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Pumping stations, hydrophores

Enhancing Water Infrastructure with Pumping Stations and Hydrophores
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Maximum pumping height, m
Maximum depth, m
Power, kW
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prod installation It is possible to order with installation
Hydrophore EBARA PRA 0.50 M/0,37kW(8m)
Maximum depth, m
8
Maximum pumping height, m
38
Power, kW
0,37
4 704 lei
3 990 lei
prod installation It is possible to order with installation
Hydrophore Marina CAM 40/22
Maximum depth, m
8
Maximum pumping height, m
38
Power, kW
0,6
5 275 lei
4 239 lei
prod installation It is possible to order with installation
Hydrophore Marina CAM 80/22
Maximum depth, m
8
Maximum pumping height, m
38
Power, kW
0,8
5 471 lei
4 397 lei
prod installation It is possible to order with installation
Hydrophore EBARA AGA 0,60 M GO/0,44 kw (9m)
Maximum depth, m
8
Maximum pumping height, m
38
Power, kW
0,5
5 824 lei
4 940 lei
prod installation It is possible to order with installation
Hydrophore Marina CAM 88/22
Maximum depth, m
8
Maximum pumping height, m
46
Power, kW
0,75
6 860 lei
5 513 lei
prod installation It is possible to order with installation
Hydrophore EBARA AGA 1,00 M GO/0,75 kw (9m)
Maximum depth, m
8
Maximum pumping height, m
48
Power, kW
0,8
6 720 lei
5 700 lei
Maximum depth, m
7
Maximum pumping height, m
36
Power, kW
0,75
8 915 lei
6 766 lei
prod installation It is possible to order with installation
Hydrophore EBARA JEXM/A 80 (8m)
Maximum depth, m
8
Maximum pumping height, m
32
Power, kW
0,6
8 512 lei
7 220 lei
Maximum depth, m
7
Maximum pumping height, m
36
Power, kW
0,75
9 789 lei
7 429 lei
prod installation It is possible to order with installation
HydrophoreEBARA JEXM/A 100 (9m)
Maximum depth, m
8
Maximum pumping height, m
38
Power, kW
0,8
8 960 lei
7 600 lei
prod installation It is possible to order with installation
Hydrophore Marina APM 200/25
Maximum depth, m
25
Maximum pumping height, m
32
Power, kW
1,5
13 418 lei
10 782 lei
Shown from 16 by 27 from 27 results

Pumping stations and hydrophores play a crucial role in ensuring a reliable and efficient water supply across various applications. These essential components are integral to managing water distribution, providing consistent pressure, and optimizing fluid transport in both residential and industrial settings.

Pumping Stations:

Definition: A pumping station, also known as a pump station, is a facility equipped with pumps and associated control systems designed to move water from one location to another. These stations are strategically positioned within water distribution networks to overcome elevation differences and ensure the continuous flow of water.

Applications: Pumping stations are employed in various scenarios, including municipal water supply systems, wastewater treatment plants, agricultural irrigation, and industrial processes. Their versatility makes them indispensable for maintaining adequate water pressure and distribution in areas with varying terrain or distance from water sources.

Components: Pumping stations typically consist of pumps, control valves, pipelines, and monitoring systems. The pumps are the workhorses, responsible for lifting and transporting water, while control systems regulate the flow and pressure, ensuring optimal performance.

Hydrophores:

Definition: A hydrophore, short for hydro-pneumatic pressure booster system, is a compact unit incorporating a pump and a pressure vessel. Its primary function is to maintain a consistent water pressure within a closed system, such as a building or a ship.

Operation: Hydrophores operate on a simple yet effective principle. When water pressure drops below a preset level, the pump activates to replenish and pressurize the system. The pressure vessel acts as a buffer, allowing for immediate water delivery upon demand without the pump starting and stopping constantly.

Applications: Hydrophores find applications in various sectors, including residential buildings, commercial complexes, and marine vessels. They ensure a reliable supply of pressurized water for domestic use, firefighting systems, and other applications where consistent water pressure is critical.

Benefits of Pumping Stations and Hydrophores:

Reliability: Both pumping stations and hydrophores contribute to the reliability of water supply systems. Pumping stations ensure water reaches its destination, overcoming geographical challenges, while hydrophores maintain consistent pressure for immediate access.

Efficiency: These systems enhance the efficiency of water distribution by optimizing pressure and flow. Pumping stations enable the transportation of water over long distances, and hydrophores prevent pressure fluctuations within closed systems.

Versatility: Pumping stations adapt to various environments and applications, from municipal water supply to industrial processes. Hydrophores are versatile solutions for maintaining stable water pressure in diverse settings, including buildings and marine vessels.

Conclusion: Enhancing Water Infrastructure with Pumping Stations and Hydrophores

In conclusion, pumping stations and hydrophores are integral components of water infrastructure, ensuring the reliable and efficient distribution of water across different sectors. Their ability to overcome geographical challenges, maintain pressure, and provide immediate access to water makes them indispensable for meeting the diverse needs of modern society.