Basic Info.
Model NO.
LC-JYRT-1 M / h.;
Performance characteristics
The air volume of the treatment is from 2nm3 / h
Concentration ≥ 1000mg / m3
Model | Air volume (m3/h); | Size (mm); | Burner(thousand Kcal); |
LC-RTO -50 | 5000 | 5280*1790*3910 | 250 |
LC-RTO -100 | 10000 | 6150*2380*4030 | 550 |
LC-RTO -150 | 15000 | 7050*2830*4310 | 750 |
LC-RTO -200 | 20000 | 7980*3150*4610 | 1000 |
LC-RTO -300 | 30000 | 10650*4260*4950 | 1350 |
LC-RTO -400 | 40000 | 12560*4720*5460 | 2000 |
LC-RTO -500 | 50000 | 14200*5260*5860 | 2000 |
Customer Question & Answer
If you have any questions,; please leave your valuable comments
Address: 316, No. 331, Chengnan Road, Lancheng Street, HangZhou City, ZheJiang Province
Business Type: Manufacturer/Factory
Business Range: Industrial Equipment & Components
Main Products: Waste Incineration Power Generation, Waste Incineration, Renergy Power Generation, Waste Incineration Power Plant, Refuse Incinerator, Energy
Company Introduction: HangZhou Lancheng Environmental Protection Technology Co., Ltd., located in HangZhou City, HangZhou City, ZheJiang Province, is a high-tech enterprise integrating scientific research, design, production and sales. The company strives for innovation with scientific research, survival with quality and development with reputation. With its professional level and mature technology in the field of environmental protection, it is rising rapidly. Customer satisfaction with products is our constant pursuit.
With a registered capital of 20 million yuan, the company has more than 2000 modern production bases in HangZhou Hong Kong Industrial Zone, HangZhou City, HangZhou City, ZheJiang Province. The company′s first-class environmental protection treatment designers have designed targeted treatment schemes from the aspects of system rationality, technological innovation and input-output economy for various complex working conditions, so as to make the emission indicators meet the national emission standards.
The company′s main products are: 1. Organic waste gas; Activated carbon, RTO, RCO, zeolite runner, dry filter box, etc. 2. Dust; Electrostatic precipitator, pulse bag filter and other equipment. 3. Pharmaceutical equipment; Drying equipment, mixing equipment, granulation equipment, crushing equipment. 4. Hot DIP galvanized wire. 5. Industrial wastewater treatment equipment, etc.
Our equipment has been successfully used in chemical industry, baking, coating, electroplating, waste incineration, printing, catering, municipal and other industries. At present, the company can formulate a perfect treatment scheme according to the current situation of enterprise sewage discharge, and use the existing patented technology to develop the most suitable products. We will provide you with the best quality solutions with the most advanced technology and the most sincere attitude.
The company always takes “carving carefully and creating high-quality products” as the enterprise purpose, and always takes “growing into the strongest environmental protection enterprise in Xihu (West Lake) Dis.” as the enterprise goal. In recent years, with the increasing attention of the state to environmental protection, “managing the atmosphere, beautifying the environment and benefiting mankind” has become our long-term task. In response to the call of the national “energy conservation and emission reduction” policy, blue city environmental protection company has made due contributions to revitalizing China′s environmental protection and building a harmonious society, and continues to strive to create a bluer sky and a better environment for us!
Are regenerative thermal oxidizers suitable for small-scale applications?
Regenerative thermal oxidizers (RTOs) are primarily designed for medium to large-scale industrial applications due to their specific characteristics and operational requirements. However, their suitability for small-scale applications depends on various factors:
- Process Exhaust Volume: The exhaust volume generated by the small-scale application plays a crucial role in determining the feasibility of using an RTO. RTOs are typically designed to handle high exhaust volumes, and if the exhaust volume from the small-scale application is too low, it may not be cost-effective or efficient to use an RTO.
- Capital and Operating Costs: RTOs can be expensive to purchase, install, and operate. The capital investment required for a small-scale application may not be justifiable when considering the relatively lower exhaust volumes and pollutant concentrations. Additionally, the operating costs, including energy consumption and maintenance, may outweigh the benefits for small-scale operations.
- Space Availability: RTOs require a significant amount of physical space for installation. Small-scale applications may have space limitations, making it challenging to accommodate the size and layout requirements of an RTO system.
- Regulatory Requirements: Small-scale applications may be subject to different regulatory requirements compared to larger industrial operations. The specific emission limits and air quality standards applicable to the small-scale application should be considered to ensure compliance. Alternative emission control technologies that are more suitable for small-scale applications, such as catalytic oxidizers or biofilters, may be available.
- Process Characteristics: The nature of the small-scale application’s exhaust stream, including the type and concentration of pollutants, can influence the choice of emission control technology. RTOs are most effective for applications with high concentrations of volatile organic compounds (VOCs) and hazardous air pollutants (HAPs). If the pollutant profile of the small-scale application is different, alternative technologies may be more appropriate.
While RTOs are generally more suitable for medium to large-scale applications, it’s important to assess the specific requirements, constraints, and cost-benefit analysis for each individual small-scale application before considering the use of an RTO. Alternative emission control technologies that are better suited for small-scale operations should also be evaluated.
How do regenerative thermal oxidizers handle particulate matter buildup in the system?
Regenerative thermal oxidizers (RTOs) employ various mechanisms to handle particulate matter buildup in the system. Particulate matter, such as dust, soot, or other solid particles, can accumulate over time and potentially affect the performance and efficiency of the RTO. Here are some ways RTOs handle particulate matter buildup:
- Pre-filtration: RTOs can incorporate pre-filtration systems, such as cyclones or bag filters, to remove larger particulate matter before it enters the oxidizer. These pre-filters capture and collect the particles, preventing them from entering the RTO and reducing the potential for buildup.
- Self-Cleaning Effect: RTOs are designed to have a self-cleaning effect on the heat exchange media. During the operation of the RTO, the flow of hot exhaust gases through the media can cause the particles to burn or disintegrate, minimizing their accumulation. The high temperatures and turbulent flow help maintain clean surfaces on the media, reducing the risk of significant particulate buildup.
- Purge Cycle: RTOs typically incorporate purge cycles as part of their operation. These cycles involve introducing a small flow of clean air or gas into the system to purge any residual particulate matter. The purge air helps dislodge or burn off any particles adhering to the media, ensuring their continuous cleaning.
- Periodic Maintenance: Regular maintenance is essential to prevent excessive particulate matter buildup in the RTO. Maintenance activities may include inspecting and cleaning the heat exchange media, checking and replacing any worn-out gaskets or seals, and monitoring the system for any signs of particulate accumulation. Regular maintenance helps ensure optimal performance and minimizes the risk of operational issues associated with particulate matter buildup.
- Monitoring and Alarms: RTOs are equipped with monitoring systems that track various parameters such as pressure differentials, temperatures, and flow rates. These systems can detect any abnormal conditions or excessive pressure drops that may indicate particulate matter buildup. Alarms and alerts can be triggered to notify operators, prompting them to take appropriate action, such as initiating maintenance or cleaning procedures.
It is important to note that the specific strategies employed to handle particulate matter buildup may vary depending on the design and configuration of the RTO, as well as the characteristics of the particulate matter being treated. RTO manufacturers and operators should consider these factors and implement appropriate measures to ensure the effective management of particulate matter in the system.
By incorporating pre-filtration, utilizing the self-cleaning effect, implementing purge cycles, conducting regular maintenance, and employing monitoring systems, RTOs can effectively handle and mitigate particulate matter buildup, maintaining their performance and efficiency over time.
What is a regenerative thermal oxidizer?
A regenerative thermal oxidizer (RTO) is an advanced air pollution control device used in industrial applications to remove volatile organic compounds (VOCs), hazardous air pollutants (HAPs), and other airborne contaminants from exhaust gases. It operates by using high temperatures to thermally decompose or oxidize the pollutants, converting them into less harmful byproducts.
How does a regenerative thermal oxidizer work?
An RTO consists of several key components and operates through a cyclical process:
1. Inlet Plenum: The exhaust gases containing pollutants enter the RTO through the inlet plenum.
2. Heat Exchanger Beds: The RTO contains multiple heat exchanger beds filled with heat storage media, typically ceramic materials or structured packing. The heat exchanger beds are arranged in pairs.
3. Flow Control Valves: Flow control valves direct the airflow and control the direction of the exhaust gases through the RTO.
4. Combustion Chamber: The exhaust gases, now directed into the combustion chamber, are heated to a high temperature, typically between 1400°F (760°C) and 1600°F (870°C). This temperature range ensures effective thermal oxidation of the pollutants.
5. VOC Destruction: The high temperature in the combustion chamber causes the VOCs and other contaminants to react with oxygen, resulting in their thermal decomposition or oxidation. This process breaks down the pollutants into water vapor, carbon dioxide, and other harmless gases.
6. Heat Recovery: The hot, purified gases leaving the combustion chamber pass through the outlet plenum and flow through the heat exchanger beds that are in the opposite phase of operation. The heat storage media in the beds absorb heat from the outgoing gases, which preheats the incoming exhaust gases.
7. Cycle Switching: After a specific time interval, the flow control valves switch the airflow direction, allowing the heat exchanger beds that were preheating the incoming gases to now receive the hot gases from the combustion chamber. The cycle then repeats, ensuring continuous and efficient operation.
Advantages of regenerative thermal oxidizers:
RTOs offer several advantages in industrial air pollution control:
1. High Efficiency: RTOs can achieve high destruction efficiencies, typically above 95%, effectively removing a wide range of pollutants.
2. Energy Recovery: The heat recovery mechanism in RTOs allows for significant energy savings. The preheating of incoming gases reduces the fuel consumption required for combustion, making RTOs energy-efficient.
3. Cost-effectiveness: Although the initial capital investment for an RTO can be significant, the long-term operational cost savings through energy recovery and high destruction efficiencies make it a cost-effective solution over the lifespan of the system.
4. Environmental Compliance: RTOs are designed to meet stringent emissions regulations and help industries comply with air quality standards and permits.
5. Versatility: RTOs can handle a wide range of process exhaust volumes and pollutant concentrations, making them suitable for various industrial applications.
Overall, regenerative thermal oxidizers are highly efficient and effective air pollution control devices widely used in industries to minimize emissions and ensure environmental compliance.
editor by CX 2023-09-01