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Zeolite Rotor Concentrator Equipment Machine VOCs Waste Gas Treatment System

Zeolite Rotor Concentrator System Applicable Industries: spray painting, printing, chemical industry, injection molding, circuit board, surface coating, coating ink, etc VOCs waste gas treatment.

Product features: Zeolite Rotor Concentrator System suitable for the treatment of large exhaust air volume, low concentration of organic waste gas.

Zeolite Rotor Concentrator System Purification efficiency: ≥95%

Project introduction: When the zeolite rotary adsorption runner is working, the adsorption and desorption process is continuously carried out, and the concentration fluctuation of the desorption concentrated exhaust gas is small, which avoids the concentration fluctuation formed by the fixed adsorption bed during the desorption, which is conducive to the control of the stability and normal operation of the whole zeolite rotor concentrator system, and can protect the stability of the heat output of the subsequent treatment unit.

    Project Introduction

    Working Principle of Zeolite Rotor Concentration System

    Zeolite runner device, also known as zeolite runner concentrator, is a waste gas treatment rotating adsorption equipment designed to effectively solve the problem of volatile organic compounds (VOC) in industrial waste gas. This system is made by attaching molecular sieve adsorption materials to a honeycomb porous carrier, and can effectively treat low-concentration, high-volume exhaust gases.


    In the face of increasingly stringent national environmental protection policies and regulations, VOCs emission limits have also increased. For companies that deal with such gases, the zeolite runner system provides an economical, reasonable, safe and reliable solution.

    The molecular sieve concentration wheel is designed with different adsorption, desorption, cooling and regeneration areas. The wheel operates continuously, processing exhaust gases seamlessly. The waste gas containing low concentration VOCs enters the adsorption zone after being pretreated by the filter device and is adsorbed by the molecular sieve. Subsequently, the sieve rotates into the desorption zone, where VOCs are desorbed and concentrated under the action of high-temperature hot air. After desorption, the molecular sieve enters the cooling regeneration zone and uses cold air for cooling and regeneration. The air used for cooling can be reheated and used as regeneration gas.


    To optimize energy consumption, the concentration ratio is determined based on the composition and concentration of VOCs. This ensures that the system operates at lowest energy costs, with concentration ratios typically between 5 and 30.

    In summary, the zeolite rotor concentration system provides an efficient and environmentally friendly solution for the treatment of VOCs in exhaust gas. With its innovative design and working principle, it becomes a valuable tool for industries striving to meet regulatory requirements and reduce their environmental footprint.

    Project Introduction

    Structure of zeolite wheel equipment Concentration System

    The structure of the zeolite wheel equipment concentration system is an innovative and efficient solution for VOCs exhaust gas treatment. Zeolite rotor concentrator, also known as rotor concentrator, uses zeolite rotor system to effectively remove and concentrate volatile organic compounds (VOC) in organic waste gas.


    The concentration zone of the zeolite wheel can be divided into a treatment zone, a regeneration zone and a cooling zone. This allows the rotor concentrators in each zone to operate continuously, ensuring seamless and efficient treatment of VOC exhaust gases.

    After the VOC organic waste gas passes through the pre-filter, it enters the treatment area of ​​the concentration wheel device. In this area, VOCs are adsorbed and removed by the adsorbent, and the purified air is discharged from the treatment area of ​​the concentration wheel. This process effectively removes harmful volatile organic compounds from the exhaust, releasing cleaner air into the environment.


    The organic waste gas VOCs adsorbed by the concentration wheel are desorbed and concentrated to 5-15 times the original concentration through hot air treatment in the regeneration area. This concentrated VOC off-gas can then be further processed or disposed of in a safe and controlled manner.

    After the regeneration zone, the concentration wheel is cooled in the cooling zone. The air passing through the cooling zone is heated and used as regeneration air, resulting in energy savings that help improve the overall efficiency of the system.


    Depending on the processing air volume and VOCs composition, users can choose cylindrical flow channels or disc flow channels for processing. This flexibility allows for customized VOC exhaust treatment methods, ensuring the system meets the user's specific needs and requirements.

    In summary, zeolite rotor concentrators provide an effective and energy-saving solution for VOC exhaust gas treatment. With its innovative structure and continuous operation, it provides a reliable and cost-effective method for removing and concentrating VOCs in organic waste gas.

    Project Introduction

    Characteristics of Zeolite Rotor Concentration System

    The zeolite rotor concentration system is an important tool in the field of VOCs waste gas treatment and is known for its high efficiency, selectivity, adjustability and economic benefits.


    One of the main features of zeolite rotor concentration systems is their efficiency in separating and filtering volatile organic compounds (VOCs) from exhaust gases. This is achieved through a rotating mechanism that changes the position and orientation of the zeolite, increasing the contact area and separation efficiency. As a result, the system is able to increase the speed and efficiency of the separation process.

    The selectivity of the zeolite rotor is another important characteristic. The microporous structure of zeolite has molecular size selectivity and can selectively adsorb and separate different molecules. This characteristic makes it widely used in molecular screening and separation processes to ensure more precise and effective separation of VOCs in exhaust gas.

    In addition, zeolite rotor concentration systems are adjustable and can be optimized to meet the specific separation requirements of different substances. By changing the rotation speed and angle of the rotor or replacing zeolite materials with different pore sizes, the system can achieve a more customized and effective separation effect

    In addition to efficiency and selectivity, zeolite rotor concentration systems are also economical. Zeolite is a common material that is low-cost and can be used for a long time without frequent replacement. This makes rotor concentrators more cost-effective and sustainable in industrial applications, providing a practical solution for VOCs exhaust gas treatment.

    In summary, the zeolite rotor concentration system plays a vital role in VOCs waste gas treatment due to its high efficiency, selectivity, adjustability and economic benefits. Its unique properties make it an indispensable tool for industries seeking effective and sustainable VOC removal solutions.


    Project Introduction

    Advantages of Zeolite Rotor Equipment Concentration System

    Zeolite rotor concentrators are powerful and efficient systems for treating VOC exhaust gases. It uses a zeolite rotor to achieve a high concentration ratio and convert high air volume and low concentration VOCs exhaust gas into low air volume and high concentration exhaust gas. This system has many advantages, making it the best choice for VOC exhaust gas treatment.

    One of the main advantages of the zeolite rotor concentrator is the high concentration ratio, which can be up to 20:1. This means it effectively concentrates the volatile organic compounds in the exhaust gases, allowing for a more efficient treatment process. The ability to achieve such high concentration ratios sets the Zeolite Rotor Concentrator apart from other VOC treatment systems, making it the first choice for industries dealing with VOC emissions.

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    Another advantage of zeolite rotor concentrators is their long service life. The adsorbent materials used in the system do not need to be replaced regularly, saving time and resources. This not only reduces maintenance and operating costs, but also makes the system more convenient to use. The system is also automatically controlled, has a high degree of automation, is simple to operate, and can be monitored through a human-machine interface. This makes the process more streamlined and efficient, and requires minimal manual intervention.

    In addition, the zeolite rotor concentrator operates safely and reliably. Its modular design requires minimal space, making it suitable for a variety of industrial environments. The system also offers continuous and unmanned control modes, allowing reliable and uninterrupted operation. This level of safety and reliability is critical in industrial environments where VOC exhaust treatment is a priority.

    In addition, natural zeolites have excellent performance in adsorbing and concentrating aromatic waste gases, making them an ideal choice for zeolite rotor concentrators. The system is also capable of handling exhaust gases with high relative humidity, providing flexibility and adaptability for a variety of industrial applications. Moreover, the pressure drop generated by the zeolite rotor's adsorption of VOCs is extremely low, which greatly reduces power consumption and operating costs. This makes zeolite rotor concentrators an environmentally friendly and cost-effective solution for VOC exhaust gas treatment.

    Overall, the advantages of zeolite rotor concentrators make them ideal for industries looking to effectively treat VOC offgases. Its high concentration ratio, long service life, automatic control, safety and reliability, and low energy consumption make it a superior system for VOC waste gas treatment. With efficient, environmentally friendly operation, zeolite rotor concentrators are the first choice for companies looking for reliable, effective VOC emissions solutions.

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