Application of Sterilization Process for Inactivation of Bacillus Stearothermophilus in Biomedical Waste and Associated Greenhouse Gas Emissions

Abstract: This study investigated the biomedical waste collection, transportation, and treatment activities in the city of Kocaeli, Turkey. As an alternative to incineration technology, a steam autoclave was used to sterilize the biomedical waste. Information regarding the collection, transportation, treatment and associated greenhouse gas emissions (GHG) were also investigated. Prior to sterilization, biological indicator vials containing Bacillus stearothermophilus were placed in the center of the load to ensure that … Show more

“…Biomedical waste can be efficiently sterilized through direct contact with steam at 150 °C and 5 bar pressure for 45 min, which reduces greenhouse gas emissions. The treatment process involves collecting and transporting the waste, sterilizing it, reducing its size, and its landfilling [96]. Sterilized BMWs are considered nonhazardous and can be landfilled in cells designed for MSW [97].…”

COVID‐19: Medical Waste Management, Impact on Sustainable Development Goals, and Bibliometric Analysis

“…Biomedical waste can be efficiently sterilized through direct contact with steam at 150 °C and 5 bar pressure for 45 min, which reduces greenhouse gas emissions. The treatment process involves collecting and transporting the waste, sterilizing it, reducing its size, and its landfilling [96]. Sterilized BMWs are considered nonhazardous and can be landfilled in cells designed for MSW [97].…”

COVID‐19: Medical Waste Management, Impact on Sustainable Development Goals, and Bibliometric Analysis

Various Technologies in Healthcare Waste Management and Disposal

Assessing the Carbon Foot Print of an Ayurveda Medical Institute: A Case of National Institute of Ayurveda, Jaipur, India