Performance Parameters at a Glance: Compare Flow Rate, Operating Pressure, and Drive Power
This page provides a comprehensive overview of the technical data for our high-pressure pumps, including flow rate, operating pressure, power consumption, and weight. The table below shows the most important performance parameters of our high-pressure plunger pumps and allows for direct comparison. This technical information helps engineers, project planners, and technical purchasers select and design pumps for various industrial applications.
Our high-pressure pumps offer a wide range of performance and are designed for demanding tasks. Thanks to their modular design, they can be flexibly adapted to different pressure ranges, flow rates, and media requirements. The clearly structured technical data facilitates preselection and comparison of several pump types based on relevant parameters.
Technical Performance Parameters at a Glance
The performance table shows the most important technical parameters of industrial high-pressure pumps.
- Flow rate (Q, l/min): Maximum flow rate at nominal pressure
- Operating pressure (bar): Maximum system pressure
- Power consumption (kW/hp): Power requirement of the drive
- Weight (kg/lbs): Mass of the pump unit
These parameters are standard reference values for evaluating the technical performance of pumps and correspond to industry-standard requirements for high-pressure pumps.
Technical Data High-Pressure Pumps/KAMAT Performance List
| Pos. | Pump Group | max. bar | max. psi | max. l/min | max. us-gpm | max. imp-gpm | max. bbl/h | max. kw | max. hp | max. kg | max. lbs | ||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1 |  | K100-3 | 2000 | 29008 | 6,8 | NaN | NaN | NaN | 15 | 20.4 | 25 | 55.1 | » K100-3 |
| 2 |  | K4500-3 | 2125 | 30821 | 232 | 61.3 | 51.0 | 87.6 | 45 | 61.2 | 195 | 429.9 | » K4500-3 |
| 3 |  | K8000-3G | 2950 | 42786 | 283 | 74.8 | 62.3 | 106.8 | 75 | 102.0 | 250 | 551.2 | » K8000-3G |
| 4 |  | K9000-3G | 3140 | 45542 | 283 | 74.8 | 62.3 | 106.8 | 90 | 122.4 | 255 | 562.2 | » K9000-3G |
| 5 |  | K11000-3G | 2665 | 38653 | 454 | 119.9 | 99.9 | 171.3 | 110 | 149.6 | 425 | 937.0 | » K11000-3G |
| 6 |  | K18000-3G | 3500 | 50763 | 522 | 137.9 | 114.8 | 197.0 | 180 | 244.7 | 440 | 970.0 | » K18000-3G |
| 7 |  | K25000-3G | 3185 | 46195 | 1148 | 303.3 | 252.5 | 433.2 | 250 | 339.9 | 965 | 2127.5 | » K25000-3G |
| 8 |  | K45000-3G | 3500 | 50763 | 1310 | 346.1 | 288.2 | 494.4 | 450 | 611.8 | 1360 | 2998.3 | » K45000-3G |
| 9 |  | K55000-5G | 3500 | 50763 | 1913 | 505.4 | 420.8 | 721.9 | 550 | 747.8 | 2200 | 4850.2 | » K55000-5G |
| 10 |  | K100000-5G | 3500 | 50763 | 3482 | 919.8 | 765.9 | 1314.1 | 1000 | 1359.6 | 3650 | 8046.9 | » K100000-5G |
| 11 |  | K300000-5G | 1000 | 14504 | 10529 | 2781.5 | 2316.1 | 3973.5 | 3000 | 4078.9 | 7500 | 16534.7 | » K300000-5G |
Technical Design and Individual Requirements
The performance data in the above table provides a solid basis for preselecting suitable high-pressure pumps. In practice, however, optimal pump selection and design depend on additional factors.
These factors include:
- Type and temperature of the pumped medium (e.g., water, oil, chemicals)
- Abrasiveness or viscosity of the medium
- Pulsation requirements or cyclic operation
- Space conditions, installation position, and drive concept are also important considerations.
- System pressure losses and NPSH requirements.
Thanks to their modular design, our high-pressure pumps can be flexibly adapted to your process conditions, both mechanically and hydraulically. Custom designs or adaptations to existing systems can also be realized at short notice.
