Working principle and efficient heat recovery: The RTO regenerative incineration system treats harmful substances in waste gas by high-temperature oxidation decomposition. The waste gas first enters the preheating area, where it is preheated by the heat stored in the heat storage body, and then enters the incineration chamber for high-temperature oxidation reaction, so that the organic components in the waste gas are converted into non-toxic carbon dioxide and water.
When the high-temperature waste gas after incineration flows through the ceramic heat storage body, a large amount of heat energy is absorbed and stored by the heat storage body, which is used to preheat the waste gas that enters later, so as to realize the recycling of heat. This efficient heat recovery mechanism significantly improves the energy utilization efficiency of the system.
Advanced waste gas treatment technology: The RTO system is usually equipped with advanced waste gas pretreatment facilities, such as dust removal, desulfurization, denitrification, etc., to reduce the impurity concentration in the waste gas and reduce the burden of subsequent treatment. The high-temperature oxidation reaction of the waste gas in the incineration chamber can completely decompose harmful substances such as VOCs and achieve efficient purification.
The exhaust gas before discharge needs to be further purified, such as filtration, adsorption, catalytic oxidation, etc., to ensure that it meets environmental standards.
Optimized system design and operation: The design of the RTO system fully considers the source, composition, concentration change and gas volume of the exhaust gas to ensure that the system can adapt to different exhaust gas treatment needs. The system adopts a multi-chamber structure (such as a three-chamber RTO) to achieve continuous and stable exhaust gas treatment by automatically switching valves.
Before the exhaust gas enters the RTO, a buffer tank can be set to increase the residence time of the exhaust gas, so as to better mix the gas concentration, and supplement the air volume as needed to avoid high-concentration or large-volume exhaust gas directly entering the RTO.
The status of key operating parameters such as fans, valves, burners, etc. is monitored in real time and interlocked to ensure the stable operation of the system.
Efficient thermal energy utilization and energy saving and consumption reduction: The heat recovery efficiency of the RTO system can reach more than 90%, which significantly reduces energy consumption. By optimizing combustion conditions and extending combustion time, the combustion efficiency is improved, and energy consumption and nitrogen oxide emissions are further reduced.
Strict emission monitoring and compliance: The RTO system is equipped with online monitoring equipment to monitor various pollutant indicators in the exhaust gas in real time to ensure that the emission data meets environmental standards. The system is regularly maintained and inspected, including cleaning the heat storage body, checking the valve sealing, calibrating the monitoring equipment, etc., to ensure the stable operation of the system and the emission meets the standards.
The RTO regenerative incineration system ensures the system's efficient exhaust gas treatment capabilities through its unique working principle, advanced exhaust gas treatment technology, optimized system design and operation, efficient heat energy utilization and energy saving, and strict emission monitoring and compliance.
