Engine driven pumps usually have the highest water flow rate for pumps. This means they're great for draining large areas or moving high volumes of water. They're perfect for use in remote areas or where electric power sources are not available.
They can be used in conjunction with temporary flood barriers where the end location for the use may not be known, to manage seepage, rainwater, or groundwater.
Where Engine Driven Pumps Are Used
So where are engine pumps used? Well, they're mainly used where there's no mains power supply available, so a standard plug-in pump cannot be used, or even where a submersible pump is not suitable.
These pumps are very common on construction sites and mobile utility fleets where they can be used in any situation and location. However, you shouldn't use them indoors.
They are very popular in agricultural environments as they can be mounted on the back of tractors or machinery and used for the irrigation of crops and watering for livestock.
As these are portable and do not have to be submerged in water, they're also used in the marine industry.
Power Sources and Variations
Engine driven pumps get their power from their own inbuilt engine. These can be both petrol or diesel. Petrol engines are usually considerably cheaper than diesel counterparts.
There are a wide variety of engine pumps that have different power outputs, flow rates, and have different solids handling capability. It's very important if you are pumping salt water, chemicals, trash, or sludge that the right pump is selected as it must be manufactured from the correct components to protect from corrosion.
Choosing the Right Pump for Your Needs
| Feature | Description |
|---|---|
| Lightweight Pumps | Designed to work only with clean water. |
| Durable Pumps | Able to pump heavy mud and sludge. |
For example, if you want a reliable and powerful engine pump, you might consider the kta19 cummins engine, known for its robust performance in demanding environments.
Engine driven pumps offer unmatched versatility for pumping needs where electricity is unavailable or impractical. Their high water flow rates and portability make them ideal for construction, agriculture, marine applications, and emergency flood management.