Agitated Nutsche Filter

Agitated Nutsche filter (ANF) is a filtration technique used in applications such as dye, paint, and pharmaceutical production[1] and waste water treatment.[2] Safety requirements and environmental concerns due to solvent evaporation led to the development of this type of filter wherein filtration under vacuum or pressure can be carried out in closed vessels and solids can be discharged straightaway into a dryer.

Filter features

A typical unit consists of a dished vessel with a perforated plate. The entire vessel can be kept at the desired temperature by using a limpet jacket, jacketed bottom dish and stirrer (blade and shaft) through which heat transfer media can flow. The vessel can be made completely leak-proof for vacuum or pressure service..

Agitator

A multipurpose agitator is the unique feature of this system. The agitator performs a number of operations through movement in axes both parallel and perpendicular to the shaft.[3]

Important points

Power pack

A power pack is a unit attached to the ANF’s agitator system. It consists of an oil tank on which a pump is provided for circulating high-pressure oil through a control valve system and to hydraulic cylinders. These cylinders are provided for vertical movement of the agitator. Operating pressure of the oil varies from 2 kg/cm² to 80 kg/cm² (200 kPa to 8 MPa).

Materials of construction

Agitated Nutsche filters can be fabricated in materials like Hastelloy C-276, C-22, stainless steel, mild steel, and mild steel with rubber lining as per service requirements. Recently, agitated Nutsche filters have been fabricated out of polypropylene fibre-reinforced plastic (PPFRP).

Advantages

Commercial uses

Agitated Nutsche filters are used widely in the production processes of pharmaceutical, chemical and laboratory industries, among others. They are manufactured as agitated Nutsche filter dryers (ANFD'S) for the filtration and drying in the same unit of active pharmaceutical ingredients (API) and chemical compounds.

References

  1. Bennett, Bill; Cole, Graham (2002). Pharmaceutical Production: An Engineering Guide. Institution of Chemical Engineers (IChemE). p. 89. ISBN 0-85295-440-9. Retrieved 2008-06-24.
  2. Cheremisinoff, Nicholas P. (2001). Handbook of Water and Wastewater Treatment Technologies. Butterworth-Heinemann. p. 199. ISBN 0-7506-7498-9. Retrieved 2008-06-24.
  3. Sparkler Filters, Inc.,http://www.google.com/patents/US5139667 2012.
  4. Michelle Frisch, Powder Systems Ltd, http://www.powdersystems.com/pilot-and-plant-production.html, 2012.
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