INOXPA pumps deliver controlled, low shear product transfer to protect product structure and quality. Tri lobe, bi lobe and twin screw designs ensure consistent displacement with minimal pulsation.
The pump range covers a wide viscosity span, from water like liquids to heavy pastes and slurries up to approximately 1,000,000 cP. This allows a single pump technology to support multiple stages of production.
INOXPA pumps are used across a wide range of hygienic manufacturing environments, including food processing, beverage production, dairy operations, pharmaceutical manufacturing and cosmetic processing.
Typical applications include transfer, dosing, filling, unloading from tankers, filtration, blending support and clean in place return.
Food and dairy
Milk, cream, yoghurt, cheese curd, sauces, soups, marinades, syrups, chocolate, tomato paste and dressings
Beverage
Fruit juices, concentrates, beer mash, soft drinks, spirits, flavourings and additives
Bakery and confectionery
Batters, chocoalte, doughs, fillings, jame, icings, sweet pastes and frostings
Pharmaceutical and biotechnology
Creams, ointments, gels, yeast slurries, cell cultures and suspensions
Cosmetics and personal care
Lotions, shampoos, conditioners, liquid soaps, gels and fragrances
Fine chemicals
Solvents, emulsions, coatings, inks and process additives
Products with or without soft solids can be handled while maintaining product integrity.
INOXPA hygienic pumps are manufactured using AISI 316L stainless steel for all product wetted parts. Surface finishes are designed for hygienic service, typically achieving internal roughness values of Ra 0.8 microns or better.
Pumps are supplied with balanced mechanical seals as standard, using materials such as carbon, silicon carbide and FDA compliant elastomers. Seal access is designed to simplify inspection and maintenance.
Connection options include DIN, Clamp, SMS and other hygienic standards. Designs support clean in place and sterilise in place routines, with self draining configurations available on selected models.
