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Pipe diameter configuration must be based on both equipment safety and system efficiency. The following two fundamental rules are essential for avoiding most operational risks.
The inner diameter of the inlet pipe must be no smaller than the slurry pump suction diameter, and it is recommended to select a pipe one size larger than the pump inlet whenever possible. For example, if the pump inlet diameter is 100 mm (approximately 4 inches), a 125 mm (approximately 5 inches) inlet pipe should be used. The use of 80 mm (approximately 3 inches) or smaller pipes is strictly prohibited. This design reduces slurry velocity at the suction side, allowing the medium to enter the pump smoothly. It helps prevent excessive pressure drop at the inlet, which could otherwise lead to cavitation and damage critical pump components.
The outlet pipe diameter may be equal to or slightly smaller than the pump discharge diameter, but the size difference should not exceed one nominal size. For example, when the pump discharge diameter is 100 mm, either a 100 mm or 80 mm outlet pipe is acceptable, while direct connection to a 50 mm or smaller pipe is not recommended. An oversized outlet pipe may result in unnecessary energy consumption, whereas an undersized pipe significantly increases pipeline resistance, leading to poor slurry flow or even blockage. Therefore, an optimal balance between transport efficiency and energy cost must be achieved.
Pipe diameter design should be dynamically adjusted according to actual operating conditions. The appropriate pipe size is determined through comprehensive evaluation of slurry properties, pump parameters, and pipeline configuration.
Slurry properties are the primary basis for pipe diameter selection, as they directly influence wear resistance and anti-blockage requirements.
When the slurry has a high solids concentration (e.g., quartz sand slurry with solids content exceeding 60%), a larger pipe diameter—typically one size larger than standard selection—should be used to reduce flow velocity and prevent particle settling and blockage.
For coarse slurry containing particles larger than 1 mm, the inlet pipe diameter should be increased to prevent particle jamming at the suction side. For fine slurry with particle sizes below 0.1 mm, standard pipe sizing can be applied; however, excessively small diameters should still be avoided to prevent accumulation and sedimentation.
If the slurry contains clay or other viscous components, flow resistance increases significantly. In such cases, the pipe diameter should be increased (one size larger than the calculated value) to reduce adhesion and buildup along the pipe wall, ensuring smooth transportation.
The pump’s key design parameters form the baseline for pipe diameter selection and must be properly matched to ensure system performance.
Higher design flow rates require larger pipe diameters. For example, a pump rated at 100 m³/h requires a larger pipe size than one rated at 50 m³/h to accommodate the increased slurry volume.
When the conveying distance exceeds 100 meters or the vertical lift exceeds 20 meters, the outlet pipe diameter should be increased to reduce friction and local losses, preventing insufficient actual head at the discharge point.
The pump’s suction and discharge diameters represent the minimum limits for pipe selection. The inlet pipe must not be smaller than the pump suction diameter, and the outlet pipe size difference should not exceed one nominal size to ensure proper matching between the pump and the piping system.
The installation environment and piping layout affect flow resistance and must be considered when selecting pipe diameters.
When the total pipeline length exceeds 50 meters, the outlet pipe diameter should be increased by one size (e.g., from 100 mm to 125 mm) to compensate for friction losses along the pipeline.
If the pipeline includes more than three fittings such as elbows, valves, or check valves, the outlet pipe diameter should be increased to reduce the cumulative effect of local resistance.
For systems dominated by vertical conveying (e.g., vertical lift exceeding 10 meters), a larger outlet pipe diameter is recommended to prevent slurry settling in vertical sections. For mainly horizontal conveying systems, standard sizing can be applied, provided that slurry velocity remains within a reasonable range.
If the inlet pipeline includes a vertical upward section (such as pumping slurry from an underground tank), the inlet pipe diameter should be increased to reduce flow velocity and prevent low inlet pressure, thereby avoiding cavitation.
After installation, the suitability of pipe diameters can be evaluated through operational observations without complex calculations, allowing for practical adjustments.
If abnormal noise, vibration, or unstable flow occurs during pump operation, the inlet pipe is likely undersized, resulting in poor suction performance. A larger inlet pipe diameter should be adopted.
If discharge flow rate is insufficient, outlet pressure is low, or severe pipe vibration is observed, the outlet pipe is likely undersized and should be increased. If flow and pressure are normal but motor power consumption is noticeably high, the outlet pipe may be oversized and should be reduced appropriately.
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