On the mechanism of steam forming during impulse pressing of wet paper webs

Marco F. C. Lucisano; Paolo Mazzatorta; D. Mark Martinez

doi:10.3183/npprj-2001-16-04-p355-361

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On the mechanism of steam forming during impulse pressing of wet paper webs

Marco F. C. Lucisano , Paolo Mazzatorta and D. Mark Martinez

Published/Copyright: July 19, 2018

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From the journal Nordic Pulp & Paper Research Journal Volume 16 Issue 4

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MLA
APA
Harvard
Chicago
Vancouver

Lucisano, Marco F. C., Mazzatorta, Paolo and Martinez, D. Mark. "On the mechanism of steam forming during impulse pressing of wet paper webs" Nordic Pulp & Paper Research Journal, vol. 16, no. 4, 2001, pp. 355-361. https://doi.org/10.3183/npprj-2001-16-04-p355-361

Lucisano, M., Mazzatorta, P. & Martinez, D. (2001). On the mechanism of steam forming during impulse pressing of wet paper webs. Nordic Pulp & Paper Research Journal, 16(4), 355-361. https://doi.org/10.3183/npprj-2001-16-04-p355-361

Lucisano, M., Mazzatorta, P. and Martinez, D. (2001) On the mechanism of steam forming during impulse pressing of wet paper webs. Nordic Pulp & Paper Research Journal, Vol. 16 (Issue 4), pp. 355-361. https://doi.org/10.3183/npprj-2001-16-04-p355-361

Lucisano, Marco F. C., Mazzatorta, Paolo and Martinez, D. Mark. "On the mechanism of steam forming during impulse pressing of wet paper webs" Nordic Pulp & Paper Research Journal 16, no. 4 (2001): 355-361. https://doi.org/10.3183/npprj-2001-16-04-p355-361

Lucisano M, Mazzatorta P, Martinez D. On the mechanism of steam forming during impulse pressing of wet paper webs. Nordic Pulp & Paper Research Journal. 2001;16(4): 355-361. https://doi.org/10.3183/npprj-2001-16-04-p355-361

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Published Online: 2018-07-19

Published in Print: 2001-12-01

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On the mechanism of steam forming during impulse pressing of wet paper webs
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Reversibility of polymer-induced fiber flocculation by shear. 2. Multi-component chemical treatments
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ANNUAL INDEX FOR 2001

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https://doi.org/10.3183/npprj-2001-16-04-p355-361

Keywords for this article

Paper; Impulse drying; Heat transfer; Phase transition; Heat-pipe effect; Steam; Flashing

Articles in the same Issue

Predicting the effect of reinforcement pulp characteristics in TMP papers for web breaks using fracture mechanics
Total organic carbon, TOC, as a tool to estimate pulp yield in the bleach plant
Assessment of the causes of a print defect in a film-coated LWC-paper
Impingement of an inviscid plane liquid jet on a porous wall: a fixed domain method
Distribution of acidic and esterified polygalacturonans in sapwood of spruce, birch and aspen
Behavior of non-cellulosic polysaccharides during thermomechanical pulping and peroxide bleaching of western hemlock and lodgepole pine
The Z-toughness method for measuring the delamination resistance of paper
Inter-fiber bonding effects of beating, starch or filler
An elastic/viscoplastic model of the fibre network stress in wet pressing: Part 2 Accounting for pulp properties and web temperature
An electronic tongue as a tool for wet-end monitoring
Changes in metal concentrations during dryand wet-storage of Norway spruce pulpwood
Fiber strength in relation to molecular mass distribution of hardwood kraft pulp
Surface precipitation of MgCO₃ on MnCO₃ in aqueous solution at 90°C
Nitrogen oxide formation in black liquor single droplet combustion
On the mechanism of steam forming during impulse pressing of wet paper webs
On the characterization of the delamination process during impulse pressing
Reversibility of polymer-induced fiber flocculation by shear. 2. Multi-component chemical treatments
Dislocations in pulp fibres – their origin, characteristics and importance – a review
Nature and removal of the last colored chromophores in kraft pulps
A steady state model describing the solubility of calcium oxalate in D(chlorine dioxide stage)-filtrates
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