Dosing pump manufacturer in India
We are a No. 1 Manufacturer of chemical dosing pumps, skid mounted chemical dosing pumps, triple-headed dosing pumps, electronic dosing pumps, biocide mill sanitation dosing pumps, and chlorine dosing pump from Nashik, India.
We are instrumental in offering an in depth range of Chemical Dosing Pumps. The offered dosing pumps are appreciated within the market thanks to its hassle-free performance. These dosing pumps are developed by using high-grade material and therefore the latest technology with set universal standards. Also, the offered dosing pumps are checked against several parameters of quality so on assure flawless deliveries.
Our Dosing Pumps are solenoid-operated diaphragm type dosing pumps best fitted to chemical dosing into water & wastewater treatment (RO) applications.
The typical use of those pumps is for chlorine, Alum, Anti-scale, Boiler chemicals dosing, etc.
We have manufacturing thousands of such pumps during a month to provide across the planet. The standard & reliability of dosing pumps are certified and endorsed by thousands of users thus far.
Manufacturer of Dosing Pumps
Parts of a Chemical Dosing System :
Chemical Container or Tank – holds the merchandise to be dosed.
Pump – varies in materials and size; includes an inlet, suction line, and dosing line.
Injector – one-way valve where the chemical is injected into the product; overcomes pressure within the pipe and allows chemical into liquid flow.
Foot Valve – One-way valve attach to the suction line; placed into product drum and keeps the pump primed.
Dosing Line – rigid tube or reinforced hose; are often PE, PVC, or chrome steel for high-pressure use.
Control System – Ensures accuracy; activates and off at specific times. are often an easy flow switch or timer, up to a SCADA central system for various sensors, and therefore the ability to integrate into a bigger system.
Types of Dosing Pumps :
Diaphragm (constant injection) pumps use a diaphragm, piston, and valves on both the inlet and way out to fill and vacant its chamber. Drawing within the piston fills the chamber, and a selected amount of chemical is injected at a preset speed, usually a percentage of the utmost flow. Certain pump models are able of fluctuating dosing rates.
Diaphragm (pulse injection) pumps also use the diaphragm mechanism, but rather than a continuous flow, a solenoid coil takes within the chemical and injects it in pulses. The flow is that the length of your time between pulses. it’s less accurate than the constant injection pump but is straightforward in design and cheap.
During the backward movement of the displacer, the working space increases and a vacuum is made relative to the pressure ahead of the automated suction valve. thanks to this pressure difference, the suction valve opens and therefore the conveyed fluid is sucked into the working space. Once the displacer reaches its rear dead-center position, the suction stroke ends. The suction valve closes by its own weight or by a further spring load. During the forward movement of the displacer, the working space decreases. As a result, the pressure increases. When the pressure increases to slightly above the discharge pressure, the automated discharge valve opens and therefore the fluid volume is now discharged from the working space. within the front dead-center position, the pressure valve closes. Then the subsequent stroke cycle begins.
In most reciprocating positive displacement pump designs, the flow depends only minimally on the discharge pressure. This entails a rigid pressure characterisic function. Furthermore, the flow features a linear dependency on the stroke length and stroke frequency. Reciprocating positive displacement pumps are therefore suited to the conveyance and precise metering of fluids across a good pressure and flow range.