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Gear driven centrifugal pumps play a crucial role in the petroleum industry, offering a reliable and efficient solution for transferring fluids in various applications. One of the standout products in this category is the planetary oil-bath gear driven, cast iron pump that can achieve flow rates of up to 110-117 gallons per minute (416-443 liters per minute). This article will delve into the intricacies of gear pumps, their advantages and disadvantages, as well as explore different types of gear pumps and their designs.
This planetary oil-bath gear driven, cast iron pump achieves up to 110-117 gpm (416-443 lpm)
Gear Pump Pros and Cons
Gear pumps are known for their simplicity, efficiency, and reliability in transferring fluids. They operate by using two gears to create a vacuum at the inlet, which pulls the fluid into the pump and then pushes it out through the discharge port. This mechanism allows for a continuous flow of fluid without pulsation, making gear pumps ideal for applications requiring a steady flow rate.
One of the main advantages of gear pumps is their ability to handle a wide range of viscosities, from thin liquids to highly viscous fluids. They are also capable of generating high pressures, making them suitable for various industrial processes. However, gear pumps can be prone to wear and tear due to the close tolerances between the gears, which may result in reduced efficiency over time.
12 24V Gear Driven Pump
In applications where portability and flexibility are essential, 12V or 24V gear driven pumps are commonly used. These pumps are designed to operate with low voltage power sources, making them ideal for use in remote locations or vehicles where standard power outlets are not available. They are often used in fuel transfer systems, hydraulic systems, and other mobile applications where a compact and efficient pumping solution is required.
External and Internal Gear Pumps
Gear pumps can be classified into two main categories: external gear pumps and internal gear pumps. External gear pumps consist of two gears - one driver gear and one driven gear - that rotate in opposite directions to create a fluid flow. These pumps are commonly used in applications where high pressures and flow rates are required.
On the other hand, internal gear pumps feature an internal rotor that drives an external rotor, creating chambers between the gears where the fluid is transferred. Internal gear pumps are known for their ability to handle high viscosities and provide a smooth flow of fluid. They are often used in applications where precise metering and control of flow are critical.
Internal vs External Gear Pump
The choice between internal and external gear pumps depends on the specific requirements of the application. Internal gear pumps are generally more compact and can handle higher viscosities, making them suitable for applications where space is limited or where thick fluids need to be pumped. External gear pumps, on the other hand, are preferred for high-pressure applications where efficiency and flow rate are crucial.
Gear Pump Internals
The internal components of a gear pump play a critical role in its performance and efficiency. The gears, shafts, bearings, and seals inside a gear pump must be designed and manufactured to high precision to ensure smooth operation and minimal wear. Proper lubrication of the gear pump internals is also essential to reduce friction and prolong the life of the pump.
Types of External Gear Pumps
External gear pumps come in various configurations, including spur gear pumps, helical gear pumps, and herringbone gear pumps. Spur gear pumps are the simplest and most common type, featuring straight-cut gears that transfer fluid between the inlet and outlet ports. Helical gear pumps have angled teeth that provide smoother operation and reduced noise levels. Herringbone gear pumps utilize a double-helical design to improve efficiency and reduce pulsation in the fluid flow.
Internal Gear Pump Design
Internal gear pumps consist of an internal rotor with external teeth that mesh with an external rotor with internal teeth. This design creates a series of expanding and contracting chambers within the pump, allowing for the transfer of fluid from the inlet to the outlet. Internal gear pumps are known for their ability to handle high viscosities and provide a consistent flow rate, making them suitable for a wide range of applications in the petroleum industry.
Gear Pump Positive Displacement
These gear-driven, cast iron, self-priming centrifugal pumps handle big, high …
Batch Automatic Centrifuges with Open Bowl; Bottom Discharge Batch Automatic Centrifuges; Continuous Basket Centrifuge Model SCPC-C; Decanter Centrifuges with Manual Solids Discharge, or Discharge with a Skimmer, or .
gear driven centrifugal pump|gear pump pros and cons