Approaches of effective utilization

Approaches of effective utilization of renewable lignocellulosic resources to produce chemicals and materials are attracting the interest of scientific and industrial committee all over the world. By applying mechanical, chemical, physical or biological methods, cellulosic fibers can be disintegrated into cel- lulose substructures with micro- or nano-size dimensions, which have the advantages of bio-based materials such as being light- weight, bio-degradable, bio-compatible, and renewable. However, these methods tend to be energy-demanding and/or chemical- demanding. A common method of obtaining cellulose nano-fibers involves conventional refining procedures, in which large quanti- ties of energy are required [18]. Acid hydrolysis is the main process used to produce nanocrystalline cellulose, in which H2SO4, HCl or H3 PO4 are usually used [19]. When sulfuric acid is used as hydrolyz- ing agent, it interacts with the surface hydroxyl groups of cellulose to yield charged surface sulfate groups, which can promote the dispersibilty of nano whiskers in water [7].
It was reported that the nano fibrillation cellulose (NFC) can be used for improving the physical properties of papers and cellu- losic films [20]. Henriksson et al. [2] and Zimmermann et al. [21] reported that microfibrillated cellulose (MFC) could be formed into sheets with high strength properties. Similar results for enhancing paper strength are obtained when MFC was added into the pulp suspension [21,22]. In papermaking process, it is important that the papermakers are able to effectively retain mineral fillers and fiber fines while simultaneously improving dewatering rate [23]. NCC provides a very high water retention capacity due to their large surface area and high aspect ratio. However, the strong water retention property may deteriorate the drainage rate of the pulp.
In this study, NCC was isolated from bleached aspen kraft pulp by acid hydrolysis, and characterized by particle charge detector, X-ray diffraction, and atomic force microscopy, respectively. Then, NCC was used as an additive in the deinked pulp, and the retention of fines and improvement of paper strength were evaluated and discussed. In addition, its influence on the drainage rate of the pulp when applied together with cationic polyacrylamide and cationic starch was also investigated.