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ActionsPall® Minimate™
Tangential Flow Filtration Systems
Minimate™ Streamlines Laboratory-Scale Concentration,
Desalting, and Buffer Exchange Processes
Plug-n-play design. Plug in a Minimate™ TFF capsule, add sample, and turn on the pump to start processing. The Minimate™ TFF system includes all the hardware, tubing, and fittings needed to get your TFF process up and running quickly.
High concentration factors. The low system working volume
achieved through the use of a conical bottom reservoir and compact design
enables high concentration factors from up to 1 L or more of sample to be
achieved. Concentrate your sample down to as little as 5 mL.
All wetted components are made from low protein binding,
chemically resistant, biologically safe materials.
Minimal sample carryover. The system has a very low volume
and interior fluid contact area. Fluid does not pass through and is not
retained in the pump mechanism.
Roller head peristaltic pumps provide gentle processing and
are the choice for critical applications such as fragile biomolecules.
System components are designed for easy assembly and
disassembly; no tools required. Tubing and fitting replacement is simple and
quick. Slip nuts for luer locks eliminate tubing kinks.
Pall® Sentino® Membrane Dispenser
- Simple design, reliable dispense
- Easy to load — Simple loading and unloading of refill pack at any point during use.
- No jamming — Guide plates assist loading and keep refill web in alignment during use to avoid jamming of the instrument.
- Soft touch keypad — Aseptically dispense a disc of membrane at the touch of a button.
- Designed to hold 200 membrane discs — Saves time by eliminating interruptions to reload dispenser.
- Compact design — Small footprint frees valuable bench top space and provides flexibility in arranging workspace for optimal efficiency and workflow.
- Miniaturized refill pack — Sized to minimize storage space resulting in less packaging material waste.
- Portable — Use plugged into main power source or charge battery for use anywhere. Indicator lights let you know when the battery charge is running low.
- Easy to clean — Sanitize with standard laboratory disinfectants.
Sentino® Microbiology Pump
Maximize Workspace and Minimize Contamination Risk
• Compact design – Small footprint frees valuable benchtop space and provides flexibility in arranging workspace for optimal efficiency and workflow.
• Minimal height – Allows convenient use in a hood fitted with a sash that can limit upward range of motion during routine analysis.
• Disposable fluid path – Simple to load and completely disposable to eliminate potential biofilm build-up. There is no need to clean, wrap, and autoclave a bulky multi-place manifold. The potential for sporadic and unnecessary contamination is removed.
• Peristaltic flow design – Pulls sample through the filter and fluid path eliminating the need for a vacuum source. Also ensures the fluid flows in one direction without the potential for back-up and contamination of analysis.
• Fixed filtration parameters – Meets the Membrane Filter (MF) Technique filtration parameters described in U.S. EPA, ISO, and ASTM standards. Fixed conditions also prevent changes to filtration parameters that may adversely affect colony recoveries and integrity of results.
• Safety feature – Eliminates a fluid trap under the vacuum, preventing implosion accidents.
• Easy to clean – Shape of unit and materials of construction are easy to wipe down with standard laboratory disinfectants.
• Simple operation – Soft-touch keypad has simple on/off function and pulse features to control filtration. No complicated programming necessary to validate.
Specifications:
Materials of Construction
• Housing Material: Polycarbonate ABS-blended polymer
• Keypad and Label: Polyester
• Pump Head: PEI with PTFE-filled PBT rollers
• Fluid Path Adaptor: Polypropylene
• Hose Material: Thermoplastic elastomer
Dimensions
• Length: 13.6 cm (5.4 in.)
• Width: 9.5 cm (3.7 in.)
• Height: 10.4 cm (4.1 in.)
• Weight: 680 g (1.5 lbs.)
• Hose Dimensions: 4.8 mm (3/16 in.) ID x 7.9 mm (5/16 in.) OD [1.6 mm (1/16 in.) wall thickness]
Temperature Range
• Operation: 15-30 ºC (59-86 ºF)
• Storage: -15-45 ºC (5-113 ºF)
• Fluid path should be allowed to equilibrate to operation range before use
• Battery
• Voltage: 12.0 V
• Type: NiMH (nickel metal hydride)
DC Supply
• Voltage: 24.0 V
• AC/DC Power Transformer
• 24 VDC 1.6 Amp 100-240 VAC, 47-63 Hz
• Input Interface: IEC 320 3-pin socket
• Output Interface (Power Entry Plug): 2.5 mm barrel jack
Power Cord
• 13186: IEC 320 connector and NEMA 5-15P grounded plug, IEC 320 connector and European CEE 7/7 plug, IEC 320 connector and UK BS1363 plug
Pall® Laboratory Manifold
A unique microbiology manifold that allows you to optimize testing without sacrificing cleanliness. With interchangeable components and coupling devices, the manifold takes direction from you.
- No more “dirty” manifolds: Microbial cross contamination of your sample is a thing of the past. The manifold is designed to fit most laboratory autoclaves by separating into manageable components.
- Double testing capacity: A larger manifold is at your reach with just a coupler. Modular design allows two manifolds to combine yielding a standard 6-place manifold which can be easily separated for disinfection and/or sterilization.
- Manifolds that adapt to you: Whether you are right or left-handed, setting up your test workflow is second nature. The components interchangeable and designed with a simple slip fit to the manifold.
Applications
Bioburden testing of filterable products is performed to determine the number of viable and reproducible microorganisms. By recovering organisms on and in a membrane filter, processing efficiency and the microbial quality of a sample can be evaluated to assure that the product is not harmful to the intended recipient.
Detecting spoilage microorganisms are critical for foods and beverages as they may be responsible for the deterioration of sensory qualities (visual, texture, and taste) and may potentially render the product harmful for consumption. Using membrane filtration, detection of these spoilage microorganisms keep contaminated items from reaching the market.
Monitoring for compliance to drinking water standards using Membrane Filtration Technique, determines if there are levels of pathogenic microorganisms in treated water or wastewater. These microorganisms include coliforms such as Escherichia coli (E. coli) and Legionella which are both classified as pathogens.