Chemical Process Pump Manufacturer in India
Jay Khodhiyar is the most trusted industrial pump manufacturer in Ahmedabad, India, for supplying state-of-the-art pump technology. Designed for long life and smooth service, our Chemical Process Pumps are engineered for providing superior performance in various industrial applications.
Our Chemical Process Pumps are developed using the best technology and material in accordance with international quality standards. Available in various size specifications and surface finishing to fulfill diverse industrial needs, our pumps are the most effective and efficient solutions to your toughest pumping problems.
- High-Efficiency Rate
- Low Power Consumption
- Durable
- Easy To Install
- Low Maintenance
Capacity | 4000 m3/hr |
---|---|
TDH H | Up To 150 Mtr. |
Temperature | 200° C |
Pressure | 16 BAR |
MOC | C.I Cast Steel, S.S 316, S.S 304, Other MOC |
Impeller Type | Closed and Semi Open |
Download Chemical Pump Catalog
Applications
Chemical Process Industries
Organic & Inorganic Liquids Refineries
Fertilizer Plants
Dyes & Intermediates
Bulk Drugs and Pharmaceutical
Effluent Treatment Plants
Heating and Air Conditioning Plants
Cooling Towers
Sugar Plant
Fire Fighting
Water Supply
Power and Steel
Pulp and Paper
Volatile Liquids
Cement
Thermic Fluid
Agriculture Textile
Oil Extraction and Waste Oil Refineries
Jet Dyeing
Ensure an Efficient
Chemical Flow with Our Chemical Pumps!
What is a Chemical Process Pump?
Chemical process pumps are specialized pumps designed for transferring liquids in chemical processing applications. They handle the complex and demanding needs of various industrial applications.
These pumps are essentially used in chemical transferring plants for highly corrosive fluids and viscous liquids. Chemical pumps are widely known for their anti-corrosion, abrasion, and robust construction.
How Does Chemical Process Pump Work?
- Chemical Pumps are typically powered by electric motors, which provide the energy to drive the pumping mechanism.
- The motor drives a rotating impeller inside the pump housing. The impeller has vanes or blades that are angled to capture and accelerate the liquid.
- As the impeller rotates, centrifugal force throws the liquid outwards from the center of the impeller to the outer edges of the pump housing.
- The increased velocity of the liquid creates pressure, which forces the liquid out of the discharge outlet of the pump.
- The pressure difference between the suction inlet and the discharge outlet creates a suction that draws more liquid into the pump, maintaining the flow.