The SHURflo 9325 Solar Submersible Pump operates most efficiently when wired directly to solar panels. The pump runs on either 12VDC or 24VDC systems. Simple and reliable, they have low amp draw, and are able to draw water from a deep well. The SHURflo 9325 is a positive displacement 3-chamber diaphragm pump that fits in a standard 4" well housing. The output of the pump is 1/2" Hose Barb for easy connectivity. It hooks up in minutes, is durable and reliable, and can be serviced by the user on site.
You can see more details about the SHURflo 9325 submersible solar pump here:
Read more +Another great attribute of the SHURflo 9325 pump is the ability to pump water from a depth of 230 feet. It can pump up to 111 gallons per hour with a maximum current draw of 4.6 amps on a 24V system. The pump is protected by a built-in 50-mesh screen which keeps debris from clogging up the pump.The motor and components are sealed in a simple and reliable manner to keep water from getting inside the pump.
The 9325 model is most efficient when used with a pump controller such as the 902-100 or the 902-200. Both controllers are Linear Current Boosters (LCB), and will increase the current output from the solar panel. The pumps starts earlier in the morning and later in the afternoon, increasing the amount of time the pump is able to pump water. You increase your water output by up to 30%!
You can see more information on the SHURflo pump controllers here:
A submersible solar pumping system pumps water during the day while the sun shines, and stores the water in a tank or cistern. It is much easier to store water than to store energy, so pumping only when solar power is available is generally preferred to running the pump off a battery bank.
The SHURflo 9325 pump's ability to be serviced in the field allows the user to stock spare components, such as the motor, housing, and valves. This minimizes down time without water, which can be crucial in remote locations. The SHURflo 9325 solar submersible pump gives the owner years of reliable water in remote locations.