Overview:
The EH mechanical booster pumps feature the unique hydrokinetic drive, providing an efficient power transmission with benefits in economy, performance and compactness. The hydrokinetic drive provides pump down times cut by 50%, when compared with direct drive pumps, no bypass lines or pressure switches required, universal voltage motors, reduced capital and operating costs, air cooled motors – with water cooled options, and quiet, minimum vibration.
The EH mechanical booster pumps, based on the simple Roots principle, remain the favourite pumps for applications where high pumping speeds over 3000 m3h‑1/1776 ft3min-1 are required in the pressure region of 0.01 to 50 mbar/0.0075 to 37.5 Torr. These must always be backed by another pump which can deliver against a high pressure differential to atmospheric pressure. Operating at relatively low pressures, the mechanical booster pump is not exposed to the same concentrations of corrosive process media as is the backing pump, which makes it highly reliable.
Features & Benefits:
- Performance – fast pump down time due to unique hydrokinetic drive.
- Increased productivity – faster pump down time.
- More performance for less – larger displacement than equivalent competitor models.
- Stable operation – optimised clearances and after coolers.
- Simplicity – Continuous operation at all pressures.
- Simple installation – no need for pressure switches, bypass lines or variable frequency drives.
- Reliability – automatic overload protection, reliable shaft seal design.
- Safe operation – automatic overload protection.
- Robust operation even for harsh duties – proven shaft seal design to protect pumping mechanism and gearbox from cross-contamination.
- High uptime and low maintenance – internal evacuation of gearboxes extends shaft seal life.
- Reassurance.
- Peace of mind – industry proven with large installed base.
Technical Data:
Displacement (swept volume) | |
50Hz | 2590 m3h-1 / 1525 ft3min-1 |
60Hz | 3110 m3h-1 / 1830 ft3min-1 |
Effective pumping speed with backing pump | |
E2M175 | 1750 m3h-1 / 1031 ft3min-1 |
E2M275 | 1900 m3h-1 / 1119 ft3min-1 |
Pressure differential across pump | |
50Hz | |
HC | 0-120 mbar / 0-90 Torr |
FX | 0-80 mbar / 0-61 Torr |
60Hz | |
HC / FX | 0-67 mbar / 0-50 Torr |
Inlet connection | ISO160 |
Outlet connection | ISO100 |
Rotational speed | |
50Hz | 0-2900 rpm |
60Hz | 0-3500 rpm |
Operating continuous inlet pressure | 0-1000 mbar / 0-760 Torr |
Maximum outlet pressure | 1000 mbar / 760 Torr |
Recommended backing pumps | GXS250, GXS400, E2M175, E2M275, ES300, ES630, 412J, IDX1000, IDX1300 |
Motor power | |
Hydrocarbon | 11kW / 15hp |
PFPE | 11kW / 15hp |
ATEX | 11kW |
Explosion proof | 15hp |
Ambient temperature range | |
Operating | 5 to 40°C / 40 to 104°F |
Storage | -20 to 80°C / 14 to 176°F |
Maximum operating humidity | 90% RH |
Recommended cooling water flow (inlet temperature 20°C) | 6 lmin-1 |
Recommended cooling water supply pressure | 2-6 barg |
Cooling water connections | 3/8 inch BSP male |
Recommended oil | |
Standard version | Ultragrade 20 |
PFPE version | Fomblin® YVAC 16/6 |
Oil capacity | |
Gear case | 3.5 litre |
Coupling cover | 6.5 litre |
Shaft seal reservoir | 0.45 litre |
Weight | 339 kg / 746 lb |