China Good quality Rto/Regenerative Thermal Oxidizer

Basic Info.

Model NO.

Amazing RTO

Type

Incinerator

High Efficiency

100

Energy Saving

100

Low Maintenance

100

Easy Operation

100

Trademark

Bjamazing

Transport Package

Overseas

Specification

111

Origin

China

HS Code

2221111

Product Description

RTO

Chất oxy hóa nhiệt tái sinh

Compared with traditional catalytic combustion,; direct thermal oxidizer,; RTO has the merits of high heating efficiency,; low operation cost,; and the ability to treat large flux low concentration waste gas.; When VOCs concentration is high,; secondary heat recycle can be realized,; which will greatly reduce the operation cost.; Because RTO can preheat the waste gas by levels through ceramic heat accumulator,; which could make the waste gas to be completely heated and cracked with no dead corner(treatment efficiency>99%);,;which reduce the NOX in the Exhausting gas,; if the VOC density >1500mg/Nm3,; when the waste gas reach cracking area,; it has been heated up to cracking temperature by heat accumulator,; the burner will be closed under this condition.;

RTO can be devided into chamber type and rotary type according to difference operation mode.; Rotary type RTO has advantages in system pressure,; temperature stability,; investment amount,; etc

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Address: 8 floor, E1, Pinwei building, Dishengxi road, Yizhuang, ZheJiang , China

Business Type: Manufacturer/Factory, Trading Company

Business Range: Electrical & Electronics, Industrial Equipment & Components, Manufacturing & Processing Machinery, Metallurgy, Mineral & Energy

Management System Certification: ISO 9001, ISO 14001

Main Products: Rto, Color Coating Line, Galvanizing Line, Air Knife, Spares for Processing Line, Coater, Independent Equipments, Sink Roll, Revamping Project, Blower

Company Introduction: ZheJiang Amazing Science & Technology Co., Ltd is a thriving Hi-tech company, located in ZheJiang Economic and Technological Development Area(BDA). Adhering to the concept of Realistic, Innovative, Focused and Efficient, our company mainly serve the waste gas treatment (VOCs) Industry and metallurgical equipment of China and even whole world. We have advanced technology and rich experience in VOCs waste gas treatment project, the reference of which has been successfully applied to the industry of coating, rubber, electronic, printing, etc. We also have years of technology accumulation in the research and manufacturing of flat steel processing line, and possess nearly 100 of application example.

Our company focus on the research, design, manufacturing, installation and commissioning of VOCs organic waste gas treatment system and the revamping and updating project for energy saving and environmental protection of flat steel processing line. We can provide customers the complete solutions for environmental protection, energy saving, product quality improvement and other aspects.

We are also engaged in various spares and independent equipment for color coating line, galvanizing line, pickling line, like roller, coupler, heat exchanger, recuperator, air knife, blower, welder, tension leveler, skin pass, expansion joint, shear, jointer, stitcher, burner, radiant tube, gear motor, reducer, etc.

What is the role of heat recovery in a regenerative thermal oxidizer?

Heat recovery plays a crucial role in the operation of a regenerative thermal oxidizer (RTO) by improving its energy efficiency and reducing fuel consumption. The primary function of heat recovery in an RTO is to capture and transfer heat from the treated exhaust gases to the incoming untreated gases, minimizing the need for additional external heating.

Here’s a closer look at the role of heat recovery in an RTO:

• Energy Efficiency: RTOs are designed to achieve high thermal efficiency by utilizing the heat recovery principle. The heat recovery system consists of heat exchangers or beds filled with ceramic media, such as structured ceramic blocks or random ceramic saddles. These beds alternate between the exhaust gas flow and the incoming untreated gas flow.
• Heat Transfer Process: During operation, the hot exhaust gases from the industrial process flow through one bed of the heat exchanger, transferring heat to the ceramic media. The media absorbs the heat, and the temperature of the exhaust gases decreases. Simultaneously, the cooler incoming untreated gas flows through the other bed, where it absorbs the heat stored in the media, preheating the gas before it enters the combustion chamber.
• Bed Switching: The direction of gas flow through the beds is periodically switched using valves or dampers. This switching operation allows the RTO to alternate between different beds, ensuring continuous heat recovery and thermal oxidation of the pollutants. By efficiently recovering and reusing heat from the exhaust gases, the RTO reduces the amount of external fuel needed to maintain the required operating temperature.
• Reduction in Fuel Consumption: The heat recovery mechanism in an RTO significantly reduces the fuel consumption compared to other types of oxidizers. The preheating of the incoming untreated gas stream reduces the energy required to raise the temperature of the gas to the combustion temperature, resulting in lower fuel usage and operational costs.
• Economic and Environmental Benefits: Heat recovery in RTOs offers economic benefits by reducing energy costs and improving the overall sustainability of the facility. By minimizing fuel consumption, heat recovery contributes to a lower carbon footprint and helps meet environmental goals by reducing greenhouse gas emissions associated with the combustion process.

The effectiveness of heat recovery in an RTO depends on factors such as the design of the heat exchanger, the choice of ceramic media, the flow rates of the exhaust gases and incoming untreated gas, and the temperature differential between the two streams. Proper sizing and optimization of the heat recovery system are essential to ensure efficient heat transfer and maximize energy savings.

Overall, heat recovery is a key component in the design of an RTO, allowing for improved energy efficiency, reduced fuel consumption, and environmental sustainability.

Can regenerative thermal oxidizers be used for treating emissions from paint booths?

Yes, regenerative thermal oxidizers (RTOs) can be effectively used for treating emissions from paint booths. Paint booths generate volatile organic compounds (VOCs) and hazardous air pollutants (HAPs) during the painting process, which need to be controlled to comply with environmental regulations and ensure air quality. Here are some key points regarding the use of RTOs for treating emissions from paint booths:

• Emission Control: RTOs are designed to achieve high destruction efficiencies for VOCs and HAPs. These pollutants are oxidized within the RTO at high temperatures, typically above 95% efficiency, converting them into carbon dioxide (CO₂) and water vapor. This ensures effective control and reduction of emissions from the paint booth.
• Paint Booth Compatibility: RTOs can be integrated into the exhaust system of paint booths, capturing and treating the emissions before they are released into the atmosphere. The RTO is typically connected to the exhaust stack of the paint booth, allowing the VOC-laden air to pass through the oxidizer for treatment.
• Thermal Capacity: Paint booth emissions can vary in terms of flow rate, temperature, and concentration of VOCs. RTOs are designed to handle a wide range of operating conditions and can accommodate high flow rates and elevated temperatures. The system’s thermal capacity ensures effective treatment of emissions from paint booths, even during peak production periods.
• Heat Recovery: RTOs incorporate heat exchange systems that allow for the recovery and reuse of thermal energy. The heat exchangers within the RTO capture the heat from the outgoing exhaust gases and transfer it to the incoming process air or gas stream. This heat recovery process improves the overall energy efficiency of the system and reduces the need for additional fuel consumption.
• Compliance with Regulations: Paint booth emissions are subject to regulatory requirements for air quality and emissions control. RTOs are capable of achieving the necessary destruction efficiencies and can help paint booth operators comply with environmental regulations. The use of RTOs demonstrates a commitment to sustainable practices and responsible management of air emissions.

It is important to note that the specific design and configuration of the RTO, as well as the characteristics of the paint booth emissions, should be considered when implementing an RTO for a paint booth application. Consulting with experienced engineers or RTO manufacturers can provide valuable insights into the proper sizing, integration, and performance requirements for treating emissions from paint booths.

In summary, RTOs are a suitable and effective technology for treating emissions from paint booths, providing high destruction efficiencies, compatibility with paint booth exhaust systems, thermal capacity for varying operating conditions, heat recovery, and compliance with environmental regulations.

Can regenerative thermal oxidizers reduce odor emissions?

Regenerative thermal oxidizers (RTOs) are effective in reducing odor emissions from industrial processes. While their primary purpose is to control and destroy volatile organic compounds (VOCs) and hazardous air pollutants (HAPs), they can also effectively mitigate odorous compounds.

Here’s how RTOs contribute to odor reduction:

• Oxidation of Odorous Compounds: RTOs operate at high temperatures, typically ranging from 1,400 to 1,800 degrees Fahrenheit (760 to 980 degrees Celsius). These elevated temperatures facilitate the complete oxidation of odorous compounds, breaking them down into harmless byproducts, such as carbon dioxide and water vapor. The thermal oxidation process ensures the destruction of odor-causing molecules.
• High Destruction Efficiency: RTOs are designed to achieve high destruction efficiencies, often exceeding 99%. This means that the vast majority of odorous compounds are effectively eliminated during the combustion process, resulting in a significant reduction in odor emissions.
• Retention Time: RTOs provide a sufficiently long retention time for the exhaust gases within the combustion chamber. This allows for thorough mixing and residence time necessary for the complete oxidation of odorous compounds. The extended contact time ensures that the odorous molecules have sufficient exposure to the high temperatures, resulting in their destruction.
• Control of VOCs: Many odorous compounds are also VOCs. By effectively controlling and destroying VOC emissions, RTOs indirectly reduce odor emissions as well. The comprehensive destruction of VOCs prevents their release into the atmosphere, thereby minimizing the associated odors.
• Monitoring and Optimization: Proper monitoring and optimization of RTO operation can further enhance odor reduction. By continuously monitoring the process parameters, such as temperature, airflow, and pollutant concentrations, adjustments can be made to optimize the performance of the RTO and ensure effective odor control.

It’s important to note that while RTOs are effective in reducing odor emissions, the specific odor compounds and their concentrations in the exhaust stream can influence the overall odor control efficiency. Additionally, proper design, operation, and maintenance of the RTO are crucial for achieving optimal odor reduction.

editor by CX 2024-03-27