USER STORIES

Mining industry

Water conservancy industry

Petrochemical industry

Electric power industry

Salinization industry

Metallurgical industry

Urban water supply

Energy saving transformation

How should the wearing parts of a high-efficiency and energy-saving multi-stage pump be maintained?

07-10

2025

How should the wearing parts of a high-efficiency and energy-saving multi-stage pump be maintained?

High-efficiency energy-saving multi-stage pumps are widely used in various fields. They are known for their excellent performance and high efficiency, but during long-term operation, their vulnerable parts require special attention and maintenance. The following are some suggestions for maintaining the vulnerable parts of high-efficiency energy-saving multi-stage pumps.

View Details

How should the wearing parts of a high-efficiency and energy-saving multi-stage pump be maintained?
Why is the water intake of the high-efficiency energy-saving multi-stage pump so low?

07-09

2025

Why is the water intake of the high-efficiency energy-saving multi-stage pump so low?

High-efficiency energy-saving multi-stage pumps are commonly used in liquid transportation and boast superior performance and a wide range of applications. However, sometimes the water intake may be low, which can affect production efficiency and normal equipment operation. The following is a discussion of the reasons for low water intake in high-efficiency energy-saving multi-stage pumps and their solutions.

View Details

Why is the water intake of the high-efficiency energy-saving multi-stage pump so low?
Motor technical requirements for high-efficiency and energy-saving multi-stage pumps

07-09

2025

Motor technical requirements for high-efficiency and energy-saving multi-stage pumps

The motor technical requirements for high-efficiency and energy-saving multi-stage pumps cover aspects such as high efficiency, adaptability, stability, performance parameters, energy saving, and safety. Only motors that meet these requirements can ensure the efficient operation and energy-saving effect of multi-stage pumps.

View Details

Motor technical requirements for high-efficiency and energy-saving multi-stage pumps
Applicable scenarios of high-efficiency and energy-saving multi-stage pumps in industrial systems

07-09

2025

Applicable scenarios of high-efficiency and energy-saving multi-stage pumps in industrial systems

High-efficiency energy-saving multi-stage pumps are widely used in industrial systems, covering many fields such as chemical engineering, power, metallurgy, and pharmaceuticals. Their high efficiency, stable operation, and wide applicability make them an important choice for industrial fluid transportation. With continuous technological advancements, high-efficiency energy-saving multi-stage pumps will be applied in more fields, making greater contributions to industrial development.

View Details

Applicable scenarios of high-efficiency and energy-saving multi-stage pumps in industrial systems
The function and principle of shaft seals in high-efficiency and energy-saving multi-stage pumps

07-08

2025

The function and principle of shaft seals in high-efficiency and energy-saving multi-stage pumps

The shaft seal of a high-efficiency, energy-saving multi-stage pump plays a vital role in preventing leakage, maintaining performance, and preventing the entry of external contaminants. Its principle is mainly to achieve effective sealing through contact sealing, cooling and lubrication, elastic compensation, and fluid hydrostatic support. To improve the service life and performance of the shaft seal, advanced technologies and designs are also needed, and it needs to work in coordination with other parts of the pump.

View Details

The function and principle of shaft seals in high-efficiency and energy-saving multi-stage pumps
The function and principle of the drive coupling for a high-flow, low-cavitation multistage pump

07-08

2025

The function and principle of the drive coupling for a high-flow, low-cavitation multistage pump

The drive coupling plays a role in connecting, transmitting power, absorbing deviations, and vibrations in high-flow, low-cavitation multi-stage pumps. Its working principle is based on the deformation and restoring force of elastic elements, ensuring stable system operation and extending service life. In practical applications, it is necessary to select a suitable drive coupling according to specific operating conditions and requirements to ensure the normal operation of the system.

View Details

The function and principle of the drive coupling for a high-flow, low-cavitation multistage pump
< 1...181920...213 > proceed page