References

  1. A. George, B. Shen, D. Kang, J. Yang, J. Luo, Emission control strategies of hazardous trace elements from coal-fired power plants in China, J. Environ. Sci. (China), 93 (2020) 66–90.
  2. S. Ma, F. Xu, D. Xu, D. Li, Y. Yu, Factors affecting slurry oxidation in a wet flue gas desulfurization process, J. Environ. Eng., 145 (2019) 04019058.
  3. J. Gao, Q. Li, F. Liu, Calcium sulfate whisker prepared by flue gas desulfurization gypsum: a physical–chemical coupling production process, Chin. J. Chem. Eng., 28 (2020) 2221–2226.
  4. J. Wang, T. Zhang, Y. Mei, B. Pan, Treatment of reverse-osmosis concentrate of printing and dyeing wastewater by electrooxidation process with controlled oxidation-reduction potential (ORP), Chemosphere, 201 (2018) 621–626.
  5. Y. Lv, C.E. Romero, J. Charles, K.A. Pauvlinch, R.W. Watkins, Developing steady and dynamic ORP models for mercury emissions control in power plants using WFGD operating data, Fuel, 235 (2019) 54–62.
  6. Y.-J. Chang, Y.-T. Chang, C.-H. Hung, J.-W. Lee, H.-M. Liao, H.-L. Chou, Microbial community analysis of anaerobic biocorrosion in different ORP profiles, Int. Biodeterior. Biodegrad., 95 (2014) 93–101.
  7. J. Claros, J. Serralta, A. Seco, J. Ferrer, D. Aguado, Real-time control strategy for nitrogen removal via nitrite in a SHARON reactor using pH and ORP sensors, Process Biochem., 47 (2012) 1510–1515.
  8. A. Kadić, P. Chylenski, M.A.T. Hansen, O. Bengtsson, V.G.H. Eijsink, G. Lidén, Oxidation-reduction potential (ORP) as a tool for process monitoring of H2O2/LPMO assisted enzymatic hydrolysis of cellulose, Process Biochem., 86 (2019) 89–97.
  9. W. Zeng, Y. Peng, S. Wang, Startup operation and process control of a two-stage sequencing batch reactor (TSSBR) for biological nitrogen removal via nitrite, Desal. Water Treat., 1 (2009) 318–325.
  10. L. Luccarini, D. Pulcini, D. Sottara, R. Di Cosmo, R. Canziani, Monitoring denitrification by means of pH and ORP in continuous-flow conventional activated sludge processes, Desal. Water Treat., 61 (2017) 319–325.
  11. S.R. Brown, R.F. Devault, D.B. Johnson, ORP as a predictor of WFGD chemistry and wastewater treatment, Power, 157 (2013) 40–42.
  12. C.-M. Cheng, Y. Cao, Z. Kai, W.-P. Pan, Co-effects of sulfur dioxide load and oxidation air on mercury re-emission in forced-oxidation limestone flue gas desulfurization wet scrubber, Fuel, 106 (2013) 505–511.
  13. P. Córdoba, R. Ochoa-Gonzalez, O. Font, M. Izquierdo, X. Querol, C. Leiva, M.A. López-Antón, M. Díaz-Somoano, M. Rosa Martinez-Tarazona, C. Fernandez, A. Tomás, Partitioning of trace inorganic elements in a coal-fired power plant equipped with a wet Flue Gas Desulphurisation system, Fuel, 92 (2012) 145–157.
  14. P. Córdoba, Status of Flue Gas Desulphurisation (FGD) systems from coal-fired power plants: overview of the physic-chemical control processes of wet limestone FGDs, Fuel, 144 (2015) 274–286.
  15. C.-J. Hsu, H.-J. Chiou, Y.-H. Chen, K.-S. Lin, M.J. Rood, H.-C. Hsi, Mercury adsorption and re-emission inhibition from actual WFGD wastewater using sulfur-containing activated carbon, Environ. Res., 168 (2019) 319–328.
  16. H.U.A.A. Hadad, Crystallization of calcium sulfate dihydrate in the presence of some metal ions, J. Cryst. Growth, 299 (2007) 146–151.
  17. L. Chang, J. Yang, Y. Zhao, H. Liu, J. Zhang, C. Zheng, Behavior and fate of As, Se, and Cd in an ultra-low emission coal-fired power plant, J. Cleaner Prod., 209 (2019) 722–730.
  18. H. Fu, J. Huang, L. Yin, J. Yu, W. Lou, G. Jiang, Retarding effect of impurities on the transformation kinetics of FGD gypsum to α-calcium sulfate hemihydrate under atmospheric and hydrothermal conditions, Fuel, 203 (2017) 445–451.
  19. B. Guan, Z. Shen, Z. Wu, L. Yang, X. Ma, Effect of pH on the preparation of a-calcium sulfate hemihydrate from FGD gypsum with the hydrothermal method, J. Am. Ceram. Soc., 91 (2010) 3835–3840.
  20. X. Gao, R.T. Guo, H.L. Ding, Z.Y. Luo, K.F. Cen, Dissolution rate of limestone for wet flue gas desulfurization in the presence of sulfite, J. Hazard. Mater., 168 (2009) 1059–1064.