Abstract
The potential to modify pulp and paper properties by oxygen delignification was assessed by looking beyond the ordinary purpose of oxygen delignification. Pulps with the same kappa number were obtained by both pulping and the combination of pulping and oxygen delignification, and the mechanical and chemical properties were compared. The oxidation of pulp components leads to an increase in carboxylic acid groups in the fibers, resulting in a large influence on fiber swelling, seen as an increase in the water retention value and fiber saturation point. The introduction of charged groups appears to replace some of the morphological changes caused by refining and enhance the strength of fiber–fiber joints, generating pulps with better refinability and higher tensile strength. Oxygen delignification was able to improve the tensile index with 6% at the same sheet density and less refining energy, when the amount of total fiber charges was higher than 140 μekv/g.
Highlights
Oxygen delignification is a well-established technology, widely used in pulping for additional lignin removal before final bleaching
Pulps produced by either kraft cooking or kraft cooking combined with subsequent oxygen delignification to the same kappa numbers, 30 and 25, were compared
Several pulps with different kappa numbers were produced by kraft cooking in order to perform oxygen delignification afterward
Summary
Oxygen delignification is a well-established technology, widely used in pulping for additional lignin removal before final bleaching It was first implemented in the 1970s in South Africa at Sappi’s Enstra Mill, and because of its advantages with respect to environment, economy, and energy saving, it was rapidly installed in other pulp mills.[1] Nowadays, to increase efficiency, the industrial process of oxygen delignification is done in two stages. A new methodology to evaluate if oxygen can have greater potential is proposed in order to assess the potential of oxygen delignification to modify pulp and paper properties
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