Microbial capacitive deionization (MCD) shows promise as a sustainable, low-cost treatment solution for produced water.

The drop in price of a barrel of oil has had an understandable impact on major projects in the oil and gas industry. Three years ago, with crude trading above $100 a barrel, schedule was the overriding priority. As time delays were equated to lost revenue opportunity, there was less attention paid to the ultimate cost efficiency of a major project.

A new generation of electrocoagulation-based water treatment has successfully treated wastewater and effluent from a remote onshore natural gas exploration and production project with over three years of continuous operation. To compound the challenges of treating this wastewater and effluent, the unit was required to operate in an extremely environmentally sensitive environment — a pristine tropical rainforest.

Questions about if and how hydraulic fracturing activities can contaminate drinking water have been top-of-mind for many since the practice started getting widespread public attention about a decade ago. Recognizing the validity of those concerns, EPA undertook a study to see how the full ‘hydraulic fracturing water cycle’ could potentially impact our drinking water resources.

With the change in administration comes a potential paradox for water and wastewater treatment in the oil and gas industry: Will increased production accompanied by decreased regulations call for more treatment technology or less? Either way, the market is poised for change.

When you’re sipping on a cold soda or snacking on a creamy piece of cheese, you probably don’t really think about what went into making your food or beverage. Aside from the automated production-line machines, one of the most important things that goes into the making of any soda, juice, wheel of cheese, or gallon of milk is water. Producing beverages and dairy products uses substantial amounts of water within production processes.

Harboes Bryggeri A/S was facing challenges with the performance of its wastewater treatment plant, due to the highly variable Chemical Oxygen Demand (COD) load in the inlet.

In addition to penalties for non-compliance, wastewater treatment plant (WWTP) operators in the food and beverage industry risk excessive losses caused by problems at the wastewater treatment facility.

A bacon processing plant in the Midwest was overloaded by more than 50%. Even though the system continued to maintain compliance, the plant proactively decided to expand its wastewater treatment facility to ensure they met their growing demand and maintained their standing as exemplary corporate citizens and environmental stewards.

A California winery was having odor problems from its wastewater evaporation lagoons. The wash and wastewater from this facility contain large amounts of organic matter. The wastewater is collected and pumped to two main lagoons for evaporation, percolation, and sprinkler irrigation.

This paper shows how the four pillars of operator effectiveness lead operators to greater awareness, faster response and better decisions.

A power plant plant experienced an accident when a pipe broke after it was sand-dusted during maintenance. The pump location, including the turbines and control room, was completely flooded. Read about the customer's search for a cost-effective flow measurement solution to drive a safety shut-down valve in case the pipe should break again.

A hydroelectric power plant in Türkiye needed to establish a system for real-time monitoring of water consumption and turbine performance to enhance its operational efficiency. Crucially, the State Water Authority also required continuous, 24/7 remote access to water usage data for supervisory and regulatory compliance.

India is making great strides to aggressively expand its renewable energy capacity. But the country's power sector remains highly reliant on thermoelectric plants, with high demand for water for cooling. That means that droughts, like the one caused last year by weak monsoons, can shut off the power, hampering the economy and potentially endangering lives.

A wide range of industrial operations rely on cooling systems to function. And, in turn, these systems require cooling water to function. So, it stands to reason that a wide range of water treatment issues need to be considered and addressed so that cooling water system upsets are avoided and everything continues to run as it should. Oftentimes, an efficient industrial operation depends on efficient monitoring and treatment of cooling water.

When you’re sipping on a cold soda or snacking on a creamy piece of cheese, you probably don’t really think about what went into making your food or beverage. Aside from the automated production-line machines, one of the most important things that goes into the making of any soda, juice, wheel of cheese, or gallon of milk is water. Producing beverages and dairy products uses substantial amounts of water within production processes.

Sigura™ calcium hypochlorite offers cooling tower operators and their service providers a highly effective biocide designed for controlling microorganisms to maintain system cleanliness, achieve associated production efficiency gains, and help guard against biofouling. Learn how a West Coast service provider's switch to Calcium Hypochlorite lead to a more consistent chlorine concentration and eliminated the need for frequent pump adjustments.

Energy-saving pumps will be ever more present in 2021 as investment in eco-friendly infrastructure continues to grow.

Thomas Schumann is the founder of Thomas Schumann Capital. He is a sustainability pioneer and expert for water security investment and financial products, and a recent speaker at the UN 2023 Water Conference in New York from March 22nd (World Water Day) to the 24th.

By manipulating the atomic structure of iron, researchers in Australia have developed a new tool for industrial wastewater treatment.

Excitement is building around a new wastewater recovery project scheduled for completion in Fairfield, CA, this coming summer.

Choosing between free-space radar and guided wave radar systems designed for chemical service requires an understanding of their operating principles, advantages, and limitations.

This paper shows how the four pillars of operator effectiveness lead operators to greater awareness, faster response and better decisions.

One of the U.S. EPA’s leading voices shares the agency’s most important agenda items.