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Evaluating the performance of hemp bast fibres in the production of packaging paper using different wastepaper blends

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The predicted scarcity of wood-based fibre supplies has necessitated the search for alternative sources including non-woods by paper manufacturers. As a raw material for pulping, hemp bast fibre has some potential. To provide a guide for the pulp and paper industries, the suitability of hemp bast fibres for the pulp and paper industries was evaluated in this study, and blending trials with wastepaper pulp were conducted. In the hemp bast fibre preparation, the length of the fibres was first reduced to 4 mm. Subsequently, kraft pulping was applied to them. Along with the preparation of wastepaper pulps, hemp bast fibres and wastepaper handsheets were prepared according to a blending plan. Finally, the handsheets were subjected to paper strength tests. The properties of raw, cooked and beaten hemp bast fibres were investigated by characterisation methods such as optical microscopy, X-ray diffraction and Fourier-transform infrared spectroscopy. Additionally, carbohydrate components, solubility and ash content tests were run on raw hemp bast fibres. As a result of the experiments and analyses, the targeted results were achieved. Following the resolution of the fibrillation problem, it was determined that hemp bast fibre pulp can be used in adequate blends of wastepaper pulp when the strength values of the end product are desired to be increased (including CMT, CCT, RCT, SCT, stiffness and tear resistance) or decreased (air resistance).
Słowa kluczowe
Rocznik
Strony
art. no. 1644--3985.400.02
Opis fizyczny
Bibliogr. 38 poz., rys., tab., wykr.
Twórcy
  • Ege University, Faculty of Engineering, Department of Chemical Engineering, İzmir, Turkey
autor
  • Ege University, Faculty of Engineering, Department of Chemical Engineering, İzmir, Turkey
  • Karadeniz Technical University, Faculty of Forestry, Department of Pulp and Paper, Trabzon, Turkey
Bibliografia
  • Ashok Kumar T.N.V., Subash Kumar J. and Vijay Kumar J. [2017]: Fabrication and investigation of mechanical properties hemp fibre reinforced polyester composites. Science and Technology 2 [3]
  • Ashori A. [2006]: Nonwood fibres – A potential source of raw material in papermaking. Polymer-Plastics Technology and Engineering 45
  • Bowyer J.L. [2001]: Industrial hemp as a papermaking raw material in Minesota: technical, economic and environmental considerations] access date 17 June 2019 https://www.votehemp.com/wp-content/uploads/2018/09/hemp.pdf
  • Browning B.L. [1967]: Methods of Wood Chemistry. Vol. II. John Wiley and Sons Inc. New York
  • Cheremisinoff N.P. and Rosenfeld P.E. [2010]: Handbook of Pollution Prevention and Cleaner Production, Elsevier Inc.
  • Chieng B.W., Lee S.H., Ibrahim N.A., Then Y.Y. and Loo Y.Y. [2017]: Isolation and characterization of cellulose nanocrystals from oil palm mesocarp fibre. Polymers 9 [355]
  • Danielewicz D. and Surma-Ślusarska B. [2010]: Processing of industrial hemp into papermaking pulps intended for bleaching. Fibres and Textiles in Eastern Europe 18-6 [83]
  • Danielewicz D. and Surma-Ślusarska B. [2017]: Properties and fibre characterisation of bleached hemp, birch and pine pulps: A comparison. Cellulose 24
  • Dutt D., Upadhyaya J.S., Malik R.S. and Tyagi C.H. [2005]: Studies on the pulp and papermaking characteristics of some Indian non-woody fibrous raw materials. Cellulose Chemistry and Technology 39 [115]
  • Dutt D., Upadhyaya J.S., Tyagi C.H., Kumar A. and Lal M. [2008]: Studies on Ipomea carnea and Cannabis sativa as an alternative pulp blend for softwood: An optimization of kraft delignification process. Industrial Crops and Products 28
  • Dutt D., Tyagi C.H., Agnihotri S., Kumar A. and Siddhartha A. [2009]: Alkoxygen and alkoxygen-AQ delignification of Ipomea carnea and Cannabis sativa Indian Journal of Chemical Technology 16
  • Malachowska E., Przybysz P., Dubowik M., Kucner M., Buzala K. [2015]: Comparison of papermaking potential of wood and hemp cellulose pulps. Annals of Warsaw University of Life Sciences-SGGW 91
  • Eroğlu H. and Usta M. [2004]: Kağıt ve Karton Üretim Teknolojisi Esen Ofset Matbaacılık Trabzon, 1
  • Gümüşkaya E. [2002]: Kendir (Cannabis sativa L.) soymuk liflerinden asidik ve alkali ortamlarda üretilen kağıt hamurlarının kimyasal ve kristal yapı özellikleri (Chemical and crystalline structure properties of hemp (Cannabis sativa L.) bast fibres pulp obtained with alkaline and acidic processes. Doctor of Philosophy Thesis, Karadeniz Teknik University
  • Gümüşkaya E. and Usta M. [2006]: Dependence of chemical and crystalline structure of alkali sulfite pulp on pulping temperature and time. Carbohydrate Polymers 65
  • Gümüşkaya E., Usta M. and Balaban M. [2007]: Carbohydrate components and crystalline structure of organosolv hemp bast fibres pulp. Bioresource Technology 98
  • Kalia S. (ed.) [2011]: Cellulose fibers: bio- and nano-polymer composites. Springer, Berlin, pp 123–146. doi:10.1007/978-3-642-17370-7
  • Kumar Agrawal N., Agarwal A. and Mukherjee S. [2015]: Chemistry of raw materials for electrical grade paper: An overview. International Journal of Engineering Technology, Management and Applied Sciences 3 [2]
  • Kumar V., Pathak P. and Bhardwaj N.K. [2020]: Waste paper: an underutilized but promising source for nanocellulose mining. Waste Management 102
  • Menon A., Akhil T. and Prasad R.K. [2018]: Spectral characterization and surface morphology of delignification of kraft pulp with carbamide peroxide. Journal of Environmental Chemical Engineering 6
  • Munajad A., Subroto C. and Suwarno [2018]: Fourier-transform infrared (FTIR) spectroscopy analysis of transformer paper in mineral oil-paper composite insulation under accelerated thermal aging. Energies 11 [364]
  • Plazonic I., Barbaric-Mikocevic Z., Bates I. and Malnar L. [2016]: Chemical stability of prints made of hemp fibre based papers. Acta Graphica 27 [3]
  • Ruraltech [Pulp and Paper] access date 31 March 2020 http://www.ruraltech.org/projects/conversions/briggs_conversions/briggs_ch08/chapter08_combined.pdf
  • Segal L., Creely J.J., Martin Jr. A.E. and Conrad C.M. [1959]: An Empirical Method for Estimating the Degree of Crystallinity of Native Cellulose Using the X-Ray Diffractometer. Textile Research Journal 29: 786-794. doi: http://dx.doi.org/10.1177/004051755902901003
  • Tutuş A., Karataş B. and Çiçekler M. [2016]: Pulp and paper production from hemp by modified kraft method. 1st International Mediterranean Science and Engineering Congress Adana
  • Yaylali D. [2020]: Evaluation of the performance of hemp bast fibres in the production of packaging paper with different waste paper blends, Master Thesis, Ege University
  • Zhbankov R. G. [1966]: Infrared spectra of cellulose and its derivatives. Springer, Minsk
  • List of standards
  • TAPPI T 204 cm-07:2007 Solvent Extractives of Wood and Pulp
  • TAPPI T 205:2002 Forming handsheets for physical tests of pulp
  • TAPPI T 207:2008 Water solubility of wood and pulp
  • TAPPI T 210:2003 Sampling and testing wood pulp shipments for moisture
  • TAPPI T 211 om-93:1993 Ash in Wood, Pulp, Paper and Paperboard: Combustion at 525 Degrees Celsius
  • TAPPI T 212 om-12:2012 One Percent Sodium Hydroxide Solubility of Wood and Pulp
  • TAPPI T 220:2001 Physical testing of pulp handsheets
  • TAPPI T 222 om-11:2011 Acid-Insoluble Lignin in Wood and Pulp
  • TAPPI T 227:1999 Freeness of pulp (Canadian standard method)
  • TAPPI T 257 sp-12:2012 Sampling and Preparing Wood for Analysis
  • TAPPI T 402:2008 Standard conditioning and testing atmospheres for paper
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-00959946-df8e-495f-ab80-b92daa0518b9
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