在清华大学环境学院40周年院庆之际,我们整理了学院师生在Journal of Industrial Ecology (JIE)发表的论文名录,包含了来自水所、大气所、固体所、生态所、系统所和政策所的40篇文章。这些成果见证了清华环境学院师生对产业生态学领域的系统研究、对环境保护与可持续发展的重要贡献。衷心感谢JIE编委会委员钱易院士对期刊和领域发展的长期关心,以及学院师生对JIE的持续支持。在此,向清华大学环境学院的所有成员致以诚挚的祝福!
四秩创新,环境学术集华章;百年赓续,清华精神绘绿图!
[1]Liu, Y., Mol, A. P., & Chen, J. (2004). Material flow and ecological restructuring in China: the case of phosphorus. Journal of Industrial Ecology, 8(3), 103-120.
[2]Yuan, Z., Bi, J., & Moriguichi, Y. (2006). The circular economy: a new development strategy in China. Journal of Industrial Ecology, 10(1‐2), 4-8.
[3]Xu, M., & Zhang, T. (2007). Material flows and economic growth in developing China. Journal of Industrial Ecology, 11(1), 121-140.
[4]Liu, Y., Villalba, G., Ayres, R. U., & Schroder, H. (2008). Global phosphorus flows and environmental impacts from a consumption perspective. Journal of Industrial Ecology, 12(2), 229-247.
[5]Villalba, G., Liu, Y., Schroder, H., & Ayres, R. U. (2008). Global phosphorus flows in the industrial economy from a production perspective. Journal of Industrial Ecology, 12(4), 557-569.
[6]Wen, Z., & Li, R. (2010). Materials metabolism analysis of China's highway traffic system (HTS) for promoting circular economy. Journal of Industrial Ecology, 14(4), 641-649.
[7]Liang, S., & Zhang, T. (2011). Urban metabolism in China achieving dematerialization and decarbonization in Suzhou. Journal of Industrial Ecology, 15(3), 420-434.
[8]Liang, S., Shi, L., & Zhang, T. (2011). Achieving dewaterization in industrial parks: a case study of the Yixing Economic Development Zone. Journal of Industrial Ecology, 15(4), 597-613.
[9]Liang, S., & Zhang, T. (2011). Data acquisition for applying physical input-output tables in Chinese cities: the case of Suzhou. Journal of Industrial Ecology, 15(6), 825-835.
[10]Shi, H., Tian, J., & Chen, L. (2012). China's quest for eco-industrial parks, Part I: History and distinctiveness. Journal of Industrial Ecology, 16(1), 8-10.
[11]Shi, H., Tian, J., & Chen, L. (2012). China's quest for eco-industrial parks, Part II: Reflections on a decade of exploration. Journal of Industrial Ecology, 16(3),290-292.
[12]Ma, S., Wen, Z., & Chen, J. (2012). Scenario analysis of sulfur dioxide emissions reduction potential in China's iron and steel industry. Journal of Industrial Ecology, 16(4), 506-517.
[13]Tian, X., Chang, M., Tanikawa, H., Shi, F., & Imura, H. (2012). Regional disparity in carbon dioxide emissions: Assessing sectoral impacts on the carbon dioxide emissions structure among regions of mainland of China. Journal of Industrial Ecology, 16(4), 612-622.
[14]Liang, S., & Zhang, T. (2013). Investigating reasons for differences in the results of environmental, physical, and hybrid input-output models. Journal of Industrial Ecology, 17(3), 432-439.
[15]Gan, Y., Zhang, T., Liang, S., Zhao, Z., & Li, N. (2013). How to deal with resource productivity: Relationships between socioeconomic factors and resource productivity. Journal of Industrial Ecology, 17(3), 440-451.
[16]Tan, Q., Zeng, X., Ijomah, W. L., Zheng, L., & Li, J. (2014). Status of end-of-life electronic product remanufacturing in China. Journal of Industrial Ecology, 18(4), 577-587.
[17]Li, Y., & Shi, L. (2015). The resilience of interdependent industrial symbiosis networks: a case of Yixing Economic and Technological Development Zone. Journal of Industrial Ecology, 19(2), 264-273.
[18]Liu, W., Tian, J., Chen, L., Lu, W., & Gao, Y. (2015). Environmental performance analysis of eco-industrial parks in China: a data envelopment analysis approach. Journal of Industrial Ecology, 19(6), 1070-1081.
[19]Wen, Z., Zhang, C., Ji, X., & Xue, Y. (2015). Urban mining's potential to relieve China's coming resource crisis. Journal of Industrial Ecology, 19(6), 1091-1102.
[20]Smith, K., Liu, S., & Chang, T. (2016). Contribution of urban water supply to greenhouse gas emissions in China. Journal of Industrial Ecology, 20(4), 792-802.
[21]Shi, L. (2017). Industrial ecology education at Tsinghua University. Journal of Industrial Ecology, 21(2), 423-429.
[22]Xue, Y., Wen, Z., Ji, X., Bressers, H. T. A., & Zhang, C. (2017). Location optimization of urban mining facilities with maximal covering model in GIS: a case of China. Journal of Industrial Ecology, 21(4), 913-923.
[23]Lee, J. C., & Wen, Z. (2017). Rare earths from mines to metals: Comparing environmental impacts from China's main production pathways. Journal of Industrial Ecology, 21(5), 1277-1290.
[24]Guo, Y., Tian, J., Chertow, M., & Chen, L. (2018). Exploring greenhouse gas - mitigation strategies in Chinese eco-industrial parks by targeting energy infrastructure stocks. Journal of Industrial Ecology, 22(1), 106-120.
[25]Cao, X., Wen, Z., Tian, H., De Clercq, D., & Qu, L. (2018). Transforming the cement industry into a key environmental infrastructure for urban ecosystem: a case study of an industrial city in China. Journal of Industrial Ecology, 22(4), 881-893.
[26]Ren, Y., Liu, X., Liu, L., & Shi, L. (2018). Measuring the resource productivity of crude oil: a chemical network and its application. Journal of Industrial Ecology, 22(6), 1331-1338.
[27]Zhu, J., Fan, C., Shi, H., & Shi, L. (2019). Efforts for a circular economy in China: a comprehensive review of policies. Journal of Industrial Ecology, 23(1), 110-118.
[28]Hu, W., Tian, J., Li, X., & Chen, L. (2020). Wastewater treatment system optimization with an industrial symbiosis model: a case study of a Chinese eco-industrial park. Journal of Industrial Ecology, 24(6), 1338-1351.
[29]Zhang, Q., Kennedy, C., Wang, T., Wei, W., Li, J., & Shi, L. (2020). Transforming the coal and steel nexus for China's eco-civilization: Interplay between rail and energy infrastructure. Journal of Industrial Ecology, 24(6), 1352-1363.
[30]Wang, C., Liu, Y., Chen, W. Q., Zhu, B., Qu, S., & Xu, M. (2021). Critical review of global plastics stock and flow data. Journal of Industrial Ecology, 25(5), 1300-1317.
[31]Lyu, Y., Gao, Y., Ye, H., Liu, Y., Han, S., Tian, J., & Chen, L. (2021). Quantifying the life cycle environmental impacts of water pollution control in a typical chemical industrial park in China. Journal of Industrial Ecology, 25(6), 1673-1687.
[32]Yang, Z., Du, J., Lin, Y., Du, Z., Xia, L., Zhao, Q., & Guan, X. (2022). Increasing the energy efficiency of a data center based on machine learning. Journal of Industrial Ecology, 26(1), 323-335.
[33]Gao, Z., Geng, Y., Zeng, X., Tian, X., Yao, T., Song, X., & Su, C. (2022). Evolution of the anthropogenic chromium cycle in China. Journal of Industrial Ecology, 26(2), 592-608.
[34]Negesa, D., Cong, W., Cheng, L., & Shi, L. (2022). Development of eco-industrial parks in Ethiopia: the case of Hawassa Industrial Park. Journal of Industrial Ecology, 26(3), 1078-1093.
[35]Zhong, Q., Li, H., Liang, S., Jetashree, Wu, X., Qi, J., & Wang, S. (2022). Changes of production and consumption structures in coastal regions lead to mercury emission control in China. Journal of Industrial Ecology, 26(5), 1760-1770.
[36]Vázquez-Rowe, I., Parker, R., Hamilton, H., & Liu, H. (2022). Industrial ecology for the oceans. Journal of Industrial Ecology, 26(6), 1842-1846.
[37]Lyu, Y., Yan, K., Tian, J., & Chen, L. (2023). High cost of waste treatment calls for systematic rethinking: a case study for a chemical industrial park in China. Journal of Industrial Ecology, 27(1), 362-375.
[38]Wang, C., Jiang, H., Wu, H., Liu, Y., Guo, S., & Xu, M. (2023). Scaling in urban building energy use and its influencing factors. Journal of Industrial Ecology, 27(4), 1076-1088.
[39]Kan, M., Wang, C., Zhu, B., Chen, W. Q., Liu, Y., Ren, Y., & Xu, M. (2023). Seven decades of plastic flows and stocks in the United States and pathways toward zero plastic pollution by 2050. Journal of Industrial Ecology, 27(6), 1538-1552.
[40]Chen, C., & Wen, Z. (2024). The dynamic characteristics of multi-media carbon pollution and their spatial influencing factors: a case study of the Greater Bay Area of China. Journal of Industrial Ecology, 28(1), 130-143.
注:以上名录按照论文发表时的署名单位整理,如有疏漏,请予指正。
编辑:李霄 杨润林
审核:刘刚 朱俊明
