Comparison of performance features
The High Pressure Online Circulation Pump has significant differences in performance characteristics from other similar pumps. High Pressure Online Circulation Pump has the characteristics of high lift and can meet the needs of long-distance transportation or overcoming the resistance of high-pressure systems. Its flow rate can usually be accurately adjusted according to working conditions to adapt to complex industrial processes. In contrast, although ordinary centrifugal pumps can also transport liquids, the adjustment range of head and flow rate may be relatively narrow, and their ability to operate stably in high-pressure environments is weak. Although positive displacement pumps such as gear pumps can generate higher pressures, their flow pulsations are larger, and they do not perform as well as High Pressure Online Circulation Pumps in some online circulation systems that require high flow stability.
Structural design comparison
In terms of structure, the High Pressure Online Circulation Pump has a relatively complex and compact structure. Its pump body is usually made of high-strength materials to withstand high pressure. The design of internal impellers, shafts and other components have been optimized to operate stably under high pressure and reduce vibration and wear. Ordinary pipeline pumps have a relatively simple structure and poor adaptability to high-pressure environments. In addition, the structural characteristics of similar pumps such as vortex pumps determine that they are prone to clogging when handling liquids containing impurities. However, the High Pressure Online Circulation Pump can better handle complex media and reduce failures through reasonable flow channel design and filtering devices. Probability of occurrence.
Comparison of sealing and lubrication methods
Sealing and lubrication of the High Pressure Online Circulation Pump is critical. It often uses advanced sealing technologies such as mechanical seals, which have good sealing effects and can effectively prevent liquid leakage under high pressure and ensure system safety and stability. At the same time, the lubrication system is carefully designed to ensure that high-speed running components are well lubricated in high-pressure environments and reduce friction and wear. Some simple self-priming pumps and other similar pumps have relatively simple sealing and lubrication methods. Under high-pressure conditions, problems such as seal failure and excessive wear of components may occur, thus affecting the service life and performance of the pump.
Application field comparison
High Pressure Online Circulation Pump is mainly used in industrial fields with strict pressure and flow control requirements, such as high-pressure circulation systems in chemical industry, petroleum, electric power, etc. In chemical production, it can ensure the precise circulation of high-temperature and high-pressure reaction materials. In oil extraction, it can meet complex process requirements such as underground high-pressure water injection. Other similar pumps, such as submersible pumps, are mainly used in relatively low-pressure, simple working conditions such as pumping water from the ground; diaphragm pumps are more used to transport corrosive or special media containing solid particles, but are used in high-pressure continuous circulation systems. Not as extensive as High Pressure Online Circulation Pump.