Pulse fluid refers to a fluid with periodic fluctuations, which is commonly seen in industrial production processes. The presence of pulsed fluid can cause unnecessary vibration and pressure fluctuations, affecting the normal operation of the equipment. Therefore, weakening the pulse fluid has become the focus of engineers. This article will introduce some effective methods of weakening pulsed fluid.

Firstly, the rational design of pipeline structure is the key to weaken pulsed fluid. Optimize pipe geometry and size, using curves and bends to reduce fluid fluctuations. At the same time, the necessary location of the buffer device, such as shock absorber or shock absorber, can effectively reduce the pulse fluid caused by vibration and fluctuations. In addition, choosing the right pipe material, such as rubber or elastic material, can absorb part of the pulse energy and reduce the fluctuation of the fluid.

Secondly, adjusting the flow rate and pressure of the fluid is also an effective way to weaken the pulsed fluid. By reducing the flow rate and pressure of the fluid, the amplitude and frequency of fluid fluctuations can be reduced. The flow rate of fluid can be reduced by increasing the outlet area of the device. Or use a throttling device or pressure reducing valve to reduce the pressure. However, it is important to note that too large a throttling device or pressure reducing valve may lead to energy loss of the fluid, so there is a trade-off between the throttling device and energy efficiency.

In addition, increasing the stability of the fluid can also achieve the purpose of weakening the pulsed fluid. Adding stabilizers or adjusting the composition of the fluid can change its fluidity and viscosity, thereby reducing fluctuations caused by pulsed fluids. For example, adding polymers or surfactants to the liquid can improve the viscosity and surface tension of the fluid and reduce turbulence and fluctuations of the pulsed fluid.

Finally, regular inspection and maintenance of equipment is also key to preventing pulse fluid problems. Timely cleaning of sediment inside pipes and equipment, inspection and replacement of aging or damaged pipes, valves and connectors can effectively prevent the generation and diffusion of pulsed fluids. In addition, regular hydrodynamic analysis and vibration testing can detect and resolve potential pulsed fluid problems in a timely manner.

To sum up, weakening pulsed fluid is a complex and important task. By reasonably designing the pipeline structure, adjusting the fluid flow rate and pressure, increasing the fluid stability, and regularly checking and maintaining the equipment, we can effectively reduce the impact of pulsed fluids and improve the stability and operation efficiency of the production equipment.