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Sartoflow® 20, 1.4435, F/R38/P26, DIN

The Sartoflow® 20 stainless steel holder with hydraulic is designed for TFF applications from 200 L to 2500 L volumes. The holder is optimized for use with 4 Sartocon® up to 20 Sartocube® production scale TFF cassettes (max. 14 m2). Typical applications of the Sartoflow® 20 system includes concentration and diafiltration of proteins, vaccines, antibodies, oligo nucleotides, endotoxin removal etc., cell harvesting and clarification processes.

Item no.:  179-2DD380260E

 

* 72 Hours Turnaround Time

Sartoflow® 20 holder

The Sartoflow® 20 stainless steel holder is optimized for the use with up to twenty Sartocon® production scale TFF cassettes or four Sartocubes® (max. 14 m²).

It is designed for applications from 200 L to 2500 L volume.

Target use:

  • process development
  • preclinical trials
  • clinical trials
  • pilot lots
  • production

Sartocon® cassettes are available with Hydrosart® or Polyethersulfone membrane types. The Sartoflow® 20 covers the whole range of pharmaceutical and biotechnological TFF applications like concentration and diafiltration of proteins, vaccines, viruses, antibodies, oligo nucleotides, endotoxin removal etc. The system is also suitable for cell harvesting and clarification processes.

The TFF holder features the latest advances in TFF design:

  • vertical orientation of cassettes
  • self draining systems
  • inline steamable
  • no welds
  • minimized hold up volume

Connections (Physical)

  • Connections
    DIN
  • Connectors
    1" - 1½" Tri Clamp sanitary flange (DN25)

Dimensions

  • Dimensions WxDxH
    240 × 348 × 1230 mm
  • Feed / Retentate
    38 mm
  • Permeate
    26 mm

General Specifications

  • Cassette Capacity
    Sartocon® Cassettes: ≤ 20
  • Electro Polished
    Electro Polished
  • Mirror Inverted
    No
  • Surface Roughness of Wetted Parts
    Ra <= 0.6 µm

Materials of Construction

  • Filter- and Clamping Plate Material
    316L (1.4435) stainless steel

Product Information

  • Type
    Stainless steel holder
Hydrosart® Microfilter
Item no.
M_Hydrosart_Microfilter

Hydrosart® high performance membrane is a stabilized cellulose based membrane optimized for biopharmaceutical process applications. It is stable across a broad pH range and extremely hydrophilic, making it non-protein binding and virtually non-fouling.

  • Ultra-low protein adsorption
  • Easy cleaning
  • Higher yields
  • Long product life
  • Retains its performance even with repeated re-use without fouling or loss of retention

Polyethersulfone Ultrafilter
Item no.
M_Polyethersulfone_Ultrafilter

PES membrane is a membrane polymer that is well established in the biotechnological and pharmaceutical industries. It is a stable polymer featuring a broad pH and temperature range. PES membranes are designed for use in the biotechnical and pharmaceutical industries.

  • Stable polymer featuring a broad pH and temperature range

  • Minimal adsorption of proteins, viruses, etc.
  • Membrane regeneration, storage and depyrogenation can be accomplished by using NaOH even at elevated temperatures
  • Membrane retention is unaffected by repeated re-use

Hydrosart® Ultrafilter
Item no.
M_Hydrosart_Ultrafilter

Hydrosart® high performance membrane is a stabilized cellulose based membrane optimized for biopharmaceutical process applications. It is stable across a broad pH range and extremely hydrophilic, making it non-protein binding and virtually non-fouling.

  • Ultra-low protein adsorption
  • Easy cleaning
  • Higher yields
  • Long product life
  • Retains its performance even with repeated use without fouling or loss of retention

Polyethersulfone Microfilter
Item no.
M_Polyethersulfone_Microfilter

PES membrane is a membrane polymer that is well established in the biotechnological and pharmaceutical industries. It is a stable polymer featuring a broad pH and temperature range. PES membranes are designed for use in the biotechnical and pharmaceutical industries.

  • Stable polymer featuring a broad pH and temperature range

  • Minimal adsorption of proteins, viruses, etc.
  • Membrane regeneration, storage and depyrogenation can be accomplished by using NaOH even at elevated temperatures
  • Membrane retention is unaffected by repeated re-use