REFERENCES
- Pereira, H.; Miranda, I.; Tavares, F.; Quilhó, T.; Graça, J.; Rodrigues, J.; Shatalov, A.; Knapic, S. Qualidade e Utilização Tecnológica do Eucalipto (Eucalyptus globulus); ISA Press: Lisbon, Portugal, 2011.
- Gominho, J.; Lopes, C.; Lourenço, A.; Simões, R.; Pereira, H. Eucalyptus globulus stumpwood as a raw material for pulping. BioResources 2014, 9(3), 4038–4049.
- Miranda, I.; Gominho, J.; Pereira, H. Incorporation of bark and tops in Eucalyptus globulus wood pulping. BioResources 2012, 7(3), 4350–4361.
- Silva, M.C.; Lopes, O.R.; Colodette, J.L.; Porto, A.O.; Rieumont, J.; Chaussy, D.; Belgacem, M.N.; Silva, G.G. Characterization of three non-product materials from a bleached eucalyptus kraft pulp mill, in view of valorising them as a source of cellulose fibres. Ind. Crop. Prod. 2008, 27, 288–295.
- Foelkel, C.E.B.; Zvinakevicius, C.; Siquiera, L.R.O.; Kato, J.; Andrade, J.O.M. Casca desmedulada de eucalipto: Uma nova opção como fonte de fibras para a indústria de celulose kraft. X Congresso Anual da ABCP, São Paulo, 1977; 19–35.
- Luis, A.; Neiva, D.; Pereira, H.; Gominho, J.; Domingues, F.; Duarte, A.P. Stumps of Eucalyptus globulus as a source of antioxidant and antimicrobial polyphenols. Molecules 2014, 19, 16428–16446.
- Lima, M.A.; Lavorente, G.B.; da Silva, H.K.P.; Bragatto, J.; Rezende, C.A.; Bernardinelli, O.D.; de Azevedo, E.R.; Gomez, L.D.; McQueen-Mason, S.J.; Labate, C.A.; Polikarpov, I. Effects of pretreatment on morphology, chemical composition and enzymatic digestibility of eucalyptus bark: A potentially valuable source of fermentable sugars for biofuel production, part 1. Biotechnol. Biofuels 2013, 6, 75–92.
- Vázquez, G.; Santos, J.; Freire, M.; Antorrena, G.; González-Álvarez, J. Extraction of antioxidants from eucalyptus (Eucalyptus globulus) bark. Wood Sci. Technol. 2011, 46, 443–457.
- Mota, I.; Pinto, P.C.R.; Novo, C.; Sousa, G.; Guerreiro, O.; Guerra, A.R.; Duarte, M.F.; Rodrigues, A.E. Extraction of polyphenolic compounds from Eucalyptus globulus bark: Process optimization and screening for biological activity. Ind. Eng. Chem. Res. 2012, 51, 6991–7000.
- Vázquez, G.; González-Alvarez, J.; Santos, J.; Freire, M.S.; Antorrena, G. Evaluation of potential applications for chestnut (Castanea sativa) shell and eucalyptus (Eucalyptus globulus) bark extracts. Ind. Crop. Prod. 2009, 29, 364–370.
- Quilho, T.; Pereira, H. Within and between-tree variation of bark content and wood density of Eucalyptus globulus in commercial plantations. IAWA J. 2001, 22(3), 255–265.
- Domingues, R.M.A.; Sousa, G.D.A.; Freire, C.S.R.; Silvestre, A.J.D.; Pascoal, C.P. Eucalyptus globulus biomass residues from pulping industry as a source of high value triterpenic compounds. Ind. Crop. Prod. 2010, 31, 65–70.
- Dutt, D.; Tyagi, C.H. Comparison of various eucalyptus species for their morphological chemical, pulp and paper making characteristics. Indian J. Chem. Technol. 2011, 18, 145–151.
- Gominho, J.; Figueira, J.; Rodrigues, J.C.; Pereira, H. Within-tree variation of heartwood, extractives and wood density in the eucalypt hybrid urograndis (Eucalyptus grandis×E. urophylla). Wood Fiber Sci. 2001, 33(1), 3–8.
- Jorge, F.; Quilhó, T.; Pereira, H. Variability of fibre length in wood and bark in Eucalyptus globulus. IAWA J. 2000, 21(1), 41–48.
- Quilhó, T.; Pereira, H.; Ritcher, H.G. Within-tree variation in phloem cell dimensions and proportions in Eucalyptus globulus. IAWA J. 2000, 21(2), 171–180.
- Lal, P.S.; Sharma, A.; Bist, V. Pine needle: An evaluation of pulp and paper making potential. J. For. Prod. Ind. 2013, 2(3), 42–47.
- Neiva, D.M.; Gominho, J.; Pereira, H. Modeling and optimization of Eucalyptus globulus bark and wood delignification using response surface methodology. BioResouces 2014, 9(2), 2907–2921.
- Marrakchi, Z.; Khiari, R.; Oueslati, H.; Mauret, E.; Mhenni, F. Pulping and papermaking properties of Tunisian alfa stems (Stipa tenacissima): Effects of refining process. Ind. Crop. Prod. 2011, 34, 1572–1582.
- Khiari, R.; Mhenni, M.F.; Belgacen, M.N.; and Mauret, E. Chemical composition and pulping of date palm rachis and Posidonia oceanica: A comparison with other wood and non-wood fibre sources. Bioresour. Technol. 2010, 101, 775–780.
- Gominho, J.; Fernandez, J.J.; Pereira, H. Cynara cardunculus L.: A new fibre crop for pulp and paper production. Ind. Crop. Prod. 2001, 13, 1–10.
- Neiva, D.; Fernandes, L.; Araújo, S.; Lourenço, A.; Gominho, J.; Simões, R.; Pereira, H. Chemical composition and kraft pulping of 12 eucalypt species. Ind. Crop. Prod. 2015, 66, 89–95.
- Singleton, V.L.; Orthofer, R.; Lamuela-Raventos, R.M. Analysis of total phenols and other oxidation substrates and antioxidants by means of Folin-Ciocalteu reagent. Methods Enzymol. 1999, 299, 152–178.
- Gominho, J.; Lourenço, A.; Neiva, D.; Fernandes, L.; Amaral, M.; Duarte, A.P.; Simões, R.; Pereira, H. The effect of eucalypt tree overaging on pulping and paper properties. Eur. J. Wood Wood Prod. 2016, 74(1), 101–108.
- Li, J. Towards an accurate determination of lignin in chemical pulps: The meaning of kappa number as a tool for analysis of oxidable groups. Ph.D. thesis, Royal Institute of Technology, .
- Silvy, J.; Romatier, G.; Chiodi, R. Méthodes pratiques de contrôle du raffinage. ATIP 1968, 22 (1), 31–53.
- Gütsch, J.S.; Nousiainen, T.; Sixta, H. Comparative evaluation of autohydrolysis and acid-catalyzed hydrolysis of Eucalyptus globulus wood. Bioresour. Technol. 2012, 109, 77–85.
- Garrote, G.; Domínguez, H.; Parajó, J.C. Mild autohydrolysis: An environmentally friendly technology for xylooligosaccharide production from wood. J. Chem. Technol. Biotechnol. 1999, 74, 1101–1109.
- Li, J.; Gellerstedt, G. The contribution to kappa number from hexeneuronic acid groups in pulp xylan. Carbohyd. Res. 1997, 302, 213–218.
- Baptista, P.; Costa, A.P.; Simões, R.; Amaral, M.E. Ailanthus altissima, an alternative fibre source for papermaking. Ind. Crop. Prod. 2014, 52, 32–37.
- Santos, A.; Amaral, M.E.; Vaz, A.; Anjos, O.; Simões, R. Effect of Eucalyptus globulus wood density on papermaking potential. TAPPI J. 2008, 7(5), 25–32.
- Carvalho, M.G.; Ferreira, P.J.; Figueiredo, M.M. Cellulose depolymerisation and paper properties in E. globulus kraft pulps. Cellulose 2000, 7, 359–368.
- Hubbe, M.A.; Pawlak, J.J.; Koukoulas, A. Paper's appearance: A review. BioResources 2008, 3(2), 627–665.
- Foelkel, C. The Eucalyptus fibers and the kraft pulp quality requirements for paper manufacturing. Eucalyptus Online Book & Newsletter , http://www.eucalyptus.com.br/capitulos/ENG03 fibers.pdf
- Kibblewhite, R.P.; Riddell, M.J.C.; Shelbourne, C.J.A. Variation in wood, kraft fibre, and handsheet properties among 29 trees of Eucalyptus regnans, and comparison with E. nitens and E. fastigata. New Zealand. J. For. Sci. 2000, 30(3), 458–474.