The Insta-Valve 20-24 provided a targeted shutdown to remove and replace inoperable valves without causing a substantial wastewater facility shutdown.

In this article, explore the life cycle benefits of ductile iron pipe in comparison with PCCP, PVC, and HDPE pipes.

Van de Kreeke Leidngtechniek’s new iPEK lateral inspection system ROVION SAT II makes inspecting laterals from the main sewer made easy.

In this case study, read about a successful pilot test in Long Island, New York, removing 1,4 dioxane from water. The technology used offers improved efficiency, reduced maintenance, and ongoing monitoring for reliable water treatment.

Wastewater treatment plants provide a viable option to accept and process the collected septage. However, the sheer concentration of the transported sludge can potentially cause plant upsets in smaller WWTP facilities.

According to the American Water Works Association (AWWA), with the coronavirus (COVID-19) pandemic impacting communities throughout the world, water professionals are working around the clock to ensure that safe, reliable water service continues to flow. But what if many of these essential employees now must work from home or only minimal crews are on-site at the plants?

Electromagnetic (mag) meters are a desirable metering choice for their incredible accuracy and low to no maintenance required over its lifespan. Operating with no moving parts, the appeal is high – however, the ability to troubleshoot in-field is challenging and time-consuming. Luckily, there’s a major contributing factor in installing an effective mag meter that can set you (and your operations) up for success: grounding.

At Xylem Rental Solutions, we have helped municipalities and private contractors across the country successfully complete thousands of sewer bypass projects. So we understand what’s at stake. And to help you make the right decisions and plan your next sewer bypass – whether it’s an emergency or planned – our experts have put together 5 steps to ensure sewer bypass success.

With the increase of a WWTP's capacity, the oxygenation of its basins had become insufficient. Learn about the upgrade of its aeration performance of the existing installation with minimal capital expenditure. 

The City of Palm Coast, located on the east coast of Florida, expanded their existing Wastewater Treatment Plant (WWTP) to increase capacity to 6.83 MGD due to population growth, as well as add the production of reclaimed reuse water for use within the City.

SensyMaster helps to improve the operating costs of the most cost intensive process in sewage plants: Aeration. High-measuring performance and state of the art technology helps customers increase plant efficiency.

Monitoring phosphate during the wastewater treatment process allows for fine-tuning and optimizing chemical dosing for removal of phosphate, which provides significant cost savings to the plant while protecting the aquatic environment downstream of the facility.

Energy costs continue to increase. At the same time, there is increased pressure to reduce utility bills without sacrificing operations or comfort.

The need for of nitrogen-reducing wastewater treatment systems has become more common in the past few decades due to various environmental concerns, including eutrophication, oxygen depletion, and toxicity to aquatic organisms in lakes and streams. The addition of nitrogen removal to any wastewater treatment plant, new or existing, typically increases the costs of the project significantly. When evaluating suitable technologies, it becomes critical to properly identify processes that can not only proved the best upfront capital value but also provide the most sustainable long-term functionality.

This application note will explore how active control programs lower operational costs of compliant contaminant removal. 

This customer supplies district heating and electricity for the region of Sønderborg. For one of their waste applications a MAG meter failed within 6 months, and was successfully replaced with a Panametrics Aquatrans AT600.

A wastewater treatment plant separates solids from the liquid, and consists of two basic stages: primary treatment and secondary treatment.

Power plants and refineries around the world must manage and treat complex effluent waste streams from the Flue Gas Desulfurization (FGD) process. Flue gas is generated by the combustion process of fossil and fossil-derived fuels, such as coal, oils, and natural gas in power plants. Petrochemical refineries may generate flue gas from a number of different processes, including Catalytic Cracking, Steam Methane Reforming, and Heaters or Furnaces.

A non-toxic, advanced oxidation (AOP) formula of minerals chelated with oxygen and stabilized in an aqueous water solution. It is a viable option in industries and applications requiring a solution to challenging situations where high level effective sanitization and oxidation is required. Read more to learn how the Genclean advanced oxidation treatment solutions can be used in different applications.