Introduction to Wood gas pressurized Roots blower, advantages, characteristics and principles of Roots Blower

Wood gas pressurized Roots bloweris a positive displacement blower with forced gas transmission characteristics.，The structural form of the three-blade rotor and the reasonable structure of the air inlet and outlet in the shell make the Wood gas pressurized Roots blower less vibration and noise.、Due to the adoption of synchronous gear transmission and small gap design, the Wood gas pressurized Roots blower runs stably and reliably, without contact and wear parts, and has a long service life.、Because of the design of three-blade rotor, the Wood gas pressurized Roots blower has little vibration and low noise during operation, and the operation is stable and reliable、Simple structural design, stable and reliable operation and convenient maintenance. This enables it to maintain high working efficiency and stability in long-term operation.、In the process of air intake and exhaust, the Wood gas pressurized Roots blower will not produce air pulsation, which means that it does not need an additional buffer gas tank to output gas smoothly. This is particularly important for processes that require stable airflow.，It has a wide range of uses, including cool, Material fluidization, supply air, dehydrate and cool。

1、Brief introduction of Wood gas pressurized Roots blower

Wood gas pressurized Roots bloweris a positive displacement blower.，it is widely used in coal chemical industry, pottery and porcelain, manufacturing industry, power, sewage disposal and other industries，the product looks beautiful.。

Wood gas pressurized Roots blower

2、Wood gas pressurized Roots blower structure

The Wood gas pressurized Roots blower structure is introduced as follows:

1. muffler

Used to reduce the noise caused by airflow pulsation when the Wood gas pressurized Roots blower enters and exits.

2. fuel tank

Mainly used for storing lubricating oil used for lubricating gears and bearings. The oil tank is used to store lubricating oil to lubricate bearings and gears and reduce wear and friction.

3. wallboard

It is mainly used to connect the casing with the impeller, support the rotation of the impeller, and play the role of end sealing.

4. muffler

Used to reduce the noise caused by airflow pulsation when the Wood gas pressurized Roots blower enters and exits.

5. rotator

The core components are two identical lobed rotors, which usually adopt involute or epicycloid envelope design to ensure close cooperation during rotation and reduce leakage.

Wood gas pressurized Roots blower

3、Wood gas pressurized Roots blower use

Wood gas pressurized Roots blowerIt is mostly used in dry, material handling, Ventilation, aquaculture, exhaust emission, Pressurized transportation and so on，in the course of work,It mainly depends on the relative movement of two lobed rotors (usually three-bladed impellers) in the cylinder to compress and transport gas.。

Wood gas pressurized Roots blower

4、Wood gas pressurized Roots blower real shot picture

Various combinations of Wood gas pressurized Roots blower can meet the diverse needs of customers. The following are High definition shooting andthe product looks atmospheric., which are trustworthy.。

Wood gas pressurized Roots blower

Note: All the pictures in this article were taken by hyde powder manufacturer.。

5、Wood gas pressurized Roots blower introduction video

On-site aerial photography of Wood gas pressurized Roots blower。

Wood gas pressurized Roots blower

As you can see from the live video.，Shandong Haide Fenti Engineering Co., Ltd. It is a product series that integrates Material fluidization, Desulfurization oxidation, supply air, mix and dehydrate。

Wood gas pressurized Roots blowerit has the functions of pick up the suction, aquaculture, dry, pressurized transportation and mix，The gas is compressed and transported by the relative rotation of a pair of trilobal rotors in the cylinder. Each trilobal rotor is supported by two bearings, and the relative position of the two rotors is always kept constant by using a pair of synchronous gears. During the rotation of the rotor, there are tiny gaps between impeller and impeller, impeller and casing, impeller and side cover, so there is no friction in the working chamber and no lubrication is needed, thus realizing the smooth transportation of gas.。