Forests 2022 , 13 , 1856
20of 21
9. Zhang, X.; Zhang, F.; Cai, H.; Zhang, H. A Representative Study of CO2 Emissions and Carbon Intensity Based on a Case of a Pulp and Paper Mill in China: Calculation and Analysis. BioResources 2017 , 12 , 6157–6172. [CrossRef] 10. Wang, S.; Li, Q.; Fang, C.; Zhou, C. The relationship between economic growth, energy consumption, and CO2 emissions: Empirical evidence from China. Sci. Total Environ. 2016 , 542 , 360–371. [CrossRef] 11. Wang, X.F.; Cui, Z.J.; Yu, F. Analysis of greenhouse effect carbon emission equivalent of different raw material pulping systems. Pap. Pap. Mak. 2013 , 32 , 1–5. (In Chinese) 12. Chen, C.; Qiu, R.Z. Estimation of energy consumption and carbon emission of pulp and paper industry in China. China Pulp Pap. 2014 , 33 , 50–55. (In Chinese) 13. Zhao, Q.J.; Wen, Z.M.; Zhang, M.X.; Anne, T. Research on implicit carbon flow and carbon emission measurement based on Forest Pulp and paper supply chain. China Popul. Resour. Environ. 2018 , 28 , 39–46. (In Chinese) 14. Furszyfer Del Rio, D.D.; Sovacool, B.K.; Griffiths, S.; Bazilian, M.; Kim, J.; Foley, A.M.; Rooney, D. Decarbonizing the pulp and paper industry: A critical and systematic review of sociotechnical developments and policy options. Renew. Sustain. Energy Rev. 2022 , 167 , 112706. [CrossRef] 15. Li, D.F.; Cao, Z.L.; Lu, B.R.; Chen, X. Life cycle assessment and its application in paper industry. China Pulp Pap. 2009 , 28 , 62–65. (In Chinese) 16. Liu, H.B.; Li, J.G.; Tao, J.S. Some thoughts on developing low carbon paper industry. China Pulp Pap. 2011 , 30 , 51–56. (In Chinese) 17. Ma, Q.Q.; Lu, B.R.; Zhang, Q.W. Carbon footprint evaluation method of paper products based on life cycle assessment (LCA). China Pulp Pap. 2012 , 31 , 57–62. (In Chinese) 18. Tang, Y.H. On the life cycle of China’s paper industry and the strategic measures that enterprises should take at this stage. China Pulp Pap. Ind. 2002 , 03 , 38–40. (In Chinese) 19. Zheng, B.C. Research on product life cycle and strategy of China’s paper industry. China Pulp Pap. Ind. 2014 , 35 , 42–47. (In Chinese) 20. Lopes, E.; Dias, A.; Arroja, L.; Capela, I.; Pereira, F. Application of life cycle assessment to the Portuguese pulp and paper industry. J. Clean. Prod. 2003 , 11 , 51–59. [CrossRef] 21. Dias, A.C.; Louro, M.; Arroja, L.; Capela, I. Evalution of the Environmental Performance of Printing and Writing Paper Using Life Cycle Assessment. World Pulp Pap. 2011 , 15 , 1–12. 22. Gemechu, E.D.; Butnar, I.; Gom à -Camps, J.; Pons, A.; Castells, F. A comparison of the GHG emissions caused by manufacturing tissue paper from virgin pulp or recycled waste paper. Int. J. Life Cycle Assess. 2013 , 18 , 1618–1628. [CrossRef] 23. Chen, S.; Yang, X.G.; Li, Y.P.; Cao, L.; Yue, W.Z. Analysis of GHG emission in the whole life cycle of Chinese paper products. J. Beijing Univ. Technol. 2014 , 40 , 944–949. (In Chinese) 24. Peters, G.P.; Hertwich, E.G. Post-Kyoto greenhouse gas inventories: Production versus consumption. Clim. Change 2008 , 86 , 51–66. [CrossRef] 25. Ma, C.M.; Xu, H.Q.; Su, M.S. Research progress of greenhouse gas inventory preparation method. Prog. Geogr. 2013 , 32 , 400–407. (In Chinese) 26. Han, Z.; Chen, Y.H.; Shi, Y. Calculation and decomposition of consumption carbon emissions from the perspective of international final demand. J. Quant. Tech. Econ. 2018 , 35 , 114–129. (In Chinese) 27. Peng, L.; Zeng, X.; Wang, Y.; Hong, G.-B. Analysis of energy efficiency and carbon dioxide reduction in the Chinese pulp and paper industry. Energy Policy 2015 , 80 , 65–75. [CrossRef] 28. Gonz á lez-Garc í a, S.; Hospido, A.; Feijoo, G.; Moreira, M.T. Life cycle assessment of raw materials for non-wood pulp mills: Hemp and flax. Resour. Conserv. Recycl. 2010 , 54 , 923–930. [CrossRef] 29. Ghose, A.; Chinga-Carrasco, G. Environmental aspects of Norwegian production of pulp fibres and printing paper. J. Clean. Prod. 2013 , 57 , 293–301. [CrossRef] 30. Wang, X.; Zhao, X.; Wang, Y.Q.; Xue, J.F.; Zhang, H.L. Carbon footprint analysis of rice production in China. Resour. Sci. 2017 , 39 , 713–722. (In Chinese) 31. European Chemical Industry Council; European Communities Trade Mark Association. Guidelines for Measuring and Managing CO 2 Emission from Freight Transport Operations ; Cefic: Brussels, Belgium, 2011. 32. Ji, J.Y.; Kong, J.J. A study on carbon emission prediction of marine transportation industry based on STIRFDT model. Sci. Technol. Manag. Res. 2012 , 32 , 79–81. (In Chinese) 33. Li, Q.; Tian, X.Y. Export and import effects of ASEAN “10+3”: A study based on a three-dimensional gravity model. Int. Trade Issues 2010 , 06 , 47–53. (In Chinese) 34. Lei, L.; Liu, J.L.; Yang, K.J. Study on the factors influencing China’s import and export trade and its development potential in the context of “One Belt, One Road”-Analysis based on the gravitational model including carbon productivity. Financ. Econ. 2018 , 02 , 55–60. (In Chinese) 35. Lu, J.; Shi, B.Z. How far inland China is from the sea: A study based on the difference of foreign trade scale among provinces. World Econ. 2014 , 37 , 32–55. (In Chinese) 36. Guo, C.Y. Overview of domestic and international waste paper market in 2016. Pap. Inf. 2017 , 10 , 71–80. (In Chinese) 37. Zhou, Y.; Li, D.; Wu, Z.L.; Zhou, C.J.; Zhen, L.F. Analysis of carbon emission during forest mining and transportation. For. Eng. 2014 , 30 , 1–5. (In Chinese) 38. Zhang, Z.X.; Zhou, X.N.; Zhao, C.; Chen, Y.F. Optimization of ecological mining and transportation operation mode of plantation in southern forest area. Scientia Silvae Sinicae 2008 , 05 , 128–134. (In Chinese)
Made with FlippingBook Online newsletter maker