bioresources. com
PEER-REVIEWED ARTICLE
formation (PMF), the wood materials production was the largest contributor (32%), mainly from dust waste during HWC manufacturing (35%). 4. Alternative and potential scenarios were proposed and analyzed to compare their environmental profile with the current production process. An efficient use of wood waste as a raw material for the HWC in the wardrobe products can present environmental advantages. Different modified conditions of the lignosulfonate caused remarkable changes in environmental impact. ACKNOWLEDGMENTS The authors are grateful for the support of the Special Fund for Forest Scientific Research in the Public Welfare (Grant No. 201504501-1); the National Natural Science Foundation of China (Grant No. 31801313); University Nursing Program for Young Scholars with Creative Talents in Heilongjiang Province (Grant No. UNPYSCT-2018085); Open Foundation of the Heilongjiang Provincial Key Laboratory of Environmental Microbiology and Recycling of Argo-Waste in Cold Region (Grant No. 201708); and the Doctor Initial Foundation of Heilongjiang Bayi Agricultural University (Grant No. XYB 2015-10).
APPENDIX List of Abbreviations AC
Terrestrial acidification Climate change ecosystems Climate change on human health Chemical Oxygen Demand Freshwater eutrophication
CCE CCH COD
EP EQ FD FE HH HT
Ecosystem quality Fossil depletion Freshwater ecotoxicity
Human health Human toxicity
HWC
Hybrid modified ammonium lignosulfonate/wood fiber composites
IR
Ionizing radiation Life cycle assessment Life cycle inventory Metal depletion Marine ecotoxicity Ozone depletion Medium-density fibreboard Particulate matter formation Photochemical oxidant formation
LCA LCI MD MDF
ME OD
PMF POF
R
Resources
TE
Terrestrial ecotoxicity
2754
Li et al . (2019 ). “Wardrobe case study in China,” B io R esources 14(2), 2740-2758.
Made with FlippingBook Digital Publishing Software