End suction pumps: How to choose it according to the work to be done?

The wide variety of End Suction Pumps offered by the current market poses a great challenge when choosing the most suitable for your purpose and, at the same time, that is suitable for your budget. It is not the same to choose an end suction pump to extract dirty water from a flooded basement, for example, to select a pump for a decorative fountain in your garden or to irrigate a field in an area that lacks electricity supply. The requirements are different and most cases involve a series of mathematical calculations that will help you find the right characteristics.

However, without entering into these calculations and to address a first orientation article about the choice of end-suction pumps; you will have to focus on the characteristics that are common to all types of pumps and the essential questions that you must ask yourself, independently of the final use of the pump.

Typical parameters of end-suction pumps

To know what is the first thing you should ask the seller at the time of purchase, it is essential that you know a few terms that define the properties of End Suction Pump. These terms or parameters are as follows:

Discharge capacity: It is the speed at which water flows from the source to the discharge point, measured in gallons (GPM) or liters per minute (LPM). It provides the energy to move the water quickly.

Vertical suction height: It is the vertical distance from the water source to the pump. This is important for the drainage of a basement or a deep pond, for example, and, as you will see later, it gives you an idea of the horizontal length that the suction pipe must-have.

Maximum height: It is the total height from the water source to the destination or drains point. This provides the power to move water along a certain vertical distance.

End suction pumps by End Suction Pumps manufacturers India are not limited to cables and outlets. They are the perfect solution for outdoor work and tend to offer a higher discharge capacity than their electrical counterparts. However, the use of these pumps indoors is dangerous due to carbon monoxide emissions.