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Vacuum Laboratory Pumps

Maintenance-friendly and performant pumps for smooth and reliable filtration. A complete product range for one to 6-branch filtration systems. Sartorius pumps use state of the art technology making robustness one of their best features. Whether you would like to use a vacuum flask or prefer a flask-free solution (Microsart® e.jet), Sartorius pumps will answer all your needs and help you save space without compromising on performance.

   

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Products (2)

Water jet pump, with G ¾" female thread

$163.00

1 Piece
Pump Flow
no information available
Maximum Vacuum
Variable
Type of Pump
Water Jet Pump
Flow Rate
Variable
Manual vacuum pump with manometer

$220.00

1 Piece
Pump Flow
no information available
Maximum Vacuum
Variable
Type of Pump
Hand-Operated Vacuum Pump
Flow Rate
Variable
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The Microsart® e.jet vacuum laboratory pump is designed to create sufficient vacuum for filtration and unlike traditional vacuum pumps, it allows simultaneous transfer of the filtered liquid to waste. The Microsart® e.jet Transfer Pump is ideal for sample filtration in Microbiology achieving a trans membrane pressure below 700 mbar in compliance with ISO 8199 (Water quality - General guidance on the enumeration of micro-organisms by culture). Constant flow rates and a defined maximum vacuum guarantee smooth and reliable filtration. The Microsart® e.jet Transfer Pump greatly reduces operating complexity and is an ideal accessory for 3-branch and 1-branch manifolds. The Microsart® e.jet is designed to pump both gas and liquids, meaning no loss of efficiency or malfunctions from water drawn into the pump head.

The vacuum pump series Microsart® maxi.vac and Microsart® mini.vac provide up to date technology for daily use in the Microbiology laboratory environment. They are electric neoprene membrane pumps and therefore oil- and maintenance-free with a low noise level. The vacuum produced by these pumps is controlled and can be easily adjusted to your specifications. Thus sensitive cells (e.g. bacteria) are concentrated on the surface of a membrane filter under better conditions, which results in decreased mortality of the cells, higher recovery rates and shorter incubation times.