Debarking waste processing: a systematic review

Автор: Gavrilov Timmo А., Stankevich Tatyana B., Anpilogova Olga А., Kolesnikov Gennady N., Chernyaev Leonid A.

Журнал: Resources and Technology @rt-petrsu

Статья в выпуске: 13 (3), 2016 года.

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Debarking is an essential part in the technology of round timber processing. A large number of reports have been devoted to the problem of debarking methods and devices improvement. According to some estimation the annual debarking waste makes about 6 mln cubic meters. Taking into consideration these circumstances the importance of the research focused on the rational use of the debarking waste is increasing nowadays. For this reason it is necessary to systematize all known results in this field to clarify the prospects for future research. This article gives a systematic review and analysis of the effectiveness of existing technologies for debarking waste processing. Both the most common debarking processing technologies - export to earth boards and ashing for obtaining thermal and electric power - and promising - anaerobic fermenting and fermentation - are reviewed. Debarking waste should become cost-effective secondary resource instead of a significant problem for wood processing enterprises.

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Round timber, debarking, secondary resource, debarking waste, debarking processing technologies

Короткий адрес: https://sciup.org/147112328

IDR: 147112328   |   DOI: 10.15393/j2.art.2016.3521

Список литературы Debarking waste processing: a systematic review

  • Nikonova, Y., Rakovskaya, M., Dospehova, N., Zaitseva, M. 2014. Review of pulpwood debarking processes investigations. Resources and Technology 11 (1): 11-49.
  • Isokangas, A., Leiviskä, K. 2005. Optimization of wood losses in log debarking drum. Paperi ja puu 87 (5): 324-328.
  • Shegelman, I.R., Vasilyev, А.S. 2016. A brief analysis of the way the group debarking. Innovative technologies in science and education 2 (6): 289-290.
  • Tsivin, М.М. 1973. The use of tree bark. The forest industry, Moscow, Russia, 96 pp.
  • Rudakova, L.V. 1996. Development of technology for utilization of solid waste of pulp and paper production method vermicultivation, Moscow, Russia, 144 pp.
  • Pásztory, Z., Mohácsiné, I.R., Gorbacheva, G., Börcsök, Z. 2016. The utilization of tree bark. BioResources 11 (3). Available online: https://www.ncsu.edu/bioresources/BioRes_11/BioRes_11_3_7859_REVIEW_Pasztory_MGB_Utilization_Tree_Bark_9371.pdf (accessed on 01.08.2016).
  • Feng, S., Cheng, S., Yuan, Z., Leitch, M., Xu, C. 2013. Valorization of bark for chemicals and materials: A review. Renewable and Sustainable Energy Reviews 26: 560-578.
  • Volynsky, V. 2012. Processing and use of wood bark. LesPromInform 2 (84): 168-170.
  • Gavrilov, Т.А., Kolesnikov, G.N. 2015. Analysis of debarking waste recycling trends. Actual directions of scientific researches of the XXI century: theory and practice 9-2 (20-2): 115-118. V. 3.
  • Melin, S. 2008. Bark as feedstock for production of wood pellets. Wood Pellet Association of Canada. Available online: http://www.pellet.org/images/2008-12-11_ Bark_as_feedstock_for_Production_of_Wood_Pellets_Report_December_2008.pdf (accessed on 01.08.2016).
  • Şensöz, S. 2003. Slow pyrolysis of wood barks from Pinus brutia Ten. and product compositions. BioResources 89 (3): 307-311.
  • Aydin, I., Demirkir, C., Colak, S., Colakoglu, G. 2016. Utilization of bark flours as additive in plywood manufacturing. European Journal of Wood and Wood Products. Available online: http://link.springer.com/article/10.1007%2Fs00107-016-1096-0 (accessed on 01.08.2016).
  • Safdari, V., Khodadadi, H., Hosseinihashemi, S.K., Ganjian, E. 2011. The effects of poplar bark and wood content on the mechanical properties of wood-polypropylene composites. BioResources 6 (4): 5180-5192.
  • Golubev, I.G. Svenska, I.A., Konovalenko, L.Yu., Lopatnikov M.V. 2011. Waste recycling in agriculture: a Handbook. FGNU «Rosinformagrotech», Moscow, Russia, 296 pp.
  • Vandecasteele, B., Willekens, K., Zwertvaegher, A., Degrande, L., Tack, F. M. G., Du Laing, G. 2013. Effect of composting on the Cd, Zn and Mn content and fractionation in feedstock mixtures with wood chips from a shortrotation coppice and bark. Waste Management 33 (11): 2195-2203.
  • Vandecasteele, B., Reubens, B., Willekens, K., De Neve, S. 2014. Composting for Increasing the Fertilizer Value of Chicken Manure: Effects of Feedstock on P Availability. Waste Biomass 5: 491-503.
  • Devyatovsky, A.N., Zhuravleva, L.N., Deviatovski, N.I. 2010. Utilization of wood bark wood processing enterprises. Actual problems of forestry complex 27: 51-54.
  • Gavrilov, T.А., Patalaynen, L.S., Kolesnikov G.N. 2014. About resourcesaving technology of ecologically safe utilization of tree bark. Modern scientific researches and innovations 7 (39): 59-64.
  • Gavrilov, T.А. 2014. Waste recycling resource conserving technologies in the form of wood biomass. Resource-saving technologies, materials and structures: proceedings of the regional scientific-practical conference. Petropress, Petrozavodsk, Russia, 20-24 pp.
  • Huang, K. 2013. Changes of bacterial and fungal community compositions during vermicomposting of vegetable wastes by Eisenia foetida. Bioresource Technology. Available online: http://www.sciencedirect.com/science/article/pii/S0960852410016226 (accessed on 01.08.2016).
  • Kumar, R. 2011. Enhancement of wood waste decomposition by microbial inoculation prior to vermicomposting. Bioresource Technology. Available online: http://www.sciencedirect.com/science/article/pii/S0960852410016226 (accessed on 01.08.2016).
  • Filichkina, M.V., Sushkov, A.S. 2013. Rational use of wood waste. Voronezh scientific and technical Bulletin 4 (6): 27-31.
  • Dedriea, M., Jacquetb, N., Bombecka, P.-L., Héberta, J., Richel, A. 2015. Oak barks as raw materials for the extraction of polyphenols for the chemical and pharmaceutical sectors: A regional case study. Industrial Crops and Products 70: 316-321.
  • Garcia, D.E., Glasser, W.G., Pizzi, A., Paczkowski, S., Laborie, M.P. 2015. Hydroxypropyl tannin from Pinus pinaster bark as polyol source in urethane chemistry. European Polymer Journal 67: 152-165.
  • Burchak, V.I. Zaitseva, M.I., Gorbacheva, N.A. 2014. Utilization of waste wood preparation cycle pulp and paper mill. Wooden low-rise housing: Economics, architecture and resource-saving technologies: a collection of articles of scientific-practical conference. Petropress, Petrozavodsk, Russia, 40-44 pp.
  • Kovalev, N.G., Polozov, V.G., Baranovsky, E.N. 2009. Organic raw material utilization into fertilizer by bioconversion method. Machinery and Equipment for Rural Area 1: 25-27.
  • Yang, L., Xu, F., Ge, X., Li, Y. 2015. Challenges and strategies for solid-state anaerobic digestion of lignocellulosic biomass. Renewable and Sustainable Energy Reviews 44: 824-834.
  • Gerasimov, Y., Karvinen, S., Syunev, V., Sokolov, A., Katarov, V. 2009. Development of wood transport infrastructure -Finnish experience. Transport business of Russia 7: 99-102.
  • Seliverstov, A.A., Gerasimov, Yu.Yu., Sukhanov, Yu.V., Syuniov, V.S., Katarov, V.K. Evaluation of effectiveness of the wood chips production in timber terminal. Tractors and agricultural machinery 8: 25-27.
  • Gerasimov, Y., Seliverstov, A., Syunev, V. Industrial round-wood damage and operational efficiency losses associated with the maintenance of a single-grip harvester head model: a case study in Russia. Forests 4 (3): 864-880.
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