PP Magnetic Pump NP-150
● Pump Type – Centrifugal, Magnetic Drive, Non Self Priming Pump
● Pump Material – PP (Polypropylene)
● Shaft – Ceramic
● O’Ring, Bush & Bearing – Viton, GFT (Glass filled Teflon), Carbon
● Media – Diluted Acidic Solution
● Max Liquid Density – 1.3
● Max Head – Upto 14 Meter
● Max Flow – 150 Leter per Minute
● Inlet & Outlet – 26 mm x 26 mm (Nozzle / Threaded)
● Motor Specification – 1 HP, NFLP, 2800 RPM, 50 Hz, 1 Phase or 3 Phase
● Magnet – High Power Permanent Rare earth Magnets
● Fluid Temperature – 100° C (Max)
● Seal Type – Sealless
● Impeller – Semi Open Type
Our range of PP Magnetic Drive Pumps
Hydrochloric (HCL) Acid Pumps
We are Leading Hydrochloric (HCL) Acid Chemical Pumps Manufacturers and Suppliers in India. Special Pumps are required for Pumping HCL Acids as Hydrochloric (HCL) Acid is a highly corrosive acid. We specialise in handling HCL Acids and we can give services to all Major Cities like Mumbai, Delhi, Bangalore, Hyderabad, Ahmedabad, Chennai, Kolkata, Surat, Pune, Jaipur, Lucknow, Kanpur, Nagpur, Indore, Thane, Bhopal, Visakhapatnam, Pimpri & Chinchwad, Patna, Vadodara, Ghaziabad, Ludhiana, Agra, Nashik, Faridabad, Meerut, Rajkot, Kalyan & Dombivali, Vasai, Virar, Varanasi, Srinagar, Aurangabad, Dhanbad, Amritsar, Navi Mumbai, Allahabad, Ranchi, Haora, Coimbatore, Jabalpur, Gwalior, Vijayawada, Jodhpur, Madurai, Raipur, Kota, Guwahati, Chandigarh, Solapur, Hubli and Dharwad
Magnetic Drive Pump for HCL Acid
PP Magnetic Drive Pumps which are Sealless Pumps are the finest choice for pumping Hydrochloric Acid at ambient temperature, whereas PVDF Magnetic Drive Pumps are excellent for temperatures above 80 degrees Celsius. Because Magnetic Drive Sealless Pumps are Non-Metallic Pumps, there is no alternative option for Hydrochloric Acid. As we all know, hydrochloric acid is very corrosive, and no metal can withstand it for more than a few hours.
Hydrochloric HCL Acid propertries and Suitable Materials:
The Chemical Hydrochloric Acid is extremely corrosive. This acid is frequently generated during the chlorination of organic compounds. HCL Acids come in a variety of concentrations, from weak solutions to fuming kinds with around 40% HCL. Where contaminants react with the hydrochloric acid in the fluid, such as in circulation applications, the pump may experience an exponential rate of corrosion due to the particles being oxidised. Hydrochloric Acid is generated in large quantities each year, making it a significant chemical in a variety of activities. Chemical firms create it, as well as onsite as a byproduct of other operations. Containment and chemical compatibility are the two most important factors to consider while handling Hydrochloric Acid.
Hydrochloric acid is corrosive to metals in particular. Aluminium, cast iron, and even some stainless steels are inappropriate for HCL Acid because they will severely corrode them. When greater temperatures and pressures are necessary, metals are employed with Hydrochloric Acid.
Hastelloy-C and Titanium are common metals used to handle Hydrochloric Acid at lower concentrations and Hastelloy-C at higher temperatures. Although these metals may withstand powerful acids, they are not corrosion resistant. Because of the predicted corrosive wear, many pumps are designed with a limited life cycle. For certain pumps, this might be as short as a few months since, regardless of the material used, the pump will eventually fail. Pumps made of Polypropylene (PP) Magnetic Drive Pump which are Sealless Pumps are highly recommended for ambient temperatures. PVDF Magnetic Drive Pumps are recommended for temperatures between 70 and 100 degrees.