China Professional High Efficiency Regenerative Thermal Oxidizer – Rto for Exhausting Vocs

Basic Info.

Model NO.

RTO

유형

Environmental Monitoring Instrument

Brand

Raidsant

Condition

New

Clean Efficeincy

99.8%

Application

Chemical Industry

Main Function

Waste Gases Removal

Trademark

Raidsant

Transport Package

Film Wrapped

Origin

ZheJiang China

Product Description

HangZhou Raidsant Machinery Co.;,; Ltd.; is majored in developing and manufacturing innovativepowder cooling pelletizing machinery and related industrial waste gas treatment machine.; With nearly 20 years’ production history,; we have a good market in more than 20 provinces in China,; and some of our products were exported to Saudi Arabia,;Singapore,;Mexico,; Brazil,;Spain,; America,; Russia and Korea,; etc.;

Specifications:;

* More compact than the existing facilities 
* Low-operation costs 
* Long lifespan of facilities 
* No changes in pressure

Purpose:;

Energy-saving system that burns volatile organic compound (VOC); and waste gas by using heat,; and it collects over 99.;8% of waste heat of exhaust gas by using ceramic regenerative materials (catalyst); with large surface area and low-pressure loss.;

Applications:;

1.; Painting drying process
2.; metal printing process
3.; fiber drying process
4.; adhesive tape process
5.; waste treatment process
6.; semiconductor manufacturing process
7.; smoke,; confectionary and baking process
8.; petrochemical process,; 
9.; medicine and food manufacturing process,; 
10.; other VOC generating process

Merits:;

 *   More compact than the existing facilities
 *   No changes in pressure
 *   High-heat recovery rate (over 95%);
 *   Perfect VOC treatment (over 99.;8%);
  *  Long lifespan of facilities
  *  Low-operation costs
  *  Able to be manufactured in circle or quadrangle

General Descriptions and Features:; 

1.; Operating principle
 Operation method that continuously changing discharges by rotating the Rotary Valve

2.; Process Pressure Change
  No pressure change because wind direction changes in order by the Rotary Valve rotation

3.; Investment Costs
 Around 70% of Bed Type

4.; Installation Space
 It is single vessel so it is compact and requires less installation space.;

5.; Maintenance
 It is easy to maintain it because Rotary Valve is the only 1 moving part.;
 Rotary Valve’s sealing part is rarely worn out because it rotates at low speed.;

6.; Stability
No risks in the process because it is always opened even when the Rotary Valve has troubles.;

7.; Treatment Efficiency
 Treatment efficiency maintains because sealing part is rarely worn out even if it is operated for a long time.;

Address: No.3,Zhenxin Middle Road, Economic Development Zone,HangZhou,ZheJiang

Business Type: Manufacturer/Factory, Trading Company

Business Range: Chemicals, Electrical & Electronics, Manufacturing & Processing Machinery, Security & Protection

Management System Certification: ISO 9001

Main Products: Pelletizer, Flaker, Pastillator, Granulator, Chemical Pelletizer, Vocs

Company Introduction: HangZhou Raidsant Machinery Co., Ltd. ., previously called HangZhou Xinte Plastic Machinery Factory is majored in producing innovative plastic recycling machinery. With nearly 20 years′ experience, we have a good market in 20 provinces in China, and some of our products were exported to Indonesia, Russia and Vietnam, etc. Our main products include DZ Type Pastillator, waste tire recycling line, Big Calibre Plastic Pipe shredders recycling line, continuous annealing tin-coation machine, QX type PET, PE & hull washing line, SDP double rails plastic recycling crusher, SJ hot cutting granule making unit, PVC tube (cinquefoil) product line, PVC Odd-shaped material product line for door and window, granule product line in water and Shredder for plastics and recycling. We acquired 5 technical patents.

Our corpotation lays emphsis on thchnical reconstruction, imports advanced technology from home and abroad, and develops new products constantly. Our tenet is challenging for hight quality, offering the best products. We are making efforts to realize our slogan. Satisfying our customers is our everlasting pursuit.

We are looking for the oversea customers or agents. If you are interested in our proposal, please let us know which of our products is the most likely to appeal to you or your customers. We should be very grateful if you give us some ideas of the marketprospects for our products. We hope to hear favorable information from you soon! It is our goal that we wish we could buid a good relationship with you now or in the near future. Please do not hesitate to contact us if you have any question or request.

We also sincerely welcome you to our company to discuss business and negotiate with us. For further expanding our market and customers, our company welcomes customer from domestic and aboard in an new-brand gesture on the basis of full-new mangement conception—quality, honour, service. We are looking for ISO 90001 mangement quality system to meet with our customers requirement!

Are regenerative thermal oxidizers suitable for controlling particulate matter emissions?

Regenerative thermal oxidizers (RTOs) are primarily designed for the destruction of volatile organic compounds (VOCs) and hazardous air pollutants (HAPs). While RTOs are highly effective in treating gaseous pollutants, they are not specifically designed for controlling particulate matter emissions.

Here are some key points to consider regarding the suitability of RTOs for controlling particulate matter emissions:

• Particulate Matter (PM) Removal Mechanism: RTOs primarily operate based on the thermal oxidation of pollutants. They rely on high temperatures to break down and destroy gaseous pollutants, but they do not have a dedicated mechanism for capturing and removing particulate matter. The design of RTOs does not incorporate features such as filters or electrostatic precipitators that are commonly used for effective particulate matter control.
• Limited Particulate Matter Destruction: While RTOs can provide some incidental removal of fine particulate matter through mechanisms like thermal decomposition and agglomeration, the removal efficiency for particulate matter is generally low compared to dedicated particulate control devices. The focus of RTOs is primarily on the destruction of gaseous pollutants rather than the capture and removal of particulates.
• Supplementary Particulate Control: In certain cases, supplementary particulate control devices may be integrated with RTOs to address particulate matter emissions. These devices, such as bag filters or electrostatic precipitators, can be installed downstream of the RTO to capture and remove particulates. This combination of an RTO with a separate particulate control device can help achieve comprehensive air pollution control for both gaseous pollutants and particulate matter.
• Consideration of Particulate Characteristics: When evaluating the suitability of RTOs for a specific application involving particulate matter emissions, it is crucial to consider the characteristics of the particulates, such as size, composition, and concentration. RTOs may be more effective in controlling certain types of coarse particulates compared to fine or ultrafine particulate matter.
• Alternative Technologies: For industries with significant particulate matter emissions, other air pollution control technologies specifically designed for particulate removal, such as fabric filters (baghouses), electrostatic precipitators, or wet scrubbers, may be more suitable and efficient.

In summary, while regenerative thermal oxidizers are highly effective for the destruction of gaseous pollutants, they are not specifically designed for controlling particulate matter emissions. If particulate matter control is a significant concern, supplementary particulate control devices or alternative technologies should be considered to ensure comprehensive air pollution control.

Can regenerative thermal oxidizers handle corrosive exhaust gases?

Regenerative thermal oxidizers (RTOs) can be designed to handle corrosive exhaust gases effectively. However, the ability of an RTO to handle corrosive gases depends on several factors, including the choice of construction materials, operating conditions, and the specific corrosive nature of the exhaust gases. Here are some key points regarding the handling of corrosive exhaust gases in RTOs:

• Material Selection: The selection of appropriate construction materials is crucial when dealing with corrosive gases. RTOs can be constructed using materials that offer high resistance to corrosion, such as stainless steel, corrosion-resistant alloys (e.g., Hastelloy, Inconel), or coated materials. The choice of materials depends on the specific corrosive compounds present in the exhaust gases and their concentrations.
• Corrosion-Resistant Coatings: In addition to selecting corrosion-resistant materials, applying protective coatings can enhance the resistance of the RTO components to corrosive gases. Coatings such as ceramic coatings, epoxy coatings, or acid-resistant paints can provide an extra layer of protection against corrosion.
• Temperature Control: Maintaining appropriate operating temperatures in the RTO can help mitigate the corrosive effects of the exhaust gases. Higher temperatures can promote the decomposition of corrosive compounds, reducing their corrosive potential. Additionally, operating at higher temperatures can enhance the self-cleaning effect and prevent the accumulation of corrosive deposits on the surfaces.
• Gas Conditioning: Prior to entering the RTO, the exhaust gases can undergo gas conditioning processes to reduce their corrosive nature. This may involve pre-treatment methods such as scrubbing or neutralization to remove or neutralize corrosive compounds and reduce their concentration.
• Monitoring and Maintenance: Regular monitoring of the RTO performance and periodic maintenance are essential to ensure the effective handling of corrosive exhaust gases. Monitoring systems can track variables such as temperature, pressure, and gas composition to detect any deviations that may indicate corrosion-related issues. Proper maintenance, including cleaning and inspection of the components, helps identify and address any corrosion concerns in a timely manner.

It is important to note that the corrosiveness of exhaust gases can vary significantly depending on the specific industrial process and the pollutants involved. Therefore, when designing an RTO for handling corrosive gases, it is advisable to consult with experienced engineers or RTO manufacturers who can provide guidance on the appropriate design considerations and material selection.

By employing suitable materials, coatings, temperature control, gas conditioning, and maintenance practices, RTOs can effectively handle corrosive exhaust gases while ensuring their long-term performance and durability.

Can a regenerative thermal oxidizer handle high-volume exhaust gases?

Yes, a regenerative thermal oxidizer (RTO) is capable of handling high-volume exhaust gases emitted from industrial processes. RTOs are designed to handle a wide range of flow rates, including high-volume exhaust streams. Here are the reasons why RTOs are suitable for handling high-volume exhaust gases:

1. Scalability: RTOs are highly scalable and can be designed to accommodate varying exhaust gas volumes. The size and capacity of an RTO can be customized to match the specific requirements of the industrial process. This scalability allows RTOs to handle high-volume exhaust gases effectively.

2. Modular Design: RTOs often feature a modular design that allows multiple units to be installed in parallel. This modular configuration enables the treatment of large exhaust gas volumes by operating multiple RTO units simultaneously. The modular approach provides flexibility and ensures efficient handling of high-volume exhaust gases.

3. Large Heat Exchange Surface: RTOs incorporate structured ceramic media beds that provide a large heat exchange surface area. The media beds efficiently transfer heat between the incoming and outgoing gas streams, facilitating the oxidation of VOCs. The large heat exchange surface area enables RTOs to effectively handle high-volume exhaust gases while maintaining the required combustion temperature.

4. Heat Recovery: RTOs are known for their energy-efficient operation due to their heat recovery capabilities. The heat recovery system within an RTO captures and preheats the incoming process air by utilizing the heat energy from the outgoing exhaust stream. This heat recovery mechanism minimizes the energy consumption required to maintain the combustion temperature, making RTOs well-suited for handling high-volume exhaust gases without significantly increasing energy costs.

5. Effective Flow Distribution: RTOs are engineered to ensure proper flow distribution within the system. The design includes appropriate ductwork, valves, and dampers to evenly distribute the exhaust gases across the ceramic media beds. Effective flow distribution prevents preferential flow paths and ensures that all exhaust gases receive sufficient residence time for complete VOC destruction, even in high-volume exhaust gas applications.

6. Advanced Control Systems: Modern RTOs are equipped with advanced control systems that optimize the performance of the system. These control systems monitor and regulate various parameters, including temperature, airflow, and valve sequencing. The control systems adapt to the fluctuating exhaust gas volumes and maintain the required combustion temperature, ensuring efficient handling of high-volume exhaust gases.

In summary, regenerative thermal oxidizers (RTOs) are capable of effectively handling high-volume exhaust gases. Their scalability, modular design, large heat exchange surface, heat recovery capabilities, effective flow distribution, and advanced control systems make RTOs well-suited for industrial processes that generate substantial exhaust gas volumes.

editor by CX 2023-09-21