sales1@chimppumps.com +86-8618305868666
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DCQB
Chimp Pump's ground-mounted solar water pumps are highly efficient and environmentally friendly, designed specifically for areas with unreliable power supply, and can provide reliable water supply for homes, agriculture, livestock, gardens, and more.
Solar Surface Pump Performance Date
| Model | Voltage | Best DC Voltage | Power | Max.Flow | Max.Head | Outlet | Solar panel | |
| (V) | (V) | (W) | (m³/h) | (m) | (inch) | open voltage | Power | |
| DCQB 2.5-36-24-300 | 24 | 30-48 | 300 | 2.5 | 36 | 1" | <50 | ≥450 |
| DCQB 2.5-36-48-300 | 48 | 60-90 | 300 | 2.5 | 36 | 1" | <100 | ≥450 |
| DCQB 2.5-45-48-400 | 48 | 60-90 | 400 | 2.5 | 45 | 1" | <100 | ≥600 |
| DCQB 3.3-40-48-500 | 48 | 60-90 | 500 | 3.3 | 40 | 1" | <100 | ≥800 |
| DCQB 3.3-50-48-550 | 48 | 60-90 | 550 | 3.3 | 50 | 1" | <100 | ≥900 |
| DCQB 3.3-68-72-750 | 72 | 90-120 | 750 | 3.3 | 68 | 1" | <150 | ≥1200 |
How To Choose Your Solar Pump
Let’s match your needs with our solar pumps!
We’ll first compare what you need with the specs of our pumps. After that, we’ll figure out the Actual Pump Head so you can pick the model that actually fits your situation. Once the head is clear, you can just choose the pump based on the flow rate you prefer and the price that works for you.
How to calculate it:
h = the height from the pump up to the tank (head above the pump)
Actual Pump Head = H = h + (h / 10)
Just to give you an idea:
If h = 50 m, then H = 50 + (50 / 10).
To confirm your technical requirements, could you please provide the following details:
The depth of your well (borehole)
The distance between the well and the water tank
Your required water flow rate (L/H)
Chimp Pump's ground-mounted solar water pumps are highly efficient and environmentally friendly, designed specifically for areas with unreliable power supply, and can provide reliable water supply for homes, agriculture, livestock, gardens, and more.
Solar Surface Pump Performance Date
| Model | Voltage | Best DC Voltage | Power | Max.Flow | Max.Head | Outlet | Solar panel | |
| (V) | (V) | (W) | (m³/h) | (m) | (inch) | open voltage | Power | |
| DCQB 2.5-36-24-300 | 24 | 30-48 | 300 | 2.5 | 36 | 1" | <50 | ≥450 |
| DCQB 2.5-36-48-300 | 48 | 60-90 | 300 | 2.5 | 36 | 1" | <100 | ≥450 |
| DCQB 2.5-45-48-400 | 48 | 60-90 | 400 | 2.5 | 45 | 1" | <100 | ≥600 |
| DCQB 3.3-40-48-500 | 48 | 60-90 | 500 | 3.3 | 40 | 1" | <100 | ≥800 |
| DCQB 3.3-50-48-550 | 48 | 60-90 | 550 | 3.3 | 50 | 1" | <100 | ≥900 |
| DCQB 3.3-68-72-750 | 72 | 90-120 | 750 | 3.3 | 68 | 1" | <150 | ≥1200 |
How To Choose Your Solar Pump
Let’s match your needs with our solar pumps!
We’ll first compare what you need with the specs of our pumps. After that, we’ll figure out the Actual Pump Head so you can pick the model that actually fits your situation. Once the head is clear, you can just choose the pump based on the flow rate you prefer and the price that works for you.
How to calculate it:
h = the height from the pump up to the tank (head above the pump)
Actual Pump Head = H = h + (h / 10)
Just to give you an idea:
If h = 50 m, then H = 50 + (50 / 10).
To confirm your technical requirements, could you please provide the following details:
The depth of your well (borehole)
The distance between the well and the water tank
Your required water flow rate (L/H)
