European Journal of Wood and Wood Products (2023) 81:557–570
569
MDF. Wood Mater Sci Eng 14(1):19–23. https://doi.org/10.1080/ 17480272.2018.1427144 Jan VM (2019) Überblick über den Europäischen Markt, SUEZ trad- ing. BAV-Altholztag, München, Deutschland (Jan VM (2019) European Market Overview, SUEZ Trading. German waste wood association—Waste wood day, Munich, Germany) Jartun M, Ottesen RT, Steinnes EVT (2009a) Painted surfaces „ impor- tant source of polychlorinated biphenyl (PCBs) contamination to the urban and marine environment. Environ Pollut 157:295–302 Jartun M, Ottesen RT, Tl V, Kvist Q (2009b) Local sources of polychlo- rinated biphenyls (PCB) in Russian and Norwegian settlements on Spitsbergen Island, Norway. J Toxicol Environ Health Part A Curr Lssues 72:284–294. https://doi.org/10.1080/15287390802539426 Jermer J, Annika E, Claes T (2001) Analysis of contaminants in waste wood. In: Annual meeting paper, the international research group on wood preservation. IRG/WP 01-50179 Johan S, Maria Z, Ron Z (2007) Combined thermal treatment of CCA- wood waste and municipal sewage sludge for arsenic emissions control. Report 2007-1. Faculty of Technology. Abo Akademi University. http:// users. abo. fi/ rzeve nho/ CCAre por tV T2007-1. pdf. Accessed on 15.10.2021 Krook J, Mirtensson A, Eklund M (2004) Metal contamination in recovered waste wood used as energy source in Sweden. Resour Conserv Recycl 41:1–14. https://doi.org/10.1016/50921-3449(03) 00100-9 Krook J, Mirtensson A, Eklund M (2006) Sources of heavy metal con- tamination in Swedish wood waste used for combustion. Waste Manag 26:158–166. https:// doi. org/ 10. 1016/j. wasman. 2005. 07. 017 Krzysik JMA, Youngquist AJ, Bowers H (1997) Medium density fiber- board panels from waste wood and paper. Mater Sci ( Corpus ID: 18005113 ) Lahtela V, Kaerki T (2018) Mechanical sorting processing of waste material before composite manufacturing—a review. JESTR 1 1 ( 6 ) : 3 5 – 4 6 . h t t p s : / / d o i . o rg / 1 0 . 2 5 1 0 3 / j e st r. 1 1 6 . 0 6 Laskowska A, Mamiński M (2018) Properties of particleboard produced from post-industrial UF- and PF-bonded plywood. Eur J Wood Prod 76(2):427–435. https://doi.org/10.1007/ s00107-017-1266-8 Lesar B, Humar M, Hora G (2018) Quality assessment of recycled wood with and without non-wooden materials from selected recycling companies in Europe. Waste Manag (new York, NY) 79:362–373. https://doi.org/10.1016/j.wasman.2018.08.002 Lykidis C, Grigoriou A (2008) Hydrothermal recycling of waste and performance of the recycled wooden particleboards. Waste Manag ( n ew Yo rk , N Y ) 2 8 ( 1 ) : 5 7 – 6 3 . h t t p s : / / d o i . o rg / 1 0 . 1 0 1 6 / j . wa s m a n . 2006.11.016 Lykidis C, Grigoriou A (2011) Quality characteristics of hydrother- mally recycled particleboards using various wood recovery parameters. Int Wood Prod J 2(1):38–43. https://doi.org/10.1179/ 2042645311Y.0000000002 Mantanis G, Eleftheria A, Panagiotis N, Aires C (2004) A new process for recycling waste fiberboards. In: 38th international wood com- posites symposium, pp 119–122 Mantau U, Doering P (2018) Rohstoffmonitoring Holz. Altholz im Ent- sorgungsmarkt—Herkunft und Aufbereitung, INFRO Teilbericht. http://infro.eu/downloads/studien/10_ATH_2016_Zusatz_Teilb e r i ch t _ F I NA L _ 2 0 1 8 0 9 0 4 . p d f . Ac c e s s e d o n 0 8 . 0 9 . 2 0 2 1 Martin RE, Hizo CB, Ong AM, Alba OM, Ishiwata H (1992) Release of formaldehyde and melamine from melamine tableware manu- factured in the Philippines. J Food Prot 55(8):632–635 Martins J, João P, Brígida P, Cristina C, Luisa C (2007) Effect of recy- cled wood on formaldehyde release of particleboard. In: COST action E49 conference “Measurement and Control of VOC Emis- sion from Wood Based Panels”, Braunschweig, Germany
Edo MB, Persson E, Jansson PE (2015) Assessment of chemical and material contamination in waste wood fuels—a case study ranging over nine years. Waste Manage 49:311–319. https://doi. org/10.1016/j.wasman.2015.11.048 Edo M, Bjoern E, Per-Erik P, Jansson S (2016) Assessment of chemi- cal and material contamination in waste wood fuels—a case study ranging over nine years. Waste Manag (new York, NY) 4 9 : 3 1 1 – 3 1 9 . h t t p s : / / d o i . o rg / 1 0 . 1 0 1 6 / j . wa s m a n . 2 0 1 5 . 1 1 . 0 4 8 European Union Commission Decision 2009/894/EC (2009) On establishing the ecological criteria for the award of the com- munity eco-label for wooden furniture (notified under document C (2009) 9522) OJ L 320, 5.12.2009:23–32. http://extwprlegs1. fa o . o rg / d o c s / p d f / e u r 9 1 5 9 9 . p d f . Ac c e s s e d o n 1 3 . 0 1 . 2 0 2 2 FAO (2018) Global forest products. Fact and figures. 6–8. https:// www. fao. org/3/ ca741 5en/ ca741 5en. pdf. Accessed on 17.08.2021 Faraca G, Alessio B, Thomas A (2019) Resource quality of wood waste: the importance of physical and chemical impurities in wood waste for recycling. Waste Manag 87:135–147. https://doi. org/10.1016/j.wasman.2019.02.005 Fechter JO (2021) Von der Vision zur Umsetzung—IKEAS Recy- clingziele für Altholz, IKEA of Sweden. BAV-Altholztag, Koeln, Germany. (Fechter JO (2021) From vision to implementation— IKEAS recycling targets for waste wood, IKEA of Sweden. BAV Waste Wood Day, Cologne, Germany) Fellin M, Negri M, Zanuttini R (2011) Monitoring pollutants on wood residues using FT-IR-ATR technology, ISCHP 11-Virginia Tech, Blacksburg, VA, USA 16–18 October 2011, pp 187–195. ( ISBN 978-0-9837700-0-8 ) Fellin M, Negri M, Zanuttini R (2014) Multi-elemental analysis of wood waste using energy dispersive X-ray fluorescence (ED- XRF) analyzer. Eur J Wood Prod 72(2):199–211. https://doi.org/ 10.1007/s00107-013-0766-4 Fjelsted L, Christensen TH (2007) Household hazardous waste: com- position of polluted waste. Waste Manag Res 25:502-S09. https:// doi.org/10.1177/0734242X07082956 Goldstein I (1973) Degradation and protection of wood from thermal attack. In: Ddd V (ed) Wood deterioration and its prevention by preservative treatments, Volume I: degradation and protection of wood. Syracuse wood science series, vol 5. Syracuse University Press, New York Hameed M, Roennols E, Bramryd T (2018a) Particleboard based on wood waste material and bonded by hybrid resin of TF and PMDI. Part 1: the mechanical and physical properties of particleboards. Holztechnologie 59(4):24–32 Hameed M, Roennols E, Bramryd T (2018b) Particleboard based on wood waste material and bonded by hybrid resin of TF and PMDI. Part 2: the extractable formaldehyde content and formaldehyde release. Holztechnologie 59(5):32–38 ( ISSN: 0018-3881 ) Hasan RA, Schindler J, Solo-Gabriele HM, Townsend TG (2011a) Part I: online sorting of recovered wood waste by automated XRF- technology. Detection of preservative-treated wood waste. Waste Manag (new York, NY) 31(4):688–694. https://doi.org/10.1016/j. wasman.2010.11.010 Hasan RA, Solo-Gabriele H, Townsend TG (2011b) Part II: online sorting of recovered wood waste by automated XRF-technology— sorting efficiencies. Waste Manag (new York, NY) 31(4):695– 7 0 4 . h t t p s : / / d o i . o rg / 1 0 . 1 0 1 6 / j . wa s m a n . 2 0 1 0 . 1 0 . 0 2 4 Hong MK, Lubis MAR, Park B, Sohn CH, Roh J (2018) Effects of surface laminate type and recycled fiber content on properties of three-layer medium density fiberboard. Wood Mat Sci Eng 15(3):163–171. https://doi.org/10.1080/17480272.2018.1528479 Irle M, Privat F, Couret L, Belloncle C, Deroubaix G, Bonni E, Cathala B (2019) Advanced recycling of post-consumer solid wood and
1 3
Made with FlippingBook Digital Proposal Creator