| Customization: | Available |
|---|---|
| Certification: | ISO9001, CE |
| Salt Rejection Rate: | 99.5% |
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Solar Containerized Sea Water Desalination Plant SWRO Mobile Seawater Desalination Machine
In a world facing growing water scarcity challenges, innovative solutions are crucial to ensure access to clean, fresh water for
communities and industries alike. Enter the Solar Powered Containerized Sea Water Desalination (SWRO) Plant, a cutting-edge
technology that harnesses the sun's energy to provide a sustainable source of potable water. In this article, we explore how this
remarkable system works and its significant environmental and economic benefits.
Solar Powered SWRO Plant: A Sustainable Solution
The Solar Powered Containerized SWRO Plant is a marvel of engineering that combines solar energy with advanced desalination
technology. This system primarily relies on solar panels to generate electricity, making it not only cost-effective but also environmentally
friendly. Here's how it works:
Solar Panels: The heart of the system comprises photovoltaic solar panels installed on-site. These panels capture sunlight and convert
it into electricity to power the entire desalination process. This renewable energy source significantly reduces the carbon footprint
associated with traditional desalination methods.
Reverse Osmosis Technology: The SWRO plant uses a high-pressure reverse osmosis process to remove salt and impurities
from seawater, transforming it into clean, drinkable water. This technology is highly efficient and requires minimal maintenance,
ensuring a reliable and continuous water supply.
Containerized Design: One of the key advantages of this system is its compact and modular design. Housed in a shipping container,
it can be easily transported and deployed to various locations, especially in remote or disaster-stricken areas where clean water is
urgently needed.
Brackish water:0,5 to 10 g/l, (TDS range: 500ppm to 10000ppm)
Northern Sea close to estuaries :21 g/l (TDS range: 10000ppm to 21000ppm)
Atlantic Ocean :35 g/l (TDS 35000ppm)
Mediterranean Sea :38 g/l (TDS 38000ppm)
Arabian Sea :45 g/l (TDS45000ppm)
Red sea: 41g/L (TDS 41000ppm)
Dead Sea :300 g/l. (TDS 300,000ppm)
SWRO Process steps introduction
| Pre-treatment | Feed water pump, Stainless steel 316L or Duplex | Provide pressure for filters; |
| Quartz sand filter | Remove suspended particle and large impurity. In this system; | |
| Active Carbon Filter (option) | Remove the color, free chloride, organic matter, harmful matter, ect; | |
| Anti-scalant system | To add chemicals to remove some impurities and prolong thememebranes using/washing time(prevent membrane blocking) | |
| Manual/Auto control valves | Flushing sand/carbon filter after some time | |
| 5micron filter | Remove larger than 5 micro colloids in the water. In this system | |
| 1micron filter | Remove larger than 1 micro colloids in the water. In this system | |
| Seawater RO Main Part | High pressure pump, Stainless steel 316L or Duplex | Provide the high pressure to RO membrane; |
| Ro membranes | More than 98% desalination rate, can remove ions except H2O. | |
| CIP system | To washing the membranes when it is blocked after using for long time | |
| Electronic control panel | PC controller or PLC and HMI controller |
How to choose the right water treatment unit?
1) First you need to tell us what your source of raw water is.
2) It is better to provide a raw water quality report
3) What kind of water quality requirements should be achieved.
4) How many liters per hour does a desalination plant need?
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