Posts

Access to clean water is getting tougher for many coastal communities. Despite having seawater surrounding them, the salinity level is too high for consumption, agricultural use, and use in industries. That’s where desalination systems come in. By converting seawater into freshwater, potable water, these systems become a long-term source for coastal communities’ ever-growing water demand.

The Importance of Desalination for Coastal Communities

Many coastal communities rely almost wholly on conventional freshwater sources including river, lake, and groundwater sources. Nevertheless, such sources at times become restricted, overused, and subjected to climate change. Desalination technology can act as a safe alternative, offering coastal areas a source of freshwater even during drought and when a source dries out.

How Do Desalination Systems Work?

Desalination removes salt, minerals, and impurities from seawater and makes it safe and fit for human consumption and other uses. Today, reverse osmosis (RO) is the most efficient technology in practice, in which seawater under high pressure is pushed through a semi-permeable membrane, removing salt and impurities. The result is purified water, with the remaining concentrated brine discharged.

Benefits of Desalination Systems for Coastal Communities

1. Offers Reliable and Sustainable Freshwater Supplies

Desalination gives a reliable water source, less prone to rain and traditional sources. Coastal communities can have their water needs met without being affected by weather and droughts.

 

2. Supports Economic Growth and Development

Many coastal communities rely on industries like tourism, fisheries and agriculture. Desalination systems supply water to these industries so they can sustain themselves, and create more local jobs.

 

3. Enhances Public Health and Sanitation

Clean water is key to public health. By providing clean water, desalination reduces waterborne disease and improves overall sanitation in coastal communities.

 

4. Reduces Overexploitation of Freshwater and Groundwater

Over-extraction of groundwater can lead to saltwater intrusion and land subsidence. Desalination reduces the stress on natural freshwater resources for long term sustainability.

 

ADVANCEES Desalination Systems for Coastal Communities

ADVANCEES specializes in state-of-the-art desalination technology for specific individual water requirements of coastal regions. We have a range of seawater reverse osmosis (SWRO) systems that effectively convert seawater into high-quality freshwater.

 

1. Commercial SWRO Systems

For hotels, resorts, and industries with ongoing freshwater requirements, our Commercial SWRO Series is a cost effective and energy efficient option.

 

2. Industrial SWRO Systems

Designed for high desalination capacities, our Industrial SWRO Series can generate high volumes of water for use in industries, farms, and municipalities.

 

3. Containerized SWRO Systems

For remote coastal communities or emergency relief situations, our Containerized SWRO Systems offer a portable, plug-and-play solution that can be deployed quickly.

 

The Future of Water Security for Coastal Communities

As water scarcity becomes more and more of an issue, investing in desalination systems is a smart and necessary move for coastal communities. These systems provide sustainable and reliable water supply so businesses, residents, and industries can thrive even in harsh environments.

With innovative technology and flexible structures, ADVANCEES aims to make communities access clean water in an efficient and environmentally friendly manner

 

Looking for the Right Desalination System?

Contact ADVANCEES today to learn more about our desalination solutions for coastal communities. Our expert team can help design a system that fits your specific needs and water requirements.


PROJECT DESCRIPTION
SEA WATER REVERSE OSMOSIS SYSTEM - 12,000 GPD

COMMERCIAL - HOTEL

In a remote island in Central America, the system provides water to a small - state of the art - hotel

DESIGN PARAMETERS
WATER SOURCE
Well, chlorine free
TEMPERATURE
25 °C
FEED TDS
25,500 – 36,000 ppm
PRODUCT TDS
< 390 ppm
FEED FLOW
21.9 GPM
PRODUCT FLOW
8.3 GPM
OPERATING PRESSURE
727 PSI
RECOVERY RATE
38%

Single pass, single stage. One pressure vessel total, that contains 3 thin-film composite elements in series. The system produces 45.4 m3/day (12,000 GPD or 8.3 GPM) of product water at 38% recovery.

main features

ANCILLARY EQUIPMENT

PHYSICAL DATA & DIMENSIONS :

WhatsApp
Email
Facebook
Twitter
LinkedIn

Access to clean water is getting tougher for many coastal communities. Despite having seawater surrounding them, the salinity level is too high for consumption, agricultural use, and use in industries. That’s where desalination systems come in. By converting seawater into freshwater, potable water, these systems become a long-term source for coastal communities’ ever-growing water demand.

The Importance of Desalination for Coastal Communities

Many coastal communities rely almost wholly on conventional freshwater sources including river, lake, and groundwater sources. Nevertheless, such sources at times become restricted, overused, and subjected to climate change. Desalination technology can act as a safe alternative, offering coastal areas a source of freshwater even during drought and when a source dries out.

How Do Desalination Systems Work?

Desalination removes salt, minerals, and impurities from seawater and makes it safe and fit for human consumption and other uses. Today, reverse osmosis (RO) is the most efficient technology in practice, in which seawater under high pressure is pushed through a semi-permeable membrane, removing salt and impurities. The result is purified water, with the remaining concentrated brine discharged.

Benefits of Desalination Systems for Coastal Communities

1. Offers Reliable and Sustainable Freshwater Supplies

Desalination gives a reliable water source, less prone to rain and traditional sources. Coastal communities can have their water needs met without being affected by weather and droughts.

 

2. Supports Economic Growth and Development

Many coastal communities rely on industries like tourism, fisheries and agriculture. Desalination systems supply water to these industries so they can sustain themselves, and create more local jobs.

 

3. Enhances Public Health and Sanitation

Clean water is key to public health. By providing clean water, desalination reduces waterborne disease and improves overall sanitation in coastal communities.

 

4. Reduces Overexploitation of Freshwater and Groundwater

Over-extraction of groundwater can lead to saltwater intrusion and land subsidence. Desalination reduces the stress on natural freshwater resources for long term sustainability.

 

ADVANCEES Desalination Systems for Coastal Communities

ADVANCEES specializes in state-of-the-art desalination technology for specific individual water requirements of coastal regions. We have a range of seawater reverse osmosis (SWRO) systems that effectively convert seawater into high-quality freshwater.

 

1. Commercial SWRO Systems

For hotels, resorts, and industries with ongoing freshwater requirements, our Commercial SWRO Series is a cost effective and energy efficient option.

 

2. Industrial SWRO Systems

Designed for high desalination capacities, our Industrial SWRO Series can generate high volumes of water for use in industries, farms, and municipalities.

 

3. Containerized SWRO Systems

For remote coastal communities or emergency relief situations, our Containerized SWRO Systems offer a portable, plug-and-play solution that can be deployed quickly.

 

The Future of Water Security for Coastal Communities

As water scarcity becomes more and more of an issue, investing in desalination systems is a smart and necessary move for coastal communities. These systems provide sustainable and reliable water supply so businesses, residents, and industries can thrive even in harsh environments.

With innovative technology and flexible structures, ADVANCEES aims to make communities access clean water in an efficient and environmentally friendly manner

 

Looking for the Right Desalination System?

Contact ADVANCEES today to learn more about our desalination solutions for coastal communities. Our expert team can help design a system that fits your specific needs and water requirements.


PROJECT DESCRIPTION
SEA WATER REVERSE OSMOSIS SYSTEM - 12,000 GPD

COMMERCIAL - HOTEL

In a remote island in Central America, the system provides water to a small - state of the art - hotel

DESIGN PARAMETERS
WATER SOURCE
Well, chlorine free
TEMPERATURE
25 °C
FEED TDS
25,500 – 36,000 ppm
PRODUCT TDS
< 390 ppm
FEED FLOW
21.9 GPM
PRODUCT FLOW
8.3 GPM
OPERATING PRESSURE
727 PSI
RECOVERY RATE
38%

Single pass, single stage. One pressure vessel total, that contains 3 thin-film composite elements in series. The system produces 45.4 m3/day (12,000 GPD or 8.3 GPM) of product water at 38% recovery.

main features

ANCILLARY EQUIPMENT

PHYSICAL DATA & DIMENSIONS :

WhatsApp
Email
Facebook
Twitter
LinkedIn


PROJECT DESCRIPTION
SOLAR BRACKISH WATER REVERSE OSMOSIS SYSTEM - 50,000 GPD

COMMERCIAL - HOTEL

This system provides water for all amenities in a hotel of 350 rooms in the caribbean

DESIGN PARAMETERS
WATER SOURCE
Seawater well, chlorine free
TEMPERATURE
20-28 °C
FEED TDS
25,500 – 36,000 ppm
PRODUCT TDS
< 300 ppm
FEED FLOW
115.0 GPM
PRODUCT FLOW
46.0 GPM
OPERATING PRESSURE
750 – 850 PSI
RECOVERY RATE
40%

Single pass, single stage. Two pressure vessel total, that contains twelve (12) LG NanoH2O membranes. The system it’s set to produce 30,000 US Gal/day of product water at 40% recovery.

The pre-treatment system consisted of two (2) chemical injection pumps (chlorine and antiscalant) and two (2) media filters for removing suspended solids, iron and chlorine.

This system was designed to operate and fit in a 20 ft ISO Container ready to ship and isntall.

main features

ANCILLARY EQUIPMENT

PHYSICAL DATA & DIMENSIONS :

WhatsApp
Email
Facebook
Twitter
LinkedIn