Product Introduction
High pressure solar water pumps offer sustainable, low-maintenance, and cost-effective water lifting from deep wells or over long distances, operating without electricity bills or fuel. They are ideal for remote areas, providing high-flow, high-lift capabilities, and reducing carbon footprints while allowing for automation.
3SQJ-A/D Performance Data
|
No. |
Pump |
Controller |
Solar Panels |
|||||||
|
WASSERMANN CODE |
Ref.# |
R. flow (m³/h) |
Motor power (HP) |
Stages |
Drive Type |
Power(KW) |
AC Voltage Range (V) |
VOC Range (V) |
MPPT Voltage Range (V) |
|
|
67 |
3SQJ0.8/27-A/D |
2m³/h-130m-96V-750W |
0.8 |
1 |
27 |
AC/DC |
WAD solar 0.75kw |
80-280V |
80-430V |
96-350V |
|
68 |
3SQJ0.8/40-A/D |
2m³/h-190m-150V-1100W |
0.8 |
1.5 |
40 |
AC/DC |
WAD solar 1.1kw |
80-280V |
80-430V |
150-350V |
|
69 |
3SQJ1.8/15-96V-A/D |
3.8m³/h-95m-96V-750W |
1.8 |
1 |
15 |
AC/DC |
WAD solar 0.75kw |
80-280V |
80-430V |
96-350V |
|
70 |
3SQJ1.8/15-150V-A/D |
3.8m³/h-125m-150V-1100W |
1.8 |
1.5 |
15 |
AC/DC |
WAD solar 1.1kw |
80-280V |
80-430V |
150-350V |
|
71 |
3SQJ1.8/18-A/D |
3.8m³/h-155m-170V-1300W |
1.8 |
1.75 |
18 |
AC/DC |
WAD solar 1.3kw |
80-280V |
80-430V |
170-350V |
|
72 |
3SQJ1.8/22-A/D |
3.8m³/h-180m-180V-1500W |
1.8 |
2 |
22 |
AC/DC |
WAD solar 1.5kw |
80-280V |
80-430V |
180-350V |
|
73 |
3SQJ3/8-A/D |
6m³/h-60m-96V-750W |
3 |
1 |
8 |
AC/DC |
WAD solar 0.75kw |
80-280V |
80-430V |
96-350V |
|
74 |
3SQJ3/11-A/D |
6m³/h-85m-150V-1100W |
3 |
1.5 |
11 |
AC/DC |
WAD solar 1.1kw |
80-280V |
80-430V |
150-350V |
|
75 |
3SQJ3/16-A/D |
6m³/h-125m-180V-1500W |
3 |
2 |
16 |
AC/DC |
WAD solar 1.5kw |
80-280V |
80-430V |
180-350V |
|
76 |
3SQJ3/6-A/D |
7m³/h-46m-96V-750W |
3 |
1 |
6 |
AC/DC |
WAD solar 0.75kw |
80-280V |
80-430V |
96-350V |
|
77 |
3SQJ3.5/8-A/D |
8m³/h-62m-150V-1100W |
3.5 |
1.5 |
8 |
AC/DC |
WAD solar 1.1kw |
80-280V |
80-430V |
150-350V |
|
78 |
3SQJ3.5/12-A/D |
8m³/h-90m-180V-1500W |
3.5 |
2 |
12 |
AC/DC |
WAD solar 1.5kw |
80-280V |
80-430V |
180-350V |
Characteristic Curves
3SQJ-A/D Dimenision
|
No. |
WASSERMANN CODE |
Discharge(In) |
A |
B |
C |
D |
|
||||
|
in |
mm |
in |
mm |
in |
mm |
in |
mm |
||||
|
67 |
3SQJ0.8/27-A/D |
1¼" |
33 |
837 |
8 |
205 |
41 |
1042 |
3 |
75 |
|
|
68 |
3SQJ0.8/40-A/D |
1¼" |
47 |
1193 |
8 |
205 |
55 |
1398 |
3 |
75 |
|
|
69 |
3SQJ1.8/15-96V-A/D |
1¼" |
18 |
456 |
8 |
205 |
26 |
661 |
3 |
75 |
|
|
70 |
3SQJ1.8/15-150V-A/D |
1¼" |
18 |
456 |
8 |
205 |
26 |
661 |
3 |
75 |
|
|
71 |
3SQJ1.8/18-A/D |
1¼" |
25 |
634 |
8 |
205 |
33 |
839 |
3 |
75 |
|
|
72 |
3SQJ1.8/22-A/D |
1¼" |
29 |
724 |
8 |
205 |
37 |
929 |
3 |
75 |
|
|
73 |
3SQJ3/8-A/D |
1¼"/ 1½" |
16 |
400 |
8 |
205 |
24 |
605 |
3 |
75 |
|
|
74 |
3SQJ3/11-A/D |
1¼"/ 1½" |
19 |
478 |
8 |
205 |
27 |
683 |
3 |
75 |
|
|
75 |
3SQJ3/16-A/D |
1¼"/ 1½" |
24 |
608 |
8 |
205 |
32 |
813 |
3 |
75 |
|
|
76 |
3SQJ3/6-A/D |
1¼"/ 1½" |
15 |
382 |
8 |
205 |
23 |
587 |
3 |
75 |
|
|
77 |
3SQJ3.5/8-A/D |
1¼"/ 1½" |
18 |
451 |
8 |
205 |
26 |
656 |
3 |
75 |
|
|
78 |
3SQJ3.5/12-A/D |
1¼"/ 1½" |
23 |
584 |
8 |
205 |
31 |
789 |
3 |
75 |
|
Free Accessories
Packaging
Working Principle
A solar submersible pump is a system that uses solar energy to drive a pump. Place solar panels in an area that receives sunlight. The water pump controller is connected to the solar photovoltaic panel and the solar submersible pump at the same time. With a rope connection, the solar submersible pump is positioned vertically within the well. The pump will begin operating when the pump controller is opened. After receiving sunlight, the solar photovoltaic panel transforms it into a direct current. The pump controller transforms the DC electricity into AC power that the pump may use. In this manner, the pump will function correctly and deliver the water to the desired location.
Advantage
- Easy installation
Solar submersible pump systems are simple and quick to install. Every solar panel is connected using waterproof connectors. Similarly, screw connectors without soldering can be used to connect the solar pump, solar panel, and detector to the controller. The pump only has to be attached to existing plumbing and electrical lines.
- Economical than installing mains power
It takes a lot of time and money to install mains power in rural areas. The solar pump device does not require an electrical connection in order to pump water. The wind and the depth to which the cables can be buried no longer limit you.
- Wide range of applications
The photovoltaic water pumping equipment uses photovoltaic power generation, while the high pressure solar water pump is powered by electricity. Water is delivered by solar water pumps using the electricity they produce. There are many uses for solar water pumps, including residential, commercial, agricultural, animal, and more.
Application Scenarios
FAQ
1. Is the solar submersible pump AC or DC?
The pump can connect to both AC and DC. The power source for AC is accessible on practically all power grids. In a scenario where the power source is DC, need Direct Current to function, which is obtained from solar panels.
2. What is a submersible solar water pump?
One kind of solar-powered pump intended to function underwater is the submersible solar pump. They are frequently used to pump water from wells or deep subterranean sources.
