Medical wastewater originating from hospitals specializing in infectious diseases pose a major risk to human and environmental health during pandemics. However, there have been few systematic studies on the management of this type of wastewater management. The function of the Huoshenshan Hospital as a designated emergency field hospital for the treatment of COVID-19 has provided lessons for the management measures of medical wastewater, mainly including: (1) Modern information technology, management schemes, and related standard systems provided the legislative foundation for emergency management of medical wastewater. (2) The three-tier prevention and control medical wastewater management system ensured the discharged wastewater met water quality standards, especially for the leak-proof sealed collection system of the first tier, and the biological and chemical treatment technology of the second tier. (3) The establishment of an effective three-tier medical wastewater quality monitoring accountability system. This system was particularly relevant for ensuring continuous data monitoring and dynamic analysis of characteristic indicators. (4) Information disclosure by government and public supervision promoted successful implementation of medical wastewater management and control measures. Public questionnaires (n = 212) further confirmed the effectiveness of information disclosure. The results of this study can act as methodological reference for the emergency management of wastewater in designated infectious disease hospitals under similar situations.
After washing and curing, P is transported from the phosphogypsum to the leachate during the phosphogypsum detoxification process, providing two ideas for phosphorus recovery from phosphogypsum leachate: 1) preparation of calcium hydrogen phosphate for feed; 2) preparation of calcium phosphate. A ready-to-use calcium oxide slurry was used to recover P from phosphogypsum leachate at a slurry concentration of 20% and a quantitative link between calcium to phosphorus ratio and fixation rate was fitted by mixed use batch experiments, reaction kinetics and thermodynamics, and theoretical calculations were used to demonstrate that phosphorus cannot be completely reused in the preparation of calcium hydrogen phosphate. The findings demonstrated that: a) the residual phosphorus concentration was in the range of 1300 -1500 mg/L for the preparation of type I feed grade calcium hydrogen phosphate from phosphogypsum leachate; b) the P removal effect could reach 99.99% for the preparation of calcium phosphate from phosphogypsum using the theoretical equation: fixation rate = 87.91 − 10.96(Ca/P) + 3.22(Ca/P) 2 (R 2 = 0.9954); c) The procedure follows the suggested secondary kinetics, and according to the Freundlich isothermal model, the reaction process is under the control of the chemical reaction, with a reaction index of 0.7605. This study can be used as a theoretical guide for the recovery of P from phosphogypsum leachate, the preparation of products to bring about economic by-products, and the purification of wastewater for reuse.
Background: Medical wastewater from hospitals specializing in infectious diseases is a major health and environmental risk during pandemics. However, few systematic studies on medical wastewater management in hospitals of infectious diseases have been reported. As designated emergency field hospital for the treatment of COVID-19, the Huoshenshan Hospital achieved successful outcomes on emergency management measures of medical wastewater.Results: The lessons of medical wastwater based on Huoshenshan Hospital can be concluded following four aspects: (1) Emergency management system of medical wastewater based on the “Internet Plus” technology, and other related management schemes and standard systems provided legislative foundation for emergency management of medical wastewater. (2) The three-tier prevention and control system of medical wastewater ensured the discharged wastewater meets water quality standards. The system specifically included the individual seep and leak-proof sealed collection system at the first tier, as well as the enhanced disinfection and moving bed biofilm reactor wastewater biological and chemical treatment technology at the second tier. (3) The study established an effective three-tier accountability system in medical wastewater quality monitoring, data recording, storage, and reporting, as well as data review and filing, especially in continuous data monitoring and dynamic analysis of characteristic indicators. (4) Information disclosure by government and public supervision promoted successful implementation of medical wastewater management and control measures. Based on the results of 212 public questionnaires, we also confirmed that information of the case was open to public and internet users who actively participated. Conclusion: Our study will provide methodological reference for the emergency management of wastewater in designated infectious disease hospitals in similar situations.
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