The image that is directly above you displays two different rotor and stator profiles, with the total volume of each complete cavity being comparable to that of the other image's cavity. PC pumps have a flow rate that is directly proportional to the volume of each cavity as well as the rotational speed (RPM) of the rotor. This ratio holds true regardless of the size of the PC pump. No matter how high the pressure gets, this relationship will always remain the same. PC pumps are examples of what are known as positive displacement pumps, which explains why this is the situation. When both profiles are run at the same speed, the results produce the same level of performance. If you take a closer look at the picture that is situated directly above the text, you will notice that the diameter of the rotational diameter (d1) and the diameter of the rotor (d2) are identical in the construction of the MXQ. Because of these findings, we have arrived at the conclusion that the MXQ design results in a peripheral surface speed of the rotor on the stator (rubbing velocity) that is lower when the speed remains the same. This is the inference that one could make after considering all of these findings. Because the rate of rubbing is the primary factor in determining how long a progressive cavity pump troubleshooting will last, our design features a rotor and stator that experience less wear and have a longer lifespan. This is because the rate of rubbing is the primary factor in determining how long a progressive cavity pump will last. This is due to the fact that the rate of rubbing is the primary factor that decides how long a progressive cavity pump will continue to function properly.

When viewed from the opposite end of each pump, it is easy to see that the MXQ design makes use of a smaller cross sectional area for the stator cavity when compared to other, more conventional designs. This is because the MXQ design utilizes a smaller cross sectional area for the stator cavity than other designs.

A Universal Cardan Joint that is accompanied by a maintenance warranty that is valid for the subsequent three years.

A rotor in a PC pump simultaneously rotates around three different centers of rotation, making it possible for the pump to move fluid more efficiently. It is not possible to simply join the two components together because the centerline of the rotor is eccentrically offset from the centerline of the drive shaft. This makes it impossible to join the two components together. The eccentric offset is to blame for this situation. Instead, what is required is a connection to the drive that can be adjusted as needed.