talc using amphoteric starch
- Coating: Porosity variations in coating layers – impact on backtrap mottle
- PRINTING: Optical paper properties and their influence on colour reproduction and perceived print quality
- PAPER AND INK INTERACTIONS: Prediction of surface structure of coated paper and of ink setting time by infrared spectroscopy
- PAPER PHYSICS: Fractionation of wheat straw pulp cells in a hydrocyclone
- PAPER PHYSICS: Reinforcing ability of fractionated softwood kraft pulp fibres
- PAPER PHYSICS: Ultrasonic treatment of secondary fibers to improve paper properties
- PAPER PHYSICS: Optimising stratified forming for light-weight coated paper grades made from deinked pulp fractions
