It’s been two months since EPA released its much anticipated draft report on hydraulic fracturing, and organizations like ours are busy preparing their official comments, which are due at the end of August. But based on what we have learned so far and what has been written in the media, it’s important to spend some time on what the report said — and didn’t say — and what it all means.

Produced water (PW) is salty water trapped in the reservoir rock and brought up along with oil or gas during production. It subsists under high pressures and temperatures, and usually contains hydrocarbons and metals. Therefore, it must be treated before being discharged to surface water. Different techniques are being used to treat PW through phase separations, system control and design, and chemical treatments. In this paper, we discuss our experimental results on treating PW through electrocoagulation (EC).

For an open-pit taconite mining operation in Minnesota, high pH groundwater required round-the-clock pumping to comply with discharge permit limits. After management installed a control system to neutralize the pH, the treated water leaving the site now meets permit limits. Read this case study to learn more about the installed system and results.

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

For the unfamiliar, the term “disruptive technology” initially sounds quite bad, as though it describes something that gets in the way. Far from impeding progress, however, disruptive technologies actually accelerate progress exponentially by disrupting the status quo. Think personal computers vs. mainframes, or cell phones vs. land lines.

Stories of real success with packaged pumping and wastewater treatment systems at breweries are explored, including for regulatory compliance and/or water reuse capabilities. Packaged pumping and treatment systems have helped hundreds of brewers meet their permits for local collection and/or direct surface discharge.

By harvesting heating, ventilation, and air conditioning (HVAC) condensate, industrial operations can take advantage of a cool, convenient source of clean water.

Looking to reduce its water footprint, Shepherd Neame Brewery invested in a complete membrane bioreactor (MBR) wastewater recovery and re-use plant. Learn how the new plant's aeration system has helped to reduce the brewery's water-to-beer ratio to an industry-leading value of 3:1.

The hardest aspects of comparing efficiencies among submerged aeration technologies are the many variables in capital expense (CAPEX), operating expense (OPEX), and complexity of wastewater makeup. Here are five major categories for evaluating industrial wastewater aeration efficiency.

Numerous compounds contribute to changes in beer flavor as it becomes stale. One of these compounds, (E)-2-nonenal, has been investigated as a major source of the papery/cardboard flavor that develops in aged beer.

It may sound intimidating, but water that has been treated to “ultrapure” condition is more than necessary in many applications. This highly-cleansed product is a fundamental part of many industrial operations, from the medicine we need to get well to the power we rely on in our daily lives. But, as the name implies, it’s no small task to get average influent to the ultrapure level.

The New Harquahala Generating Project serves as a power and electrical wholesaler in the Southwestern United States. To fill the need for growing energy consumption in the region, this facility was built to provide power to the area.

By harvesting heating, ventilation, and air conditioning (HVAC) condensate, industrial operations can take advantage of a cool, convenient source of clean water.

Being an environmental advocate in Texas may seem like an uphill battle, and I make no bones about the fact it most certainly is.

The need for cooling-water systems is common among industrial applications, but the treatments needed to keep them operating at peak efficiency can change from location to location and season to season. Here is why a different type of quaternary ammonium compound (quat) algaecide has an important role to play in balancing performance, efficiency, and total lifecycle costs across many cooling-water-treatment regimens.

One of the simplest ways to quickly and reliably scan flow rates is with a paddlewheel flow meter. This device comprises a paddlewheel sensor, a display, and a pipe fitting.

It may sound intimidating, but water that has been treated to “ultrapure” condition is more than necessary in many applications. This highly-cleansed product is a fundamental part of many industrial operations, from the medicine we need to get well to the power we rely on in our daily lives. But, as the name implies, it’s no small task to get average influent to the ultrapure level.

The key to McCrometer’s low lead times is no “secret sauce.” It’s ultimately a combination of 3 factors that contribute to the delivery of necessary flow measurement devices – despite the current supply chain predicament.

Thermoplastic piping’s advantages are not limited to chemical-resistant properties alone. Before the first component is installed, plastic pipe engineering principles and prefabrication options create multiple cost and performance benefits. Water Online spoke with Brian LaBelle of GF Piping Systems to understand how water treatment facilities and OEMs can take greater advantage of the full breadth of plastic piping’s opportunities.

The New Harquahala Generating Project serves as a power and electrical wholesaler in the Southwestern United States. To fill the need for growing energy consumption in the region, this facility was built to provide power to the area.

Stories of real success with packaged pumping and wastewater treatment systems at breweries are explored, including for regulatory compliance and/or water reuse capabilities. Packaged pumping and treatment systems have helped hundreds of brewers meet their permits for local collection and/or direct surface discharge.

On Wednesday, November 19, 2014, at 10:15 a.m. in 2322 Rayburn House Office Building, the Subcommittee on Environment and the Economy will hold a hearing entitled “Cyanotoxins in Drinking Water."

By harvesting heating, ventilation, and air conditioning (HVAC) condensate, industrial operations can take advantage of a cool, convenient source of clean water.

It’s been two months since EPA released its much anticipated draft report on hydraulic fracturing, and organizations like ours are busy preparing their official comments, which are due at the end of August. But based on what we have learned so far and what has been written in the media, it’s important to spend some time on what the report said — and didn’t say — and what it all means.

Produced water (PW) is salty water trapped in the reservoir rock and brought up along with oil or gas during production. It subsists under high pressures and temperatures, and usually contains hydrocarbons and metals. Therefore, it must be treated before being discharged to surface water. Different techniques are being used to treat PW through phase separations, system control and design, and chemical treatments. In this paper, we discuss our experimental results on treating PW through electrocoagulation (EC).