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Zhong, Z., Sha, Q., Zheng, J., Yuan, Z., Gao, Z., & Ou, J., et al. (2017). Sector-based vocs emission factors and source profiles for the surface coating industry in the pearl river delta region of china. Science of the Total Environment, 583, 19-28.Search in Google Scholar
Wang, Q., Li, S., Dong, M., Li, W., Gao, X., & Ye, R., et al. (2018). Vocs emission characteristics and priority control analysis based on vocs emission inventories and ozone formation potentials in zhoushan. Atmospheric Environment, 182(JUN.), 234-241.Search in Google Scholar
Tong, W., Hong-Bing, Y. U., Yan-Fang, Z., Qian, W., Xi, Z., & De-Xing, D., et al. (2019). Characteristics of emission and reactivity of vocs emitted from steel structure manufacturing industry in tangshan. Environmental Engineering.Search in Google Scholar
Ming, W., Wei, Q., Wentai, C., Lin, Z., & Xin, X. (2019). Seasonal variability of vocs in nanjing, yangtze river delta: implications for emission sources and photochemistry. Atmospheric Environment, 223, 117254.Search in Google Scholar
Ye, H., Du, Z., Lu, H., Tian, J., Chen, L., & Lin, W. (2022). Using machine learning methods to predict voc emissions in chemical production with hourly process parameters. Journal of cleaner production.Search in Google Scholar
Qinqin, L. I., Daocheng, G., Aihua, W. U., Boguang, W., & Shengji, L. (2018). Emission characteristics of vocs from commercial cooking fumes:a review. Environmental Science & Technology.Search in Google Scholar
Kasmi, A. E., Pan, G. F., Wu, L. N., & Tian, Z. Y. (2019). An ef?cient and innovative catalytic reactor for vocs emission control. Science Bulletin, 64(09), 67-75.Search in Google Scholar
Hua, H., Jiang, S., She, H., Zhang, Y., Liu, X., & Zhang, L., et al. (2019). A high spatial-temporal resolution emission inventory of multi-type air pollutants for wuxi city. Journal of Cleaner Production, 229(AUG.20), 278-288.Search in Google Scholar
Cao, H., Zhao, H., Zhang, D., Liu, C., Lin, X., & Li, Y., et al. (2019). Whole-process pollution control for cost-effective and cleaner chemical production—a case study of the tungsten industry in china. Engineering.Search in Google Scholar
Li, K., Li, J., Wang, W., Tong, S., Liggio, J., & Ge, M. (2017). Evaluating the effectiveness of joint emission control policies on the reduction of ambient vocs: implications from observation during the 2014 apec summit in suburban beijing. Atmospheric Environment, 164, 117-127.Search in Google Scholar
Wei, W., Lv, Z. F., Li, Y., Wang, L. T., Cheng, S., & Liu, H. (2018). A wrf-chem model study of the impact of vocs emission of a huge petro-chemical industrial zone on the summertime ozone in beijing, china. Atmospheric Environment, 175, 44-53.Search in Google Scholar
Simayi, M., Shi, Y., Xi, Z., Ren, J., Hini, G., & Xie, S. (2022). Emission trends of industrial vocs in china since the clean air action and future reduction perspectives. The Science of the total environment, 826, 153994.Search in Google Scholar
Liu, Z., Yan, Y., Lv, T., Huang, Z., Liu, T., & Huang, Q., et al. (2022). Comprehensive understanding the emission characteristics and kinetics of vocs from automotive waste paint sludge in a environmental test chamber. Journal of hazardous materials, 429, 128387.Search in Google Scholar
Gang-Gang, Z., Kuan, L., Jin-Wei, S., Yong-Lai, L. U., Dong-Yun, R., & Li-Qun, Z. (2019). Recent advance in reducing vocs emission in rubber products manufacturing industry. Polymer Bulletin.Search in Google Scholar
Zhang, X., Zhao, W., Nie, L., Shao, X., & Wang, D. (2020). A new classification approach to enhance future vocs emission policies: taking solvent-consuming industry as an example. Environmental Pollution, 115868.Search in Google Scholar
Han, S., Zhao, Q., Zhang, R., Liu, Y., Li, C., & Zhang, Y., et al. (2020). Emission characteristic and environmental impact of process-based vocs from prebaked anode manufacturing industry in zhengzhou, china. Atmospheric Pollution Research, 11( 1), 67-77.Search in Google Scholar
