PERFORMANCE SUMMARY
Max Disc. Pressure : | |
Up to 83 Bar Metallic (G03) | |
Up to 69 Bar Metallic (G13) | |
Up to 17 Bar Polypropylene | |
Up to 24 Bar PVDF | |
Max Inlet Pressure : | Up to 17 Bar |
RPM Range: | 5 rpm to 1750 rpm |
Flow Range: | 0.01 L/min to 11.7 L/min |
AVAILABLE OPTIONS
- ATEX
- Electronic Flow Rate Controller for Safe Zone Installations
- G13 Close Coupled
- Vertical Mounting Kit
G03
LIQUID HEAD MATERIALS
Brass
Polypropylene
PVDF
316L Stainless Steel
316L Stainless Steel – ANSI RF Flanges 300x600lb
316L Stainless Steel – DIN Flanges PN40 DN20xPN100 DN15
316L Stainless Steel – Tri-Clamp Flanges
Hastelloy CW12MW
DIAPHRAGM MATERIALS
Aflas
Buna-N-XS
EDPM
FKM
Neoprene
PTFE
VALVE MATERIALS
Ceramic
Hastelloy C
Nitronic 50
Tungsten Carbide
17-4 PH Stainless Steel
CONNECTION PORTS
Threaded | |
Inlet | 1/2″ BSPT |
Discharge | 1/2″ BSPT |
ANSI (RF) | |
Inlet | 300lb RF |
Discharge | 600lb RF |
DIN | |
Inlet | PN40 DN20 |
Discharge | PN100 DN15 |
Tri-Clamp – Max. 80 bar | |
Inlet | 1″ |
Discharge | 3/4″ |
NOTE:
Tri-clamp Flanges polished to 0.8 or 0.4 Ra
(Includes polishing of Pump Head,Valve Plate,Valves,Valve Seats,Springs & Retainers,
along with TSE,Passivation,Surface Finish & Weld Procedure Certificates)
Downloads
Gas Drying (3)
Hydra-Cell model |
M03XKSGHFEHG & D10XKSGHFEHB |
Flow rate |
14.4 l/min (3.8 gpm) |
Pressure |
41 - 62 bar (600 - 900 PSI) |
Location |
Pittsburgh, PA, USA (Spring 2019) |
Type of application |
Natural Gas Dehydration Injection |
Liquid |
Tri-Ethylene Glycol (TEG) |
Application details |
Range Resources were using gear pumps to pump the hot TEG in their gas drying process. The gear pumps required a special start-up process to ensure there were no problems due to thermal expansion that could cause clearance issues with the gears and premature wear. This was a complex process, or "jogging sequence", to ensure the gear housing and pressure wear plates expanded at similar rates. Due to the complexity of this process it was not often followed, and chemical attack on dynamic seals and packing is accelerated as the liquid temperature increases, resulting in a lot of maintenance. The customer needed a more robust pump suitable for the hot TEG and to achieve a large reduction in maintenance. |
Advantages of Hydra-Cell pump on this application |
|
Blowing Agent and Catalyst
Hydra-Cell model |
G03XKSJSNEHG / G04EDRJHFEHG |
Flow rate |
G04 2.28 l/hr (0.5 gph) |
Pressure |
150 - 170 bar (2175 - 2465 psi) |
Location |
Italy |
Type of application |
Blowing Agent and Catalyst |
Liquid |
Proprietary Liquids |
Application details |
This Italian OEM company builds batch-production systems for the manufacture of polyurethane foam. For pumping catalyst and blowing agent the company is using G03 and G04 Hydra-Cell pumps instead of piston pumps or traditional metering pumps. Hydra-Cell is preferred over piston pumps for its reliability and absence of seals. Its advantages over traditional metering pumps include lower cost and smooth flow – there is no need for pulsation dampeners. |
Advantages of Hydra-Cell pump on this application |
Seal-less design, incorporating multiple diaphragms in a single pump head. Pulse-free flow. Simple, compact build (cf.relative bulk of traditional metering pumps). Low maintenance. Proven reliability. |
Deferoxamine Dosing in Pharmaceutical Processes
Hydra-Cell model |
G13XKPJCCTPA |
Flow rate |
150 - 400 L/hr (40 - 106 US gal/hr) |
Pressure |
2 bar (29 psi) |
Location |
Hungary |
Type of application |
Deferoxamine Dosing in Pharmaceutical Processes |
Liquid |
Deferoxamine |
Application details |
Hydra-Cell® pumps corrosive pharmaceutical agent. Teva Pharmaceutical Industries is an Israeli, multinational pharmaceutical giant and the World’s No.1 producer of generic pharmaceuticals. Every single minute of every day, approximately 2,500 Teva packs are dispensed in the EU. At the Company’s Debrecen plant in Hungary, engineers were using a peristaltic pump with a neoprene tube to dose an acidic pharmaceutical agent but were seeking a better solution because of concerns over chemical resistance of the pump tube. Having also tried EPDM peristaltic tubes, the customer considered a magnetic coupled plastic gear pump but Wanner's distributor, Verder Hungary, proposed a Hydra-Cell G13 with polypropylene liquid head and PTFE diaphragms. This combination proved to have the best chemical resistance and the Hydra-Cell multi-diaphragm design provided a virtually pulse free flow. The Hydra-Cell’s ability to run dry without damage was also considered to be a good benefit. |
Advantages of Hydra-Cell pump on this application |
Hydra-Cell was chosen for this application for the following reasons:
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