System composition
Pretreatment system: It usually includes multi-media filters,
activated carbon filters, precision filters, etc. Multi-media
filters are used to remove suspended solids, particles and colloids
from raw water. Activated carbon filters can adsorb residual
chlorine, discoloration, odor, organic matter and other substances
in water. Precision filters can remove particles and impurities
larger than 5μm, protecting the subsequent reverse osmosis membrane
modules.
Reverse osmosis system: It is the core part of the equipment,
composed of high-pressure pumps and reverse osmosis membrane
modules. The high-pressure pump increases the feed water pressure,
allowing the raw water to pass through the reverse osmosis membrane
under the action of pressure. Reverse osmosis membranes have tiny
pore sizes, which can effectively block impurities such as salts,
colloids, microorganisms, organic matter, and metal ions, achieving
the separation of water from impurities and producing fresh water.
Control system: Equipped with an advanced automatic control system,
it can achieve the automatic operation, monitoring and management
of the equipment. Through the intelligent control panel, operators
can perform one-click start and stop, parameter setting, fault
diagnosis and other operations. They can also achieve remote
monitoring to understand the real-time operating status of the
equipment, such as pressure, flow rate, water quality and other
parameters.
Post-treatment system: Depending on different water usage
requirements, it may also include post-treatment equipment such as
disinfection devices and pH adjustment devices. Disinfection
equipment is used to kill bacteria and viruses in water to ensure
that the effluent quality meets hygiene standards. The pH
adjustment device can adjust the pH of the effluent to an
appropriate range.
Characteristics
High efficiency
High desalination rate: By adopting advanced reverse osmosis
membrane technology, it can effectively remove various salts,
organic matter, microorganisms and other impurities in water. The
desalination rate usually reaches over 99%, and the produced water
quality is stable and high-quality, which can meet the strict water
quality requirements of different industries.
High water recovery rate: By optimizing the system design and
adopting energy recovery devices, etc., the water recovery rate has
been enhanced, water resource waste has been reduced, and operating
costs have been lowered.
Flexibility and convenience
Modular design: The equipment adopts a modular design, integrating
each processing unit within a standard container, featuring a
compact structure and small floor space. It can be flexibly
combined and configured according to actual needs, facilitating
transportation, installation and commissioning, and can be put into
use quickly.
Strong mobility: The design of the container enables the equipment
to have excellent mobility, allowing it to be easily transported to
different locations. It is suitable for various complex
environments and regions, such as remote areas, islands,
disaster-stricken areas, temporary construction sites, etc.,
providing reliable fresh water supply for these areas.
High degree of automation
Automatic operation: Equipped with an advanced control system, it
can achieve automated operation without the need for frequent
manual operation. The system can automatically complete a series of
process flows such as pretreatment, reverse osmosis and
post-treatment according to preset parameters, and monitor and
adjust the operating status in real time to ensure the stable
operation of the equipment.
Remote monitoring: It supports the remote monitoring function.
Operators can access the operation data of the equipment remotely
anytime and anywhere through terminal devices such as mobile phones
and computers, and conduct remote control and management, which
improves the management efficiency of the equipment and reduces
labor costs.
Low energy consumption and low cost
Energy-saving design: By adopting energy-saving measures such as
variable frequency pump technology and high-efficiency energy
recovery devices, the energy consumption of the equipment has been
reduced. Compared with traditional water treatment equipment, the
energy-saving effect is remarkable and can effectively lower the
operating cost.
Low maintenance cost: The structure of the equipment is simple, and
the modular design makes maintenance and repair more convenient.
Meanwhile, the key components such as reverse osmosis membranes
adopted by the system have a long service life, reducing the
frequency of replacement and lowering maintenance costs.
Strong adaptability
It has a wide range of water quality adaptability: It can adapt to
raw water of different qualities, including seawater, brackish
water, surface water, groundwater, etc. Through reasonable
pretreatment and system configuration, various complex water
qualities can be effectively treated to ensure that the effluent
quality meets the standards.
Strong environmental adaptability: The casing of the equipment is
made of corrosion-resistant materials, which can resist harsh
climatic conditions and environmental corrosion, such as high
temperature, high humidity, salt spray, etc., and is suitable for
water treatment needs in various harsh environments. System
composition
Pretreatment system: It usually includes multi-media filters,
activated carbon filters, precision filters, etc. Multi-media
filters are used to remove suspended solids, particles and colloids
from raw water. Activated carbon filters can adsorb residual
chlorine, discoloration, odor, organic matter and other substances
in water. Precision filters can remove particles and impurities
larger than 5μm, protecting the subsequent reverse osmosis membrane
modules.
Reverse osmosis system: It is the core part of the equipment,
composed of high-pressure pumps and reverse osmosis membrane
modules. The high-pressure pump increases the feed water pressure,
allowing the raw water to pass through the reverse osmosis membrane
under the action of pressure. Reverse osmosis membranes have tiny
pore sizes, which can effectively block impurities such as salts,
colloids, microorganisms, organic matter, and metal ions, achieving
the separation of water from impurities and producing fresh water.
Control system: Equipped with an advanced automatic control system,
it can achieve the automatic operation, monitoring and management
of the equipment. Through the intelligent control panel, operators
can perform one-click start and stop, parameter setting, fault
diagnosis and other operations. They can also achieve remote
monitoring to understand the real-time operating status of the
equipment, such as pressure, flow rate, water quality and other
parameters.
Post-treatment system: Depending on different water usage
requirements, it may also include post-treatment equipment such as
disinfection devices and pH adjustment devices. Disinfection
equipment is used to kill bacteria and viruses in water to ensure
that the effluent quality meets hygiene standards. The pH
adjustment device can adjust the pH of the effluent to an
appropriate range.
Characteristics
High efficiency
High desalination rate: By adopting advanced reverse osmosis
membrane technology, it can effectively remove various salts,
organic matter, microorganisms and other impurities in water. The
desalination rate usually reaches over 99%, and the produced water
quality is stable and high-quality, which can meet the strict water
quality requirements of different industries.
High water recovery rate: By optimizing the system design and
adopting energy recovery devices, etc., the water recovery rate has
been enhanced, water resource waste has been reduced, and operating
costs have been lowered.
Flexibility and convenience
Modular design: The equipment adopts a modular design, integrating
each processing unit within a standard container, featuring a
compact structure and small floor space. It can be flexibly
combined and configured according to actual needs, facilitating
transportation, installation and commissioning, and can be put into
use quickly.
Strong mobility: The design of the container enables the equipment
to have excellent mobility, allowing it to be easily transported to
different locations. It is suitable for various complex
environments and regions, such as remote areas, islands,
disaster-stricken areas, temporary construction sites, etc.,
providing reliable fresh water supply for these areas.
High degree of automation
Automatic operation: Equipped with an advanced control system, it
can achieve automated operation without the need for frequent
manual operation. The system can automatically complete a series of
process flows such as pretreatment, reverse osmosis and
post-treatment according to preset parameters, and monitor and
adjust the operating status in real time to ensure the stable
operation of the equipment.
Remote monitoring: It supports the remote monitoring function.
Operators can access the operation data of the equipment remotely
anytime and anywhere through terminal devices such as mobile phones
and computers, and conduct remote control and management, which
improves the management efficiency of the equipment and reduces
labor costs.
Low energy consumption and low cost
Energy-saving design: By adopting energy-saving measures such as
variable frequency pump technology and high-efficiency energy
recovery devices, the energy consumption of the equipment has been
reduced. Compared with traditional water treatment equipment, the
energy-saving effect is remarkable and can effectively lower the
operating cost.
Low maintenance cost: The structure of the equipment is simple, and
the modular design makes maintenance and repair more convenient.
Meanwhile, the key components such as reverse osmosis membranes
adopted by the system have a long service life, reducing the
frequency of replacement and lowering maintenance costs.
Strong adaptability
It has a wide range of water quality adaptability: It can adapt to
raw water of different qualities, including seawater, brackish
water, surface water, groundwater, etc. Through reasonable
pretreatment and system configuration, various complex water
qualities can be effectively treated to ensure that the effluent
quality meets the standards.
Strong environmental adaptability: The casing of the equipment is
made of corrosion-resistant materials, which can resist harsh
climatic conditions and environmental corrosion, such as high
temperature, high humidity, salt spray, etc., and is suitable for
water treatment needs in various harsh environments.
Technical Parameters
| Solar-powered Desalination Equipment |
| Model NO. | BL | outlet water quality | <500mg/L |
| Operating Temperature | 5-45℃ | PH Value of Inlet | 6-8 |
| Residual Fluoride of Inlet | <0.1ppm | Turbidity of Output Water | <1NTU |
| Power Supply | 220V 50HZ | Power | 20KW |
| TDS of Inlet | ≤35000ppm | TDS of Output Water | ≤700ppm |
| Net Dimensions | 120X48X51cm | Net Weigh | 82KG |
| Output Water Standard | The Output Water meets the national drinking water standards |
Pure Solar Desalination For Sustainable Water
