Witte Pumps & Technology GmbH Booster Gear Pump for Polymer Processing Booster-AT

Description
The series is the result of a complete rework of the used core components. The customer benefits from high flexibility of design and standardization. The BOOSTER is available with flange geometries and connections that comply with EN 1092-1 and ANSI B16.5. It goes without saying that the company also offers housing variants for replacing existing pumps and debottlenecking, not to mention solutions for special requirements based on customer requests. By standardising on three gear widths for each centre distance, the distances between the respective pump sizes have been significantly reduced. This means it is now easier than ever to select the best possible – and therefore most cost-effective – pump size for each application. The new gear geometries facilitate differential pressures of up to 320 bar for selected pump sizes. What’s more, the new design is rounded out with the usual variety of different material combinations. The most common of these combinations has to be a stainless-steel or carbon-steel housing with tool steel or aluminium-bronze friction bearings. Advantages: Higher efficiency, thereby - Reduced heat input - Energy saving = cost reduction - Larger viscosity range - Increased throughput of up to 40% without changing the installation size Lower bearing temperature, leading to lower stress on the polymer Increased safety against shaft breakage due to overload Simplified spare part management thanks to the use of identical components for all series
Description
The series is the result of a complete rework of the used core components. The customer benefits from high flexibility of design and standardization. The BOOSTER is available with flange geometries and connections that comply with EN 1092-1 and ANSI B16.5. It goes without saying that the company also offers housing variants for replacing existing pumps and debottlenecking, not to mention solutions for special requirements based on customer requests. By standardising on three gear widths for each centre distance, the distances between the respective pump sizes have been significantly reduced. This means it is now easier than ever to select the best possible – and therefore most cost-effective – pump size for each application. The new gear geometries facilitate differential pressures of up to 320 bar for selected pump sizes. What’s more, the new design is rounded out with the usual variety of different material combinations. The most common of these combinations has to be a stainless-steel or carbon-steel housing with tool steel or aluminium-bronze friction bearings. Advantages: Higher efficiency, thereby - Reduced heat input - Energy saving = cost reduction - Larger viscosity range - Increased throughput of up to 40% without changing the installation size Lower bearing temperature, leading to lower stress on the polymer Increased safety against shaft breakage due to overload Simplified spare part management thanks to the use of identical components for all series

Suppliers

Company
Product
Description
Supplier Links
Booster Gear Pump for Polymer Processing - Booster-AT - Witte Pumps & Technology GmbH
Tornesch, Germany
Booster Gear Pump for Polymer Processing
Booster-AT
Booster Gear Pump for Polymer Processing Booster-AT
The series is the result of a complete rework of the used core components. The customer benefits from high flexibility of design and standardization. The BOOSTER is available with flange geometries and connections that comply with EN 1092-1 and ANSI B16.5. It goes without saying that the company also offers housing variants for replacing existing pumps and debottlenecking, not to mention solutions for special requirements based on customer requests. By standardising on three gear widths for each centre distance, the distances between the respective pump sizes have been significantly reduced. This means it is now easier than ever to select the best possible – and therefore most cost-effective – pump size for each application. The new gear geometries facilitate differential pressures of up to 320 bar for selected pump sizes. What’s more, the new design is rounded out with the usual variety of different material combinations. The most common of these combinations has to be a stainless-steel or carbon-steel housing with tool steel or aluminium-bronze friction bearings. Advantages: Higher efficiency, thereby - Reduced heat input - Energy saving = cost reduction - Larger viscosity range - Increased throughput of up to 40% without changing the installation size Lower bearing temperature, leading to lower stress on the polymer Increased safety against shaft breakage due to overload Simplified spare part management thanks to the use of identical components for all series

The series is the result of a complete rework of the used core components. The customer benefits from high flexibility of design and standardization. The BOOSTER is available with flange geometries and connections that comply with EN 1092-1 and ANSI B16.5. It goes without saying that the company also offers housing variants for replacing existing pumps and debottlenecking, not to mention solutions for special requirements based on customer requests. By standardising on three gear widths for each centre distance, the distances between the respective pump sizes have been significantly reduced. This means it is now easier than ever to select the best possible – and therefore most cost-effective – pump size for each application.

The new gear geometries facilitate differential pressures of up to 320 bar for selected pump sizes. What’s more, the new design is rounded out with the usual variety of different material combinations. The most common of these combinations has to be a stainless-steel or carbon-steel housing with tool steel or aluminium-bronze friction bearings.

Advantages:

  • Higher efficiency, thereby
    - Reduced heat input
    - Energy saving = cost reduction
    - Larger viscosity range
    - Increased throughput of up to 40% without changing the installation size
  • Lower bearing temperature, leading to lower stress on the polymer
  • Increased safety against shaft breakage due to overload
  • Simplified spare part management thanks to the use of identical components for all series
Supplier's Site

Technical Specifications

  Witte Pumps & Technology GmbH
Product Category Liquid Handling Pumps
Product Number Booster-AT
Product Name Booster Gear Pump for Polymer Processing
Pump Type Booster Pump; Gear Pump; Positive Displacement Pump
Discharge Pressure 4641.2 psi (3263 m of Water)
Power Source NoSourceIncluded
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