Mobile Water Solutions

Aria™ FAST mobile water treatment units provide added capacity for long-term water treatment or emergency water relief in municipal and industrial applications. Our mobile microfiltration (MF), ultrafiltration (UF), and reverse osmosis (RO) systems deliver fresh water when speed is crucial.
Aria™ FAST mobile water treatment units provide added capacity for long-term water treatment or emergency water relief in municipal and industrial applications. Our mobile microfiltration (MF), ultrafiltration (UF), and reverse osmosis (RO) systems deliver fresh water when speed is crucial.
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Mobile Water: Wellsboro

In November 2010, the Wellsboro Municipal Authority’s slow sand filtration drinking water plant began experiencing high turbidity and algae events due to elevated levels in their reservoir. As a result, their citizens received emergency notices to boil their water before use. The boil water advisory not only impacted residents daily lives from brushing teeth to preparing food, but it also required business owners to shut down soda fountain dispensers, ice machines and coffee makers.
In November 2010, the Wellsboro Municipal Authority’s slow sand filtration drinking water plant began experiencing high turbidity and algae events due to elevated levels in their reservoir. As a result, their citizens received emergency notices to boil their water before use. The boil water advisory not only impacted residents daily lives from brushing teeth to preparing food, but it also required business owners to shut down soda fountain dispensers, ice machines and coffee makers.
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Mobile Water: European Power Plant

A large European power plant was in need of a reliable source of water to feed their demineralizing unit. The existing conventional groundwater treatment technology was unable to provide stable water quality. Also, there was a need for a more abundant water source.
A large European power plant was in need of a reliable source of water to feed their demineralizing unit. The existing conventional groundwater treatment technology was unable to provide stable water quality. Also, there was a need for a more abundant water source.
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Mobile Water: New Jersey American Water

In 2014, officials in Monmouth County, New Jersey were determined to implement a water filtration system as they sought to provide additional water production capacity in order to take clarifiers off-line for preventative maintenance. Additionally, the county wanted a way to supplement its water supply from the Swimming River Reservoir as this alone was unable to meet peak demand in the summer months. In order to solve these challenges, New Jersey American Water began qualifying various mobile membrane units.
In 2014, officials in Monmouth County, New Jersey were determined to implement a water filtration system as they sought to provide additional water production capacity in order to take clarifiers off-line for preventative maintenance. Additionally, the county wanted a way to supplement its water supply from the Swimming River Reservoir as this alone was unable to meet peak demand in the summer months. In order to solve these challenges, New Jersey American Water began qualifying various mobile membrane units.
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Mobile Water: Peru Gold Mine

In 2015, a gold mining plant in Peru at 3,000 meters of altitude sought to protect its existing reverse osmosis (RO) unit from contaminated leachate water. An operator found that the plant’s conventional treatment, consisting of neutralized and treated leaching water, could not provide a stable and high quality stream of water for mining production. The plant required a quick, reliable wastewater solution to not only meet peak demand in the summer months, as well as treat the mine leachate and prevent the existing RO membrane from collapsing or releasing contaminated water into the environment. Compounding the challenge was the geographical nature and environment of the Peruvian plant. The ideal solution would be able to operate with a quick delivery rate and small footprint for the plant given the difficult restrictions.
In 2015, a gold mining plant in Peru at 3,000 meters of altitude sought to protect its existing reverse osmosis (RO) unit from contaminated leachate water. An operator found that the plant’s conventional treatment, consisting of neutralized and treated leaching water, could not provide a stable and high quality stream of water for mining production. The plant required a quick, reliable wastewater solution to not only meet peak demand in the summer months, as well as treat the mine leachate and prevent the existing RO membrane from collapsing or releasing contaminated water into the environment. Compounding the challenge was the geographical nature and environment of the Peruvian plant. The ideal solution would be able to operate with a quick delivery rate and small footprint for the plant given the difficult restrictions.
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Mobile Water: City of Cisco, TX

On Thursday, June 2, 2016, the City of Cisco, Texas experienced heavy rains that completely flooded Lake Cisco and ultimately submerged the city’s surface water treatment plant and all of its equipment. Immediately following the flood, officials began qualifying mobile treatment options as they knew that the city would soon be depleted of water. Roads adjacent to the plant were washed out, and the plant’s team worked around the clock to provide water to the city’s 6,500 residents, which include two wholesale customers that purchase bulk water from the city for surrounding rural communities.
On Thursday, June 2, 2016, the City of Cisco, Texas experienced heavy rains that completely flooded Lake Cisco and ultimately submerged the city’s surface water treatment plant and all of its equipment. Immediately following the flood, officials began qualifying mobile treatment options as they knew that the city would soon be depleted of water. Roads adjacent to the plant were washed out, and the plant’s team worked around the clock to provide water to the city’s 6,500 residents, which include two wholesale customers that purchase bulk water from the city for surrounding rural communities.
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Mobile Water: Mount Isa, Australia

Situated in the State of Queensland, the Mount Isa Water Board (MIWB) is responsible for the supply of drinking water to the Mount Isa City Council for distribution to residents as well as providing a water source to industrial users. The Mount Isa City Council realized an increase in demand for clean, high-quality drinking water. In order to fulfill the requests of the City Council, the MIWB needed a treatment system that could increase the capacity, integrate into the pre-existing plant at the Terminal Reservoir as well as meet the stringent water quality standards.
Situated in the State of Queensland, the Mount Isa Water Board (MIWB) is responsible for the supply of drinking water to the Mount Isa City Council for distribution to residents as well as providing a water source to industrial users. The Mount Isa City Council realized an increase in demand for clean, high-quality drinking water. In order to fulfill the requests of the City Council, the MIWB needed a treatment system that could increase the capacity, integrate into the pre-existing plant at the Terminal Reservoir as well as meet the stringent water quality standards.
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Mobile Water: Nevada Mine

An operating mine in remote Nevada experienced a pit flood as a result of groundwater recharge. Over 40 million gallons of water flooded the open pit, bringing mine operations to a halt. The groundwater when introduced to the pit was then contaminated with numerous contaminants such as manganese (Mn), heavy metals, and sulfides in high levels. The treated water goals required the water to be suitable for agricultural irrigation meaning a high level of treatment was needed. Furthermore, the mine is not accessible in winter. An immediate, robust solution was needed to resume operations at the mine.
An operating mine in remote Nevada experienced a pit flood as a result of groundwater recharge. Over 40 million gallons of water flooded the open pit, bringing mine operations to a halt. The groundwater when introduced to the pit was then contaminated with numerous contaminants such as manganese (Mn), heavy metals, and sulfides in high levels. The treated water goals required the water to be suitable for agricultural irrigation meaning a high level of treatment was needed. Furthermore, the mine is not accessible in winter. An immediate, robust solution was needed to resume operations at the mine.
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Packaged Treatment Solutions

Aria™ FIT and IMPRO™ technologies offer packaged, pre-planned solutions for industrial and municipal water applications. Designed with you in mind, our pre-engineered skids are operator-friendly with easy-to-use controls. Modular skids deliver MF, UF, and RO treatment in a convenient package.
Aria™ FIT and IMPRO™ technologies offer packaged, pre-planned solutions for industrial and municipal water applications. Designed with you in mind, our pre-engineered skids are operator-friendly with easy-to-use controls. Modular skids deliver MF, UF, and RO treatment in a convenient package.
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Packaged Systems: City of Cisco, TX

In 2010, the City of Cisco, Texas decided to upgrade its existing water treatment plant, seeking to replace its conventional dual media filters with modern, sophisticated membrane technology. The City of Cisco’s water treatment plant serves more than 6,500 residents which includes two wholesale customers that purchase bulk water from the city for surrounding rural communities. In order to determine which membrane system to implement, officials began qualifying solutions from a variety of vendors.
In 2010, the City of Cisco, Texas decided to upgrade its existing water treatment plant, seeking to replace its conventional dual media filters with modern, sophisticated membrane technology. The City of Cisco’s water treatment plant serves more than 6,500 residents which includes two wholesale customers that purchase bulk water from the city for surrounding rural communities. In order to determine which membrane system to implement, officials began qualifying solutions from a variety of vendors.
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Custom Water Treatment

Aria™ FLEX technology offers flexible, proven membrane solutions to fit a wide range of capacities and applications. Our modular system comes with a customizable design, perfect for new construction or facility upgrades.
Aria™ FLEX technology offers flexible, proven membrane solutions to fit a wide range of capacities and applications. Our modular system comes with a customizable design, perfect for new construction or facility upgrades.
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Custom Systems: Cottage Grove

In 1996, city officials in Cottage Grove, OR were tasked with renovating and developing added water production capacity at its Row River Water Treatment Plant. City officials were not only tasked with finding a treatment method capable of meeting drinking water standards, but one that was also able to handle Cottage Grove’s unique capacity requirements where water use frequently triples during the summer months. Additionally, facility operators needed to find a treatment method that they could trust as 24/7 monitoring of the water supply and treatment were paramount.
In 1996, city officials in Cottage Grove, OR were tasked with renovating and developing added water production capacity at its Row River Water Treatment Plant. City officials were not only tasked with finding a treatment method capable of meeting drinking water standards, but one that was also able to handle Cottage Grove’s unique capacity requirements where water use frequently triples during the summer months. Additionally, facility operators needed to find a treatment method that they could trust as 24/7 monitoring of the water supply and treatment were paramount.
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Custom Systems: Flowery Branch

In 2002, Georgia’s City of Flowery Branch faced strict new requirements about discharging water back into the nearby Lake Lanier, which is a drinking water source for the community, compelling the City to find an alternative wastewater system. At the time, the wastewater plant was using conventional sand filters that were unable to achieve the reduction of phosphorus to meet the new limit of 0.13 mg/L. Not only were the sand filters working improperly, but they were creating barriers to the plant’s ability to reach a higher level of treatment and recovery for discharging into the environment. If unable to meet the new phosphorus limit, the city would have been banned from discharging any additional water into Lake Lanier, resulting in an immediate negative impact on the city.
In 2002, Georgia’s City of Flowery Branch faced strict new requirements about discharging water back into the nearby Lake Lanier, which is a drinking water source for the community, compelling the City to find an alternative wastewater system. At the time, the wastewater plant was using conventional sand filters that were unable to achieve the reduction of phosphorus to meet the new limit of 0.13 mg/L. Not only were the sand filters working improperly, but they were creating barriers to the plant’s ability to reach a higher level of treatment and recovery for discharging into the environment. If unable to meet the new phosphorus limit, the city would have been banned from discharging any additional water into Lake Lanier, resulting in an immediate negative impact on the city.
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Custom System: Wilmington

Originally constructed in 1917 and then renovated in 1933, the Brandywine Water Treatment Plant in Wilmington, Delaware required a retrofit into the mixed media filter basins in order to meet stringent drinking water standards. Furthermore, the facility needed a robust system as it previously experienced significant turbidity occurrences due to heavy rainfall. The raw water from the Brandywine Creek is coagulated with PAX-XL 19, aluminum chlorohydrate and settled in a sedimentation basin after pretreatment before reaching the membranes for filtration.
Originally constructed in 1917 and then renovated in 1933, the Brandywine Water Treatment Plant in Wilmington, Delaware required a retrofit into the mixed media filter basins in order to meet stringent drinking water standards. Furthermore, the facility needed a robust system as it previously experienced significant turbidity occurrences due to heavy rainfall. The raw water from the Brandywine Creek is coagulated with PAX-XL 19, aluminum chlorohydrate and settled in a sedimentation basin after pretreatment before reaching the membranes for filtration.
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Custom System: Barka

The Sultanate of Oman, like other gulf countries in the Middle East, depends on desalination technologies as a major source of supply of potable water to the distribution network. In 2015, a leading developer and operator that is based in Oman and operating Barka 1, awarded Osmoflo, an EPC, to build a complete desalination plant with a capacity of 56,500 m3/ day (12.5 MIGD). This plant, called MSF Reject Desalination at Barka 1 Expansion Phase 2, is where Oman was to provide potable water in less than a year so it could add capacity to the Muscat city’s water network that serves more than 2 million residents.
The Sultanate of Oman, like other gulf countries in the Middle East, depends on desalination technologies as a major source of supply of potable water to the distribution network. In 2015, a leading developer and operator that is based in Oman and operating Barka 1, awarded Osmoflo, an EPC, to build a complete desalination plant with a capacity of 56,500 m3/ day (12.5 MIGD). This plant, called MSF Reject Desalination at Barka 1 Expansion Phase 2, is where Oman was to provide potable water in less than a year so it could add capacity to the Muscat city’s water network that serves more than 2 million residents.
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Custom System: TMVW Belgium

In 2008, a Belgian municipal water supplier - TMVW - saw an emerging market for the valorization of surface water, and thus an opportunity to expand into the industrial water supply industry. TMVW decided to create Induss II, a fully integrated water production site in the port of Ghent to serve surrounding industrial customers with water.
In 2008, a Belgian municipal water supplier - TMVW - saw an emerging market for the valorization of surface water, and thus an opportunity to expand into the industrial water supply industry. TMVW decided to create Induss II, a fully integrated water production site in the port of Ghent to serve surrounding industrial customers with water.
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Service & Support

By leveraging decades of experience from the Aria™ CARE service team, customers can maximize run times, maintain water quality, reduce operating costs, and extend the life of their membrane systems. Our trained staff provide service and support to help every customer achieve their goals, working to ensure productive days and worry-free nights.
By leveraging decades of experience from the Aria™ CARE service team, customers can maximize run times, maintain water quality, reduce operating costs, and extend the life of their membrane systems. Our trained staff provide service and support to help every customer achieve their goals, working to ensure productive days and worry-free nights.
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Aria CARE & Services: City of Geneva

The drinking water facility for the City of Geneva is a 4 MGD Aria FLEX membrane system. From spring to early fall, the Geneva area experiences numerous electrical storms which, even with surge protection, pose a potential risk for plant downtime. Additionally, optimization opportunities and repair events can occur at all hours of operation. Many times, a single onsite operator is called upon to seize that opportunity or address the repair issue.
The drinking water facility for the City of Geneva is a 4 MGD Aria FLEX membrane system. From spring to early fall, the Geneva area experiences numerous electrical storms which, even with surge protection, pose a potential risk for plant downtime. Additionally, optimization opportunities and repair events can occur at all hours of operation. Many times, a single onsite operator is called upon to seize that opportunity or address the repair issue.
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