WangJShenJYeDYanXZhangYYangWLiXWangJZhangLPanL.Disinfection technology of hospital wastes and wastewater: suggestions for disinfection strategy during coronavirus Disease 2019 (COVID-19) pandemic in China. Environ Pollut2020;
262: 114665.
MaYLinXWuAHuangQLiXYanJ.Suggested guidelines for emergency treatment of medical waste during COVID-19: Chinese experience. Waste Dispos Sustain Energy2020;
2: 81–84.
4.
World Health Organization. Infection prevention and control during health care when COVID-19 is suspected: interim guidance.
Geneva:
World Health Organization, 2020.
5.
HuangLLinGTangLYuLZhouZ.Special attention to nurses' protection during the COVID-19 epidemic. BioMed Central. 2020;
24: 120
6.
NzediegwuCChangSX.Improper solid waste management increases potential for COVID-19 spread in developing countries. Resour Conserv Recycl2020;
161: 104947.
7.
RheeS-W.Management of used personal protective equipment and wastes related to COVID-19 in South Korea. Waste Manag Res2020;
38: 820–824.
8.
Al-KhatibIAKhalafA-SAl-SariMIAnayahF.Medical waste management at three hospitals in Jenin district, Palestine. Environ Monit Assess2020;
192: 10.
9.
JiriJKFanYVTanRRJiangP.Minimising the present and future plastic waste, energy and environmental footprints related to COVID-19. Renewable Sustainable Energy Rev2020;
127: 109883.
10.
MorawskaLCaoJ.Airborne transmission of SARS-CoV-2: the world should face the reality. Environ Int2020;
139: 105730.
11.
HendryxMLuoJ.COVID-19 prevalence and fatality rates in association with air pollution emission concentrations and emission sources. Environ Pollut2020;
265(Part A): 115126.
12.
DubuisM-EDumont-LeblondNLaliberteCVeilletteMTurgeonNJeanJDuchaineC.Ozone efficacy for the control of airborne viruses: bacteriophage and norovirus models. Plos One2020;
15: e0231164.
13.
LinFWangZZhangZHeYZhuYShaoJYuanDChenGCenK.Flue gas treatment with ozone oxidation: an overview on NOx, organic pollutants, and mercury. Chem Eng J2020;
382: 123030.
