Polymer Gear Pumps  Manufacturers, Traders, Suppliers

WITTE offers pumps for applications in borderline areas. We develop durable, standardised or customised solutions of the highest precision. For more than 35 years WITTE has specialised in the development of gear pumps for industrial applications. It is our endeavour to always guarantee the customer the highest level of process reliability and to match the pumps exactly to the application and the process. In this way we guarantee the best efficiency and durability of our pumps. Reduced maintenance costs and intervals due to matched material pairings guarantee a fast payback the investment costs. We have been working successfully for many years with well-known companies and innovation drivers from the industry and are constantly developing new solutions. Should we not have the right solution at hand, we develop together with our customers the suitable product. We accompany our customers during the entire project from the prototype to the final product. Experts from sales, project management and design form the project and development team and keep us informed of the project status at all times. More than 35 years of experience and the knowledge of our competence team flow into each of our pumps.

Housing
Non-alloyed and alloyed steels · cast steel · with optional surface coating
Gears
Nitrated steel · tool steel · special steel · with optional surface coating · helical gearing · herringbone gearing
Friction Bearings
Tool steel · NiAg (nickel-silver) · Al-bronze · special materials · with optional surface coating
Shaft Seals
(Vacuum) viscoseal · stuffing box · combination of viscoseal and stuffing box · double-action, buffered mechanical seal
Heating Systems
Heat transfer oil · steam
Viscosity
up to 40000 Pas
Temperature
up to 350°C (662°F)
Inlet pressure
Vacuum to max. 40 bar (580 psig)
Differential Pressure
Up to 250 bar (3225 psig)
The values listed are maximum values and must not coincide under certain circumstances.
Pump Sizes
From 22/22 (4.7 cm3/U - 10 kg/h) up to 280/280 (12,000 cm3/U - 30,000 kg/h). Intermediate sizes, with wider gear wheels for lower differential pressure, are available as standard, e.g. 152/254 (3,170 cm3/U).

Polymer processing
PET · PBT · PA · PC · PS · SAN · ABS · HIPS · PP · PE · POM · Bio-polymers
There are two types of Poly:
a) Standard design: The suction flange is also the fastening flange to the reactor.
b) The Low NPSH design: In this case, the fastening flange is designed as an alifning flange and is seated on the delivery side of the pump. The pump is clamped between the aligning flange and the reactor flange. This design provides an extremly large and shkort suction opening, promotin product flow. The oening can be circular, squate or rectangular.
Low NPSH Version
The loss of pressure on the suction side of the pump is dependent upon a number of factors. Parameters like viscosity and flow rate are largely predetermined by the process. According to the Hagen-Poiseuille equation, the pressure loss is linearly proportional to the length of the inlet path and inversely proportional to the fourth power of the diameter. The unique WITTE low NPSH version utilises this knowledge and offers an extremely large diameter, short suction inlet.
With the Low NPSH version, the connecting flange is foreseen as a loose flange and is located on the pressure side of the pump. The pump itself is connected between the loose flange and the reactor flange. This configuration allows an extremely large diameter, short suction inlet to be incorporated into the housing. The shape of the inlet is variable and can for example be round, quadratic or square.
Due to the fact that the pressure losses at the suction side have been reduced to a minimum, even critical applications can be reliably realised, e.g. discharging high viscosity or foaming melts.
Types of Seals:
Vacuum viscoseal with stuffing box
The vacuum viscoseal is a special version of the viscoseal and can also be provided with heating or cooling. The return flow to the suction side is adjusted by means of a needle valve, so that the choked product forms a barrier. This makes it possible to operate the pump with vacuum conditions on the suction side. Due to the fact that it is a dynamic seal, it is often combined with a buffered stuffing box. This combination prevents air from entering the reactor, even when the pump is at a standstill.
Stuffing Box
The stuffing box is a simple (static) seal for WITTE gear pumps. It can be provided with buffering if so desired. The range of application is similar to that of the viscoseal. The standard material used for the packing rings is graphite but it goes without saying, that other materials are also available.
Vacuum viscoseal with lip seal
As an alternative, the vacuum viscoseal can also be combined with a lip seal instead of a stuffing box. The buffer fluid of this static shaft seal acts as barrier. If the pump is stopped for a short time this design prevents air getting sucked in the pump through the shaft seal.
Herringbone Gearing
The herringbone gearing reduces the pulsation of the medium being conveyed in comparison to straight and helical gearing. This is a great advantage, particularly for polymers.
Products with a high solids content are conveyed better, as the product is more easily displaced from between spaces between the teeth. The polymer is also subjected to less stress.  This is particularly advantageous for highly sensitive polymers, as both shearing and heating effects are reduced during the pumping process.
Existing gear pumps can be converted to herringbone gearing. This merely entails replacement of the friction bearings and shafts. Sizes available are: 4 (45/45) to 11 (224/224).
Advantages at a glance:

• larger diameter shaft journals, thus increased differential pressure
• Less pulsation
• Less stress on the polymers /shearing
• Decreased product heating effect
• Existing pumps can be converted