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PAPER PHYSICS: Determinations of bubble size distribution of foam-fibre mixture using circular hough transform

  • Timo Lappalainen und Jani Lehmonen EMAIL logo
Veröffentlicht/Copyright: 19. Juli 2018
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Nordic Pulp & Paper Research Journal
Aus der Zeitschrift Nordic Pulp & Paper Research Journal Band 27 Heft 5

Published Online: 2018-07-19
Published in Print: 2012-12-01

© 2018 by Walter de Gruyter Berlin/Boston

Artikel in diesem Heft

  1. Contents
  2. BIOREFINERY: Mild steam explosion: A way to activate wood for enzymatic treatment, chemical pulping and biorefinery processes
  3. MECHANICAL PULPING: Estimating the area and number of bar crossings between refiner plates
  4. MECHANICAL PULPING: The influence of fiber dimensions on mechanical pulp long fiber tensile index and density
  5. MECHANICAL PULPING: Development of TMP fibers in LC- and HC- refining
  6. MECHANICAL PULPING: Fibre and fines quality development in pilot scale high and low consistency refining of ATMP
  7. MECHANICAL PULPING: Low consistency refining of mechanical pulp: Relationships between refiner operating conditions and pulp properties
  8. CHEMICAL PULPING: The dependency of energy consumption on cutting angles in the canter chipping process
  9. CHEMICAL PULPING: Further insights into extended-impregnation kraft cooking of birch
  10. CHEMICAL PULPING: Modeling vapor – liquid equilibria of kraft pulp mill condensates containing methanol, turpentine and total reduced sulphur (TRS) components
  11. PAPER CHEMISTRY: Prediction of breaks caused by lipophilic extractives using on-line turbidity measurement
  12. Polyelectrolyte multilayering of fibers with different polymer combinations and a comparison of its effect on paper strength with a conventional dry strength agent treatment
  13. Influence of Jack pine earlywood and latewood fibers on paper properties
  14. PAPER PHYSICS: Determinations of bubble size distribution of foam-fibre mixture using circular hough transform
  15. PAPER PHYSICS: An experimental study of the turbulent mixing layer in concentrated fiber suspensions
  16. Evaluation of furnishes for tissue manufacturing; wet pressing
  17. PAPER PHYSICS: X-ray microtomography measurements of paper surface roughness
  18. PAPER PHYSICS: A method for measurement of the directional emittance of paper in the infrared wavelength range
  19. PAPER PHYSICS: Modeling spatial reflection from an uncoated printing paper using Monte Carlo simulation
https://doi.org/10.3183/npprj-2012-27-05-p930-939
Schlagwörter für diesen Artikel
Bubble size distribution; Aqueous foam; Foam-fibre mixture; Circular hough transform; Sodium dodecyl sulphate

Artikel in diesem Heft

  1. Contents
  2. BIOREFINERY: Mild steam explosion: A way to activate wood for enzymatic treatment, chemical pulping and biorefinery processes
  3. MECHANICAL PULPING: Estimating the area and number of bar crossings between refiner plates
  4. MECHANICAL PULPING: The influence of fiber dimensions on mechanical pulp long fiber tensile index and density
  5. MECHANICAL PULPING: Development of TMP fibers in LC- and HC- refining
  6. MECHANICAL PULPING: Fibre and fines quality development in pilot scale high and low consistency refining of ATMP
  7. MECHANICAL PULPING: Low consistency refining of mechanical pulp: Relationships between refiner operating conditions and pulp properties
  8. CHEMICAL PULPING: The dependency of energy consumption on cutting angles in the canter chipping process
  9. CHEMICAL PULPING: Further insights into extended-impregnation kraft cooking of birch
  10. CHEMICAL PULPING: Modeling vapor – liquid equilibria of kraft pulp mill condensates containing methanol, turpentine and total reduced sulphur (TRS) components
  11. PAPER CHEMISTRY: Prediction of breaks caused by lipophilic extractives using on-line turbidity measurement
  12. Polyelectrolyte multilayering of fibers with different polymer combinations and a comparison of its effect on paper strength with a conventional dry strength agent treatment
  13. Influence of Jack pine earlywood and latewood fibers on paper properties
  14. PAPER PHYSICS: Determinations of bubble size distribution of foam-fibre mixture using circular hough transform
  15. PAPER PHYSICS: An experimental study of the turbulent mixing layer in concentrated fiber suspensions
  16. Evaluation of furnishes for tissue manufacturing; wet pressing
  17. PAPER PHYSICS: X-ray microtomography measurements of paper surface roughness
  18. PAPER PHYSICS: A method for measurement of the directional emittance of paper in the infrared wavelength range
  19. PAPER PHYSICS: Modeling spatial reflection from an uncoated printing paper using Monte Carlo simulation
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