Product Details
Place of Origin: China
Brand Name: ENNENG
Certification: CE,UL
Model Number: PMM
Payment & Shipping Terms
Minimum Order Quantity: 1 set
Price: USD 500-5000/set
Packaging Details: seaworthy packing
Delivery Time: 15-120 days
Payment Terms: L/C, T/T
Supply Ability: 20000 sets/year
Name: |
High Power Factor Permanent Magnet Electric Motor For Aerator |
Current: |
AC |
Material: |
Rare Earth NdFeB |
Power Range: |
5.5-3000kw |
Installation: |
IMB3 IMB5 IMB35 |
Phase: |
3 Phase |
Voltage: |
380v, 660v, 1140v, 3300v, 6kv, 10kv |
Housing: |
Cast Iron |
Feature: |
High Power Factor |
Application: |
Metallurgical, Ceramic, Rubber, Petroleum, Textiles |
Name: |
High Power Factor Permanent Magnet Electric Motor For Aerator |
Current: |
AC |
Material: |
Rare Earth NdFeB |
Power Range: |
5.5-3000kw |
Installation: |
IMB3 IMB5 IMB35 |
Phase: |
3 Phase |
Voltage: |
380v, 660v, 1140v, 3300v, 6kv, 10kv |
Housing: |
Cast Iron |
Feature: |
High Power Factor |
Application: |
Metallurgical, Ceramic, Rubber, Petroleum, Textiles |
High Power Factor Permanent Magnet Electric Motor For Aerator
What Is The Permanent Magnet Synchronous Motor?
The PERMANENT MAGNET SYNCHRONOUS MOTOR is mainly composed of the stator, rotor, chassis, front-rear cover, bearings, etc. The structure of the stator is basically the same as that of ordinary asynchronous motors, and the main difference between the permanent magnet synchronous motor and other kinds of motors is its rotor.
The permanent magnet material with pre-magnetized (magnetic charged) magnetic on the surface or inside the permanent magnet of the motor, provides the necessary air gap magnetic field for the motor. This rotor structure can effectively reduce the motor volume, reduce loss and improve efficiency.
Analysis of the principle of the technical advantages of permanent magnet motor
The principle of a permanent magnet synchronous motor is as follows: In the motor's stator winding into the three-phase current, after the pass-in current, it will form a rotating magnetic field for the motor's stator winding. Because the rotor is installed with the permanent magnet, the permanent magnet's magnetic pole is fixed, according to the principle of magnetic poles of the same phase attracting different repulsion, the rotating magnetic field generated in the stator will drive the rotor to rotate, The rotation speed of the rotor is equal to the speed of the rotating pole produced in the stator.
Due to the use of permanent magnets to provide magnetic fields, the rotor process is mature, reliable, and flexible in size, and the design capacity can be as small as tens of watts, up to megawatts. At the same time, by increasing or decreasing the number of pairs of rotor permanent magnets, it is easier to change the number of poles of the motor, which makes the speed range of permanent magnet synchronous motors wider. With multi-pole permanent magnet rotors, the rated speed can be as low as a single digit, which is difficult to achieve by ordinary asynchronous motors.
Especially in the low-speed high-power application environment, the permanent magnet synchronous motor can be directly driven by a multi-pole design at low speed, compared with an ordinary motor plus reducer, the advantages of a permanent magnet synchronous motor can be highlighted.
Permanent magnet direct-drive motors in aerators
Permanent magnet direct drive motor is an emerging drive technology, compared with the transmission device in the traditional aerator, it eliminates the transmission loss in the traditional transmission system and improves the energy utilization efficiency by directly driving the fan or impeller. Its main features include:
Simple structure: the permanent magnet direct drive motor consists of an electric motor and a fan or impeller, removing the transmission device in the traditional aerator, making the whole system structure simpler.
Fast response speed: the permanent magnet direct drive motor has a high response speed, and can quickly adjust the speed of the fan or impeller to meet the needs of different working conditions.
Low noise: Compared with traditional aerators, factors such as transmission and mechanical friction are eliminated in permanent magnet direct-drive motors, thus greatly reducing the noise level.
Low maintenance costs: Permanent magnet direct drive motors do not require regular replacement of components such as the transmission and fan or impeller, reducing maintenance costs and downtime.
The use of permanent magnet direct drive motors brings significant improvements and performance benefits to aerators. Permanent magnet direct drive motors eliminate transmission losses found in traditional aerators and increase energy efficiency. Compared to traditional aerators, PMD motors can convert electrical energy into mechanical energy at a higher efficiency, resulting in a more energy-efficient and environmentally friendly aeration process. Due to the simple structure and low noise of the permanent magnet direct drive motor, its operation has less impact on the environment. Noise pollution and vibration from mechanical friction are reduced, as well as the pollution of air and water quality. The permanent magnet direct drive motor also has the advantages of fast response speed and low maintenance cost, which can improve the performance and sustainability of the aerator. This can improve productivity, reduce operating costs, and promote the rational use of water resources for the water treatment industry.
What applications use PMSM motors?
Industries that use PMSM motors include Metallurgical, Ceramic, Rubber, Petroleum, Textiles, and many others. PMSM motors can be designed to operate at synchronous speed from a supply of constant voltage and frequency as well as Variable Speed Drive (VSD) applications. Due to high efficiency and power and torque densities, they are generally a superior choice in high torque applications such as mixers, grinders, pumps, fans, blowers, conveyors, and industrial applications where traditionally induction motors are found.
Permanent magnet synchronous motors with internal magnets: Maximum energy efficiency
The permanent magnet synchronous motor with internal magnets (IPMSM) is the ideal motor for traction applications where the maximum torque does not occur at maximum speed. This type of motor is used in applications that require high dynamics and overload capacity. And it is also the perfect choice if you want to operate fans or pumps in the IE4 and IE5 range. The high purchase costs are usually recouped through energy savings over the run time, provided that you operate it with the right variable frequency drive.
Our motor-mounted variable frequency drives use an integrated control strategy based on MTPA (Maximum Torque per Ampere). This allows you to operate your permanent magnet synchronous motors with maximum energy efficiency. The overload of 200 %, the excellent starting torque, and the extended speed control range also allow you to fully exploit the motor rating. For fast recovery of costs and the most efficient control processes.
Permanent magnet synchronous motors with external magnets for classic servo applications
Permanent magnet synchronous motors with external magnets (SPMSM) are ideal motors when you need high overloads and rapid acceleration, for example in classic servo applications. The elongated design also results in low mass inertia and can be optimally installed. However, one disadvantage of the system consisting of SPMSM and variable frequency drive is the costs associated with it, as expensive plug technology and high-quality encoders are often used.
Advantages Of Rare-earth Permanent Magnet Motors
High efficiency: The efficiency curve of the asynchronous motor generally falls faster under 60% of the rated load, and the efficiency is very low at light load. The efficiency curve of the rare earth permanent magnet motor is high and flat, and it is in the high-efficiency area at 20%~120% of the rated load.
High power factor: The measured value of the power factor of the rare earth permanent magnet synchronous motor is close to the limit value of 1.0. The power factor curve is as high and flat as the efficiency curve. The power factor is high. Low-voltage reactive power compensation is not required and the power distribution system capacity is fully utilized.
Stator current is small: The rotor has no excitation current, the reactive power is reduced, and the stator current is significantly reduced. Compared with the asynchronous motor of the same capacity, the stator current value can be reduced by 30% to 50%. At the same time, because the stator current is greatly reduced, the motor temperature rise is reduced, and the bearing grease and bearing life are extended.
High out-of-step torque and pull-in torque: Rare earth permanent magnet synchronous motors have higher out-of-step torque and pull-in torque, which makes the motor have higher load capacity and can be smoothly pulled into synchronization.
Disadvantages Of Rare-earth Permanent Magnet Motors
High cost: Compared with the asynchronous motor of the same specification, the air gap between the stator and the rotor is smaller, and the processing accuracy of each component is high; the rotor structure is more complicated and the price of rare earth magnetic steel material is high; therefore, the motor manufacturing cost is high, which is common for asynchronous motors About 2 times.
Large impact at full power start: When starting at full pressure, the synchronous speed can be drawn in a very short time. The mechanical shock is large. The starting current is more than 10 times the rated current. The impact on the power supply system is large, requiring a large capacity of the power supply system.
Rare-earth magnet steel is easy to demagnetize: When the permanent magnet material is subjected to vibration, high temperature, and overload current, its magnetic permeability may decrease, or the demagnetization phenomenon occurs, which reduces the performance of the permanent magnet motor.
Surface-mounted PMSM
In this construction, the magnet is mounted on the surface of the rotor. It is suited for high-speed applications, as it is not robust. It provides a uniform air gap because the permeability of the permanent magnet and the air gap is the same. No reluctance torque, high dynamic performance, and suitable for high-speed devices like robotics and tool drives.
Buried PMSM or Interior PMSM
In this type of construction, the permanent magnet is embedded into the rotor as shown in the figure below. It is suitable for high-speed applications and is robust. Reluctance torque is due to the saliency of the motor.
Video
Video
Video
Video
Video
Video
Video
Video
Video
Video
