Wright-Pierce designs first of its kind water treatment system in New England

Oct. 9, 2008
Wright-Pierce, a New England provider of water, wastewater and infrastructure engineering services, was selected by a Northern New England utility to upgrade its slow sand filtration water treatment facility. Wright-Pierce recently completed the upgrade design, and will oversee the installation of an innovative pretreatment system that will minimize the formation of disinfection by products (DBP), a major cause of compromised water quality...

Oct. 8, 2008 -- Wright-Pierce, a New England provider of water, wastewater and infrastructure engineering services, was selected by a Northern New England utility to upgrade its slow sand filtration water treatment facility. Wright-Pierce recently completed the upgrade design, and will oversee the installation of an innovative pretreatment system that will minimize the formation of disinfection by products (DBP), a major cause of compromised water quality. The Magnetic Ion Exchange (MIEX®) pretreatment process removes dissolved organic carbon, which are naturally-occurring chemicals and a precursor for disinfection byproduct formation. The upgraded facility will enable the utility to comply with the federal Clean Water Act and provide safe drinking water to the community.

After nearly two years of studies, design work for the facility concluded in August. Construction of the project will begin in late October and is scheduled for completion in June 2009. Once completed, the facility will be the first of its kind in New England to use the MIEX treatment process.

The MIEX® Process, developed by Orica Watercare, is an innovative pre-treatment technology with a unique continuous ion exchange process that offers a cost-effective and environmentally friendly removal process capable of achieving new standards in water quality. Benefits of the MIEX Process include significantly less waste residuals, color removal, reduced chlorine demand for disinfection, and significant reductions in disinfection by-product formation. Adapting this technology upstream of a slow sand filtration process is a unique and effective solution to organics removal.

"Creativity is required to help smaller communities design water treatment systems that work for their facilities; systems that provide the best method to achieve the highest water quality and meet new regulations." stated Jeff Musich, P.E., Vice President of Wright-Pierce. "We are thrilled to be selected to design and construct this state of the art water treatment facility. The district's water quality will meet stringent federal and state requirements, and consumers should notice improved taste and reduced color."

Wright-Pierce is an award-winning New England engineering firm providing water, wastewater, and infrastructure services to public and private clients.

###

Sponsored Recommendations

ArmorBlock 5000: Boost Automation Efficiency

April 25, 2024
Discover the transformative benefits of leveraging a scalable On-Machine I/O to improve flexibility, enhance reliability and streamline operations.

Rising Cyber Threats and the Impact on Risk and Resiliency Operations

April 25, 2024
The world of manufacturing is changing, and Generative AI is one of the many change agents. The 2024 State of Smart Manufacturing Report takes a deep dive into how Generative ...

State of Smart Manufacturing Report Series

April 25, 2024
The world of manufacturing is changing, and Generative AI is one of the many change agents. The 2024 State of Smart Manufacturing Report takes a deep dive into how Generative ...

SmartSights WIN-911 Alarm Notification Software Enables Faster Response

March 15, 2024
Alarm notification software enables faster response for customers, keeping production on track