bioresources. com
PEER-REVIEWED ARTICLE
DOI: 10.1039/C6EE00640J Privas, E., and Navard, P. (2013). “Preparation, processing and properties of lignosulfonate –flax composite boards,” Carbohyd. Polym. 93(1), 300-306. DOI: 10.1016/j.carbpol.2012.04.060 Qiao, Q., Zhao, F., Liu, Z., J iang, S., and Hao, H. (2017). “Cradle -to-gate greenhouse gas emissions of battery electric and internal combustion engine vehicles in China,” Appl. Energ. 204, 1399-1411. DOI: 10.1016/j.apenergy.2017.05.041 Rivela, B., Moreira, M. T. , and Feijoo, G. (2007). “Life cycle inventory of medium density fibreboard,” Int. J. Life Cycle Assoc. 12(3), 143-150. DOI: 10.1065/lca2006.12.290 Sommerhuber, P. F., Wenker, J. L., Rüter, S., and Krause, A. (2017). “Life cycle assessment of wood-plastic composites: Analysing alternative materials and identifying an environmental sound end-of- life option,” Resour. Conserv. Recy. 117(Part B), 235-248. DOI: 10.1016/j.resconrec.2016.10.012 Song, Y., Wang, X., Maher, B. A., Li, F., Xu, C., Liu, X., Sun, X., and Zhang, Z. (2016). “The spatial -temporal characteristics and health impacts of ambient fine particulate matter in China,” J. Clean. Prod. 112(Part 2), 1312-1318. DOI: 10.1016/j.jclepro.2015.05.006 Swiss Centre for Life Cycle Inventories (2018). “Ecoinvent Database Version 3.5,” Available at: https://www.ecoinvent.org/files/change_report_v3_5_20180823.pdf (accessed 23.08.13.). Teixeira, C. E., Sartori, L., and Finotti, A. R. (2010). “Comparative environmental performance of semi-trailer load boxes for grain transport made of different materials,” Int. J. Life Cycle Assoc. 15(2), 212-220. DOI: 10.1007/s11367-009-0138- 9 Ten, E., and Vermerris, W. (2015). “Recent developments in polymers derived from industrial lignin,” J. Appl. Polym. Sci. 132(24). DOI: 10.1002/app.42069 Thinkstep (2018). “GaBi 8.7 Product Sustainability Software,” Available at: http://www.gabi-software.com/international/support/gabi-version-history/gabi-ts- version-history/ (accessed 05.18.). Tong, L., Liu, X., Liu, X., Yuan, Z., and Zhang, Q. (2013). “Life cycle assessment of water reuse systems in an industrial park,” J. Environ. Manage. 129, 471-478. DOI: 10.1016/j.jenvman.2013.08.018 Vignali, G. (2017). “Environmental assessment of domestic boilers: A comparison of condensing and traditional technology using life cycle assessment methodology,” J. Clean. Prod. 142(4), 2493-2508. DOI: 10.1016/j.jclepro.2016.11.025 Wang, S., Su, D., and Zhu, S. (2016). “ A comparative study on life cycle assessment of typical wood base furniture ,” in: Procedings of the 5 th International Conference on Sustainable Energy and Environment Engineering (ICSEEE 2016) , Zhuhai, China, pp. 634-640. World Steel Association (2017). “Life cycle inventory methodology report for steel products,” Available at: https://www.worldsteel.org/en/dam/jcr:6eefabf4-f562-4868- b919-f232280fd8b9/LCI%2520methodology%2520report_2017_vfinal.pdf (accessed 14.09.17.). Yao, Q., Li, S.-Q., Xu, H.-W., Zhuo, J.- K., and Song, Q. (2010). “Reprint of: Studies on formation and control o f combustion particulate matter in China: A review,” Energy 35(11), 4480-4493. DOI: 10.1016/j.energy.2010.08.009
2757
Li et al . (2019 ). “Wardrobe case study in China,” B io R esources 14(2), 2740-2758.
Made with FlippingBook Digital Publishing Software