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Swelling properties of pulp treated with deep eutectic solvents

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The reaction of cellulose with water produces swelling and structural changes of the fibres, both effects being of crucial importance for the understanding of paper formation. It was investigated how the treatment of pulp with deep eutectic solvents affects the swelling kinetics of the fibres. Unbleached kraft pulp was treated with three deep eutectic solvents containing choline chloride (ChCl) – ChCl:lactic acid (1:9), ChCl:oxalic acid (1:1) and ChCl:malic acid (1:1) – and with the system alanine:lactic acid (1:9). The rate and maximum swelling of the pulp in water were determined using a modified monitoring unit for measuring swelling ability. Since paper swells extremely rapidly in water even at 23°C, this apparatus made it possible for the first time to obtain accurate rate data on the swelling of DES-delignified pulp in water.
Słowa kluczowe
Rocznik
Strony
153--164
Opis fizyczny
Bibliogr. 42 poz., rys., tab.
Twórcy
autor
  • Institute of Natural and Synthetic Polymers, Department of Wood, Pulp, and Paper, Slovak University of Technology, Bratislava, Slovakia
autor
  • Institute of Natural and Synthetic Polymers, Department of Wood, Pulp, and Paper, Slovak University of Technology, Bratislava, Slovakia
autor
  • Institute of Natural and Synthetic Polymers, Department of Wood, Pulp, and Paper, Slovak University of Technology, Bratislava, Slovakia
autor
  • Department of Inorganic Chemistry, Slovak University of Technology, Bratislava, Slovakia
Bibliografia
  • Ahlgren P.A., Goring D.A.I. [1971]: Removal of wood components during chlorite delignification of black spruce. Canadian Journal of Chemistry 49: 1272-1275
  • Ahlgren P.A., Yean W.Q., Goring D.A.I. [1971]: Chlorite delignification of spruce wood – comparison of molecular weight of lignin dissolved with size of pores in cell wall. Tappi Journal 54: 737-740
  • Berthold J., Rinaudo M., Salmeń L. [1996]: Association of water to polar groups; estimations by an adsorption model for ligno-cellulosic materials. Colloids Surfaces A – Physicochemical and Engineering Aspects 112 [2-3]: 117-129
  • Botkova M., Suty S., Jablonsky M., Kucerkova L., Vrska M. [2013]: Monitoring of kraft pulps swelling in water. Cellulose Chemistry and Technology 47 [1-2]: 95-102
  • Bristow J.A. [1972]: The swelling of fiber building boards on immersion in water. Sven Papperstidning 75 [25]: 844-852
  • Cao B., Tschirner U., Ramaswamy S. [1998]: Impact of pulp chemical composition on recycling. Tappi Jornal 81 [12]: 119-127
  • Carlsson G., Kolseth P., Lindström T. [1983]: Polyelectrolyte swelling behavior of chlorite delignified spruce wood fibers. Wood Science and Technology 17 [1]: 69-73
  • Eriksson I., Haglind I., Lidbrandt O., Sahnén L. [1991]: Fiber swelling favoured by lignin softening. Wood Science and Technology 25 [2]: 135-144
  • Fält S. [2003]: Model studies of cellulose fibers and films and their relation to paper strength. Licentiate thesis, MidSweden University, Stockholm, Sweden
  • Foelkel C. [2007]: The Eucalyptus fibers and the kraft pulp quality requirements for paper manufacturing. Eucalyptus online book and newsletter, ABTCP, 42
  • Geffert A., Vacek O., Jankech A., Geffertova J., Milichovsky M. [2017]: Swelling of cellulosic porous materials – mathematical description and verification. BioResources 12 [3]: 5017-5030
  • Grignon J., Scallan A.M. [1980]: Effect of pH and neutral salts upon the swelling of cellulose gels. Journal of Applied Polymer Science 25 [12]: 2829-2843
  • Gupta H., Chatterjee S.G. [2003]: Parallel diffusion of moisture in paper. Part 1: Steady-state conditions, Industrial and Engineering Chemistry Research, 42 [25]: 6582-6592
  • Jablonsky M., Botkova M., Suty S., Smatko L., Sima J. [2014]: Accelerated ageing of newsprint paper: Changes in swelling ability, WRV and electrokinetic properties of fibers. Fibers and Textiles in Eastern Europe 22 [2]: 108-113
  • Jablonsky M., Skulcova A., Kamenska L., Vrska M., Sima J. [2015]: Deep eutectic solvents: fractionation of wheat straw. BioResources 10: 8039-8047
  • Jablonsky M., Skulcova A., Malvis, A., Sima J. [2018]: Extraction of value-added components from food industry based and agro-forest biowastes by deep eutectic solvents. Journal of Biotechnology 282: 46-66
  • Karppinen T. [2008]: Characterizing physical properties of wetting paper by air coupled ultrasound and light. Ph.D. Thesis, University of Helsinki, Helsinki
  • Kumar A.K., Pharik B., Pravakar M. [2015]: Natural deep eutectic solvent mediated pretreatment of rice straw: Bioanalytical characterization of lignin extract and enzymatic hydrolysis of treated biomass residue. Environmental Science and Pollution Research 23 [10]: 9265-9275
  • Kumar L., Arantes V., Chandra R., Saddler J. [2011]: The lignin present in steam pretreated softwood binds enzymes and limits cellulose accessibility. Bioresource Technology 103 [1]: 201-208
  • Li P., Sirviö J.A., Haapala A., Liimatainen H. [2017]: Cellulose nanofibrils from nonderivatizing urea-based deep eutectic solvent pretreatments. ACS Applied Materials and Interfaces 9 [3]: 2846-2855
  • Lindström T. [1980]: Der Einfluss chemischer faktoren auf faserquellung und Papierfestigkeit. Das Papier 34 [12]: 561-568
  • Majova V., Horanova S., Skulcova A., Sima J., Jablonsky M. [2017]: Deep eutectic solvent delignification: Impact of initial lignin. BioResources 12 [4]: 7301-7310
  • Mantanis I.G., Young A.R., Rowell M.R. [1995]: Swelling of compressed cellulose fiber webs in organic liquids. Cellulose 2 [1]: 1-22
  • Niskanen K. [2000]: Paper physics, papermaking science and technology. Book 6A, Fapet Oy, Jyväskylä, 64-72
  • Olejnik K. [2012]: Effect of the free swelling of refined cellulose fibers on the mechanical properties of paper. Fibers and Textiles in Eastern Europe 20 [1]: 113-116
  • Racz I., Borsa J. [1995]: Carboxymethylcellulose of fibrous character, a survey. Cellulose Chemistry and Technology 29 [6]: 657-663
  • Racz I., Borsa J. [1997]: Swelling of Carboxymethylated Cellulose Fibers. Cellulose 4 [4]: 293-303
  • Salmén L., Berthold J. [1997]: The swelling ability of pulp fibers. Proceedings of 11th fundamental research symposium, 21-26 Sept 1997. Cambridge, UK, 683-701
  • Scallan A.M. [1989]: The electrical conductance of pulp suspensions. Tappi Journal 72 [11]: 157-162
  • Scallan A.M. [1983]: The effect of acidic groups on the swelling of pulps: a review. Tappi Journal 66 [1]: 73-75
  • Sirviö J.A., Visanko M., Liimatainen H. [2015]: Deep eutectic solvent system based on choline chloride-urea as a pre-treatment for nanofibrillation of wood cellulose. Green Chemistry 17 [6]: 3401-3406
  • Skulcova A., Jablonsky M., Haz A., Vrska M. [2016a]: Pretreatment of wheat straw using deep eutectic solvents and ultrasound. Przeglad Papierniczy 72 [4]: 243-247
  • Skulcova A., Kamenska L., Kalman F., Haz A., Jablonsky M., Cizova K., Surina I. [2016b]: Deep eutectic solvents as medium for pretreatment of biomass. Key Engineering Materials 688: 17-24
  • Skulcova A., Majova V., Sima J., Jablonsky M. [2017]: Mechanical properties of pulp delignified by deep eutectic solvents. BioResources 12 [4]: 7479-7486
  • Solar R., Mamon M., Kurjatko S., Lang R., Vacek V. [2006]: A simple method for determination of kinetics of radial, tangential and surface swelling of wood. Drvna Industrija 57 [2]: 75-82
  • Stone J.E., Scallan A.M. [1967]: The effect of component removal upon the porous structure of the cell wall of wood. II. Swelling in water and the fiber saturation point. Tappi Journal 50 [10]: 496-501
  • Stone J.E., Scallan A.M. [1968]: A structural model for the cell wall of water-swollen wood pulp fibers based on their accessibility to macromolecules. Cellulose Chemistry and Technology 2 [3]: 343-358
  • Stone J.E., Scallan A.M., Aberson G.M.A. [1966]: The wall density of native cellulose fibers. Pulp and Paper Magazine of Canada 67 [5]: T263-T268
  • Sumi Y., Kanai T. [1962]: Swelling of pulp fibers in hot alkaline solution. Sen’i Gakkaishi 18 [2]: 595-599.
  • Toven K. [2000]: Swelling and physical properties of ECF/ECF light bleached softwood kraft pulps. Proceedings of International Pulp Bleaching Conference, 27-30 June 2000. Halifax, Canada, 189-192
  • Towers M., Scallan A.M. [1996]: Predicting the ion-exchange of kraft pulps using donnan theory. Journal of Pulp and Paper Science 9 [9]: J332-J337
  • List of standards
  • ISO 23714:2014 Pulps – Determination of water retention value (WRV)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d7ac9eff-e15f-4b11-ad79-55217c2b91ff
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