ABSTRACT
A novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) caused a global pandemic that started in China (Wuhan, Hubei region) in December 2019, called Coronavirus disease. This systematic review intends to evaluate the correlation of pre-existing particulate matter (PM2.5) induced comorbidities along with COVID-19 spread and mortality. A search was operated to report the association between PM2.5 and COVID-19 outbreak and evaluating the PM2.5 related disease affected by COVID-19 infection. The research was conducted in consent with the criteria of PRISMA (Preferred Reporting Items for Systematic Reviews, and Meta-Analyses). We filtered the review and research articles published only in the English language and selected these keywords: air pollution, particulate matter, COVID-19, health impact. We obtained a total of 27 appropriate published articles in their final version. Additional articles were rectified by searching through Scopus, PubMed and Google Scholar. We concluded that the values of coagulation biomarkers in all SARS-CoV-2 patients were considerably higher as compared with healthy people. It was noted that Hypertension, Diabetes, COPD, CVD, Asthma and Cancer possess an evident relation with COVID-19 severity. Globally, air pollutants affect the body's immunity, leading to people being more susceptible to pathogens. In addition, transmission from person-to-person dynamic of the new respiratory virus was considered the environmental factors' role in accelerating coronavirus spread and its lethality. COVID-19 patients with pre-existing comorbidities induced by particulate matter show a high risk of mortality as compared to COVID-19 patients without these comorbidities. © 2022 Technoscience Publications. All rights reserved.
ABSTRACT
A novel coronavirus disease (Covid-19) epidemic identified in a capital of Hubei territory of China in the month of December 2019. Covid-19 was caused by severe acute respiratory syndrome coronavirus 2 (SARS-COV-2) and WHO announced it as pandemic. Health professionals were found at more risk due to frontline patronage during the pandemic. The only way to protect the health of frontliners is to appropriate utilization of PPEs. In this situation, there is always a concern about the shortage of PPEs;on the other hand, environmental consequence is the major issue because of its disposal. Plastic waste pyrolysis may play a major role to modify this waste. Pyrolysis is known as a tertiary recovery process which gives three recyclable end products: an oil, gas, and char. Generally, PPE waste has predominant hydrocarbon polymers which can be utilized as a fuel or feedstock by the synthetic enterprises. In this study, we have used pyrolysis method to transform 50gm PPE waste into hydrocarbons, which can be utilized either as powers or as feedstock in the petrochemical business. The maximum yield of fluid (35 %) was acquired at the reaction performed at 100 degrees C along with the cooling water at 17.59 degrees C. Maximum wax (11.02 %) was produced at 500 degrees C. The findings of this study indicate that non-biodegradable plastic waste may be transformed into useful products which may further be utilized in demanding segments. We have also tried to explore various potential applications of another product of this study i. e., oil.