RTO with Heat Recovery System Sizing

Regenerative Thermal Oxidizers (RTOs) are widely used in industrial processes to reduce air pollution and meet regulatory emissions requirements. RTOs are designed to destroy volatile organic compounds (VOCs) and hazardous air pollutants (HAPs) generated from various industrial processes. The RTO system operates by heating and treating exhaust air to a high temperature, which converts VOCs and HAPs into carbon dioxide and water vapor.

One of the essential components of an RTO system is the heat recovery system. The heat recovery system recovers energy from the hot exhaust gas leaving the RTO and reuses it to preheat the incoming process air. This results in significant energy savings and reduced operating costs for the industrial facility.

Factors Affecting RTO with Heat Recovery System Sizing

• Process Airflow Rate: The RTO system’s size is primarily determined by the process airflow rate, which is the volume of air generated by the industrial process that needs to be treated by the RTO system.
• VOC Concentration: The concentration of VOCs in the process air affects the size of the RTO system, as higher VOC concentrations require more energy to be treated effectively.
• Temperature: The inlet temperature of the process air and the target temperature of the treated air impact the RTO’s heat recovery system’s sizing.
• Pressure Drop: The pressure drop across the RTO system affects the system’s sizing and overall energy consumption.
• Heat Recovery Efficiency: The efficiency of the RTO heat recovery system affects the energy savings achieved by the system and impacts the sizing requirements.
• Regulatory Emissions Requirements: The regulatory emissions requirements impact the RTO system’s design and sizing.
• Operating Schedule: The operating schedule of the industrial process and the RTO system affects the sizing and energy consumption of the system.

Design Considerations for RTO with Heat Recovery System Sizing

The design of an RTO system with a heat recovery system requires careful consideration of the factors outlined above. The following design considerations should be taken into account:

Selection of Ceramic Heat Exchange Media

The selection of the ceramic heat exchange media is critical to the performance of the RTO system. The heat exchange media must provide efficient heat transfer, low pressure drop, and be resistant to fouling and corrosion. The most commonly used ceramic heat exchange media include saddles, rings, and honeycombs.

Optimization of Heat Recovery Efficiency

The heat recovery efficiency of the RTO system is critical to achieving significant energy savings. The system’s design should optimize heat transfer and minimize pressure drop to achieve optimal heat recovery efficiency.

Control of Airflow and Temperature

The airflow and temperature of the process air and treated air should be carefully controlled to achieve optimal RTO system performance. Proper control of airflow and temperature can reduce energy consumption and improve system efficiency.

Integration with Process Air Handling System

The RTO system must be integrated with the process air handling system to ensure proper airflow and temperature control and to minimize pressure drop. The design of the RTO system should consider the process air handling system’s layout and requirements.

Consideration of Future Expansion

The RTO system’s design should consider the industrial facility’s future expansion plans to ensure that the system can accommodate future growth and changes in process requirements.

RTO with Heat Recovery System Sizing Conclusion

The design of an RTO system with a heat recovery system requires careful consideration of several factors, including process airflow rate, VOC concentration, temperature, pressure drop, heat recovery efficiency, regulatory emissions requirements, and operating schedule. The design considerations outlined above should be taken into account to achieve optimal RTO system performance, energy savings, and compliance with regulatory emissions requirements.

Introducere companie

Our company is a leading provider of advanced technology solutions for volatile organic compounds (VOCs) waste gas treatment and carbon reduction in high-end equipment manufacturing. With a team of over 60 R&D technicians, including senior engineers and researchers, we have expertise in thermal energy, combustion, sealing, and automatic control. Our capabilities include simulating temperature fields and air flow modeling, testing the performance of ceramic thermal storage materials, selecting molecular sieve adsorption materials, and conducting experiments on high-temperature incineration and oxidation of VOCs organic matter. We have established state-of-the-art RTO technology research and development centers and exhaust gas carbon reduction engineering technology centers in Xi’an, as well as a large-scale production base in Yangling. Our production and sales volume of RTO equipment is unmatched globally.

Platforme de cercetare și dezvoltare

• Highly Efficient Combustion Control Technology Test Bench

  This test bench is dedicated to developing and optimizing combustion control technologies, ensuring efficient and environmentally friendly combustion of waste gas. Our technicians utilize advanced simulation and modeling techniques to achieve optimal combustion performance.

• Banc de testare a eficienței adsorbției prin sită moleculară

  The molecular sieve adsorption efficiency test bench enables us to evaluate and select the most effective adsorption materials for VOCs treatment. Through rigorous testing, we ensure the highest removal efficiency and long-term stability of our systems.

• Highly Efficient Ceramic Thermal Storage Technology Test Bench

  Our ceramic thermal storage technology test bench allows us to study and optimize the performance of thermal storage materials used in our systems. We aim to maximize heat recovery and energy efficiency.

• Ultra High-Temperature Waste Heat Recovery Test Bench

  This test bench focuses on developing innovative waste heat recovery technologies capable of capturing and utilizing ultra-high-temperature waste heat. Our solutions help industries improve energy utilization and reduce emissions.

• Tehnologia de etanșare a fluidelor gazoase Banc de testare

  At our gaseous fluid sealing technology test bench, we research and develop advanced sealing mechanisms for efficient containment of gases. Our solutions ensure minimal leakage and optimal system performance.

Our company holds numerous patents and has received recognition for its core technologies. We have filed 68 patents, including 21 invention patents, covering key components. Currently, we have been granted 4 invention patents, 41 utility model patents, 6 design patents, and 7 software copyrights.

Capacități de producție

• Automated Steel Plate and Profile Shot Blasting and Painting Production Line

  Our automated production line ensures efficient and high-quality surface treatment of steel plates and profiles. The shot blasting and painting process enhances the durability and corrosion resistance of our products.

• Linie de producție de sablare manuală

  In addition to automated production, we also have a manual shot blasting production line for specialized applications. This allows us to cater to unique customer requirements and ensure precision surface treatment.

• Dust Collection and Environmental Protection Equipment

  We manufacture a wide range of dust collection and environmental protection equipment to meet industry-specific needs. Our solutions effectively capture and filter airborne pollutants, ensuring clean and safe working environments.

• Automated Painting Booth

  Our automated painting booths utilize advanced technology for precise and uniform coating application. This guarantees high-quality finishes and extends the lifespan of our products.

• Camera de uscare

  The drying room is an integral part of our production process, ensuring thorough drying and curing of coatings and finishes. This results in superior product performance and durability.

We invite you to collaborate with us and benefit from our exceptional expertise and capabilities. Choose us for:

• Advanced VOCs waste gas treatment solutions
• Cutting-edge carbon reduction and energy-saving technology
• Innovative R&D platforms for continuous technological advancements
• A wealth of patented technologies and industry recognition
• State-of-the-art production facilities for high-quality equipment
• Optimized production processes ensuring efficiency and reliability

Autor: Miya