The global oil and gas industry association, IPIECA coordinated a session during World Water Week in Stockholm on water management within the sector from now to 2030.  

A new report from the Oklahoma Water Resources Board’s Produced Water Working Group indicates that oil and gas companies looking for ways to dispose of large volumes of wastewater should focus on recycling those liquids within the oil and gas fields, and not use it for irrigation or other surface applications where human and environmental exposure is a risk.

Oil and natural gas are considered valuable resources all across the globe. The number of products made from these two materials is impressive and our lives would be very different without them. Production of these products begins with locating the underground sources of crude oil. These deep well sources are then mined to extract the oil and gas materials. Afterward, these raw materials are sent to refineries to be converted into the petrochemical and gas products that we use nearly every day. Therefore, produced water treatment & management is an integral part of oil & gas company operations.

Regulators from across the country met in Vermont this week at the Environmental Council of the State’s (ECOS) fall meeting to discuss some of the nation’s most pressing environmental challenges. I joined members of ECOS’ Shale Gas Caucus to discuss an emerging threat imminently impacting oil and gas-producing states: the question of what to do with the massive amount of wastewater produced by the oil and gas industry each year.

More than 2,000 years ago, Greek and Roman engineers harnessed the power of water to drive grain mills, and the technology soon spread as far as China, where it was used to forge iron. By the 4th century, the Romans had scaled up water wheel technology to build a massive flour plant in Arles, France, powered by 16 overshot water wheels. During the Renaissance, Leonardo da Vinci sketched out visions of water-driven sawmills, forges, factories, and spinning works.

Newly discovered electrogenic organisms could significantly reduce energy costs for the wastewater industry.

ADM Cocoa Plant in Hazle Township, Pennsylvania needed help with their cocoa bean production. The plant processes two and a half million pounds of cocoa beans each day, turning them into cocoa powder, cocoa butter, and chocolate liquor. The company needed a machine to process sugar with over-sized lumps that could occur in transport or storage. Unless these agglomerated clumps were reduced to a granular form, the process could not work dependably. The machine also had to handle the large quantity of sugar processed daily and be sanitary.

Although industry only accounts for 20% of water consumption globally (vs. 70% for agriculture and 10% for domestic consumption), most multinational industrial companies are now focused on ensuring they provide effective environmental management wherever they are in the world.  

Atlantium Technologies has revolutionized the treatment of simple syrups with its cutting-edge Hydro-Optic Disinfection (HOD™) technology.

Wastewater utilities have a new opportunity to turn their sludge (biosolids) into something special.

Power Generation plants produce electricity by converting one form of primary energy (nuclear or non-nuclear) to motive power in order to drive generators and produce electricity.

More than 2,000 years ago, Greek and Roman engineers harnessed the power of water to drive grain mills, and the technology soon spread as far as China, where it was used to forge iron. By the 4th century, the Romans had scaled up water wheel technology to build a massive flour plant in Arles, France, powered by 16 overshot water wheels. During the Renaissance, Leonardo da Vinci sketched out visions of water-driven sawmills, forges, factories, and spinning works.

Brazos Electric Cooperative Power Plant in Cleburne, TX is a nominal 258 MW combined cycle gas fired power plant operating on AGC (Automatic Generation Control) load requirements. The plant uses approximately 54 million gallons of water per year for boiler feed water and NOx control of its combustion turbine.

The City of St. Cloud, Minnesota, straddles the Mississippi River near the center of the state a little more than 65 miles north of the twin cities of Minneapolis-St. Paul. The city’s forward thinking staff began looking for sustainable green energy solutions in 2003. After planning and initiating a series of projects over several years, the site is today producing renewable energy with a 20 kW rooftop solar array, a 220 kW solar array and biofuels electricity generation.

The power sector looks to zero liquid discharge and taps municipal reclaimed water as a water reuse strategy.

While every potable water treatment process requires a balance of chemistry and biology to deliver safe, clean drinking water, added concerns from upstream stormwater or agricultural runoff only make the job that much more difficult. How can we do a better job of safeguarding water treatment plant (WTP) operations while protecting the health of water utility customers against threats of upstream nonpoint source (NPS) pollution?

The global oil and gas industry association, IPIECA coordinated a session during World Water Week in Stockholm on water management within the sector from now to 2030.  

Intelligent metering pumps enable precise water treatment and predictive maintenance in AI data centers, helping prevent scaling, reduce downtime, and maintain efficient liquid cooling for high-performance systems.

Add pesticides to the list of contaminants that are prevalent in U.S. drinking water and can cause severe health impacts, including cancer and Parkinson’s disease.

Newly discovered electrogenic organisms could significantly reduce energy costs for the wastewater industry.

When the parking deck of a busy Kentucky hospital was found to have cracks appearing in its slabs and columns the facility’s owners called on design engineers SSE Inc to develop a plan to mitigate the problem. They in turn called on Shield Systems, Inc., a manufacturer’s representative of GeoTree, who had access to a range of partners that could lend their expertise to help create a comprehensive strategy to attack the issue.

ADM Cocoa Plant in Hazle Township, Pennsylvania needed help with their cocoa bean production. The plant processes two and a half million pounds of cocoa beans each day, turning them into cocoa powder, cocoa butter, and chocolate liquor. The company needed a machine to process sugar with over-sized lumps that could occur in transport or storage. Unless these agglomerated clumps were reduced to a granular form, the process could not work dependably. The machine also had to handle the large quantity of sugar processed daily and be sanitary.

As the phrase "forever chemicals" enters the Oxford English Dictionary for the first time in 2024, and these fluorinated substances expand the list of micropollutants, it might be time for a change in the way these persistent environmental pollutants are tackled.

Sulfate concentrations in water have come under increasing scrutiny from regulatory authorities over the past two decades.

A major Texas-based refinery provides significant feedstock flexibility and product diversity to the area’s operations. The plant dates to the early 1900s and following upgrades now produces more than 125,000 barrels per day. A vital element of any refinery is its ability to be constantly ready to respond to a fire, so when the refinery found an inoperable valve on its 12” carbon steel fire suppression line and was in need of a way to add a valve to their system without shutting down the line, their maintenance and repairs contractor, ISS, suggested installing an AVT EZ Valve.