A set of pumps designed and built based on international standards to provide water pressure required for various applications are known as booster pumps.
Booster pumps are used in the following cases:
- Water supply to buildings and large construction buildings such as towers, hospitals and residential units with high number of floors
- In order to extinguish the fire of buildings and industrial units
- Industrial water supply for industries and factories
- Agricultural and irrigation uses
- Tontab Pars Technologies Company has been able to design and manufacture smart booster pumps based on world standards for various firefighting, water supply and agricultural applications.
- This company manufactures smart booster pumps by considering the NFPA20 standard as well as the European BS EN 12845 standard, depending on the customer’s needs, regarding the design method and the applicable technical requirements in the manufacture of fire booster pumps.
- In smart booster pumps, using the PLC controller and pressure sensors embedded in the pump line, if the pressure of the supply line decreases, the pumps will enter the circuit sequentially and provide the required pressure of the system.
- In this type of booster pumps, in order to reduce the possibility of pump jamming in times of crisis due to their long-term non-operation, they are activated automatically in different periods of time so that the system is always in standby mode.
- It is possible to view the system pressure, the operation status of the pumps, the errors applied in the various mechanical and electrical parts of the booster pump set, through the screen, and also to notify the relevant authorities of these errors, among the capabilities of the smart booster pumps.
- These booster pumps are designed and manufactured in two types, smart and normal, depending on the customer’s wishes.
- Water supply booster pumps are designed and produced in two types, fixed speed and variable speed. In variable speed booster pumps, depending on the required water flow rate, the appropriate speed of the pumps is considered intelligently using installed drivers and PLC control system. In addition to reducing the depreciation of the pumps due to the reduction in the number of turning them on and off, this issue also has a significant contribution in reducing the consumption of electricity.