Booster Pump Uses:
• Water supply of various buildings such as towers, hospitals, schools, sports halls, residential and apartment complexes, etc.
• Supply of fire fighting system
• Agricultural and irrigation applications
• Industrial water supply for factories and industries

Advantages of booster pump:
• When consumer fluctuations are high, instead of using a large pump, small pumps are used as booster pumps to prevent some of them from working and prevent others from working unnecessarily. As a result, energy consumption is minimized.
• Due to the fact that the booster pump is made up of various interconnected components, the booster pump can be easily transported and installed in a convenient location by removing these components.
• The permanent operation of the booster pump can be guaranteed by installing a reservation pump and when a pump fails, the reservation pump enters the circuit to prevent system interruption.
• Has in-service service capability.

Types of booster pumps:
Booster pumps are classified in terms of efficiency in fixed and variable speed batches.

Fixed round booster pump:
• These booster pumps are mostly used for fire fighting systems. In this system, the electropumps reach their nominal speed at the start and supply the necessary pressure.

 

Variable round booster pump:
• These booster pumps are most commonly used for the metering system. Electropumps enter the circuit at low speeds and reach nominal speeds in the event of a pressure drop in the electromotor system.

Single pump booster pump:
Single-pump booster pumps are used for low and medium water consumption in water supply networks. This type of booster pump is fully integrated and sufficient for use when collector is fed into the water supply and output collector into the consumption grid. Power supply needs control panel and command. Booster pumps with two or more fixed pumps are classified into two sets with advanced electropump (jacky pump) and without advanced electropump.

Booster Pump with Leading Electropump:
These booster pumps consist of a leading electropump (jackie pump) and one or more main electropumps, in which the capacity of the leading electropump is lower than that of the main electropump, but its pressure is equal to that of the main electropump.

Booster pump without leading electropump:
These booster pumps are made of two or more main electropumps with the same specifications.

Boosterpump Components:
Booster pumps are designed based on two main components of maximum water consumption and minimum pressure, and hourly fluctuations in water consumption are also an important factor in determining its characteristics.

Type of pumps in booster pump for operation:
The pumps are divided into three types according to their function in booster pumps:
MAIN PUMP: The pump or pumps that are responsible for supplying the entire system.
JOCKEY PUMP: Large pumps are usually used when Dubai needs a large system and consequently the propulsion motors require a great deal of energy to drive the pump. In the consumption pattern,
There are times when discharge is low on demand and can be supplied with a small pump and does not require the use of a large pump (water demand is normally less than 2 times the peak demand per hour of consumption). That was it
Conditions are more than 5% of consumption time). At the same time, in order to save energy, as well as to reduce the depreciation of large pumps with a lower capacity than the main pump, they choose to only light up the pump and meet the needs of the system. The name of the pump is the Jackie Pump or the leading pump. Jackie is used to re-supply the case where the pump discharge and the pressure relief effect on the system are present.
STANDBY PUMP: Usually in places where water supply is essential and interruptions cause problems (such as hospitals, factories, etc.), the pump is placed on the booster pump until it is damaged. Or stop one of the pumps This pump comes into operation and does not interrupt the water supply. This pump is called a reservation pump. In the booster pumps used for firefighting, a reservation pump must be installed on the booster pump.

Booster Pump Components:
The main components of a fixed and variable round booster pump are:
• Electropumps collection
• Suction section
• Donation section
• Original chassis
• Other key components
The operation of fixed round booster pumps is controlled by the control panel and the steering wheel remote control, the diaphragm source and the high and low pressure switches.
Electropump:
Most booster pumps use an electric motor as a pump actuator. Two or more electropumps that are parallel to each other on one main chassis constitute the sum of the electropumps of a booster pump. The amount of electromotor power consumed depends on the pump. It has to be responsive to different regions and different conditions. The electromotor must also be reliable for IP (IP) issues.

Suction section:
The booster pump suction unit comprises a pipe collector that, through valves and fittings, requires the suction of the electropumps and the output of the water storage tank. Valves and fittings in this section are:
Disconnect and connect valve
Filter
Seismic
Flange

Donation section:
The discharge section is also a pipe collector that is connected to the consumption grid by the valves and fittings required by the electropump outlet. Valves in this section include:
Disconnect and connect valve
One-way valve
Seismic
Flange and Masure nut
Cerebral and Convertible

Suction and flow collector:
Pumps are connected to the suction collector and fluid is pumped through the collector. The pump outputs are connected to the collector by means of fittings, valves and flanges, and the fluid is discharged through the collector. Collectors must be galvanized for water use to be hygienically approved. In collector fire systems, collectors must be seamless and capable of withstanding high pressure.
Valve Valve: We use valve valves to cut off the flow of fluid when trying to remove one of the pumps for repair or in any other way. It is usually used for large dimensions of steel valves and for small dimensions of brass valves.
One-way valve: One-way valves use one-way valves to prevent water from pumping into the pump and preventing one hundred hits.
Filter: In many cases fluid used for containment contains fine particles or objects that must be prevented from entering the pump in order not to reach the one hundred fog pump. Therefore a filter is used for this purpose. In fire-fighting systems, it is recommended that a separate filter be provided for each pump so that if a line is closed,