Campbell Steven 
“Healthcare facilities produce many different types of medical waste ranging from infectious to sharps and pharmaceuticals to pathological.” And a medical waste incinerator is specially engineered to handle these by products through high heat combustion, which can get rid of all pathogens while reducing mass. Incineration is an essential component of protecting human health and the environment by preventing toxic waste from becoming hazardous pollution.
High temperature combustion for pathogen destruction
The main role of a medical waste incinerator is to subject the waste to high temperatures, usually ranging from 800°C to 1200°C, in which microorganisms such as bacteria viruses etc are most annihilated. The controlled incineration of waste with recovery or recycling and final disposal without recovery assures that the most possible to reduce the potential environmental effect. That level of treatment is necessary for the hospitals, labs, clinics and diagnostic centers that work with biohazardous materials.
Controlled feeding and combustion chambers
Measuring health care waste treatment capacity There is no information in the literature about measuring installed capacity of HWI, HWM and pressurized autoclaves. The rapid assessment presented per region refers to fire chambers, based on its capacity to treat pathological wastes: 15 kg/h. This system uses the same feeding method (20 kg) for S=1 Slide Share and has been reinforced with an engineered feeding system (50-100kg). This regulation is to guarantee stable burning and no unburned. Many of the systems also have a primary and secondary chamber, with gases formed during combustion in the first oxidized more thoroughly. The secondary chamber takes care that toxic emissions and unfinished gases are treated well before discharging.
Mobile incinerators in adjustable waste handling
A mobile incinerator provides a useful solution for isolated areas, emergencies and temporary health care centers. These units also provide onsite treatment, therefore minimizing the dangers of shipping contaminated waste long distances. Mobile incinerator can provide the same safe and effective treatment as a fixed installation, but with the ability to deploy at short notice to contain an outbreak or disaster.
Advanced emission control and environmental protection.
Recent medical waste incinerators use air pollution control systems for overall process control and reduction of emissions. Such systems can involve scrubbers, filters and temperature controls to decrease the level of particulates, acidic gases and toxic compounds. Ongoing monitoring of combustion processes is also employed to maintain compliance with emissions regulations and to prevent operation from occurring outside safety limits that could lead to pollution.
Execution of volume reduction and residues disposal concept
When burn the medical waste, there are about 90% reduced its weight and volume. The remaining ash is nonreactive and more manageable, storable, or transportable to permitted landfills. Effective ash management systems reduce secondary pollution and guarantee no health hazards from pollutants to human or animal bodies.
Operational safety and regulatory compliance
Medical waste incinerators are equipped with safety interlocks, automatic control and monitoring systems for operator protection. Training, procedures operating in the standard manner and maintenance all help to ensure safety and efficiency. Adherence of medical waste management to governmental and environmental regulations provides safety from legal as well as ethical aspect.
Conclusion:
Safe Medical Incineration A medical waste incinerator is designed to burn regulated medical waste, reducing its volume and rendering it harmless. Mobile incinerators bring these advantages to the field and remote environments. Together, these systems help to protect the public health to preserve our environment and maintain responsible medical waste disposal services.
