GE Water & Process Technologies and the World Resources Institute (WRI), an independent research organization studying sustainability, jointly produced a white paper called “Water-Energy Nexus: Business Risks and Rewards.” The paper hones in on the shared interest of the two groups, namely the supply of freshwater counted on by the energy industry, which in turn fuels water treatment operations, a relationship that’s known as the “water-energy nexus.”

Collaborative research is a critical element for identifying unforeseen risks associated with using the oil industry’s wastewater outside the oilfield. That’s the recommendation of a new peer-reviewed paper accepted this week in the Journal of Integrated Environmental Assessment and Management (IEAM).

The U.S. EPA sets national ambient air quality and greenhouse gas emission standards to ensure public health. Thermal mass flow meters deliver a direct reading of mass flow rate of natural gas and other fuel gases — without temperature and pressure compensation — and provide a simple, reliable and cost-effective method for tracking and reporting fuel consumption.

This white paper explores how advanced biological technologies — including MBBR, IFAS, SBR, and MBR systems — are transforming wastewater management in this sector.

A dedicated, manufacturer-approved verification system is the ideal solution for maintaining optimal performance of your installed base of KROHNE electromagnetic and mass flow meters.

Aeration for industrial and municipal wastewater treatment involves more than simply moving volumes of air through a treatment basin. It really comes down to creating and sustaining an optimal oxygenated environment for microorganisms to convert oxygen consuming compounds into CO₂ and water. Here are some key considerations for making better retrofit decisions about upgrading existing basin capacity and efficiency with jet aeration.

This is the second in a series of articles and case studies examining the emergence of sustainably-driven innovation within the wastewater treatment functions of the food and beverage industry as sustainability and production issues intersect and influence how companies manage their wastewater.

As with any industrial process, the right tool for the job depends on the nature of the task at hand. In aerobic wastewater treatment, that optimal choice often comes down to a balance between the biological and financial demands of the application. Either way, here are several performance comparisons of how multiple aeration methods and locations stack up in industrial wastewater treatment applications.

Industrial companies need reliable water treatment technology, since failure of a water system may result in downtime for production, with significant financial impacts. Ultraviolet (UV) technology is used for water treatment in various industries such as microelectronics, food & beverage, pharmaceuticals, and many other industry segments.

Plant managers at Del Monte Foods in Siloam Springs, Ark. utilized a 14 million gallon facultative lagoon to provide treatment before applying the effluent on 500 acres of land nearby. However, the facultative lagoon was unable to meet the municipal pretreatment permit requirements, resulting in surcharges of $450,000 per month. Read the full case study to learn more. 

GE Water & Process Technologies and the World Resources Institute (WRI), an independent research organization studying sustainability, jointly produced a white paper called “Water-Energy Nexus: Business Risks and Rewards.” The paper hones in on the shared interest of the two groups, namely the supply of freshwater counted on by the energy industry, which in turn fuels water treatment operations, a relationship that’s known as the “water-energy nexus.”

Glendale Heights Wastewater Treatment Plant discharges treated water to the East Branch of the DuPage River in Illinois.

Selenium, a contaminant of concern in industries such as mining, oil refining, and power generation, is removed from wastewater principally through either biological or chemical/physical processes. This article will describe those technologies, several technology providers, and other sources of information.

In commercial brewing — as with other food, chemical, or industrial processes — control over steam heating can have significant influence on process costs and consistent quality in the final product. But its measurement and control can also be impacted by unique circumstances of those applications. Here is how changing just one aspect of steam measurement brought economy and consistency to multiple aspects of a brewer’s overall process.

At the end of 2011, the total hydroelectric installed capacity in the United Kingdom accounted for approximately 1.67 Gigawatts (GW) of installed electrical generating capacity, being 1.9% of the current total UK generating capacity, and 14% of the UK's renewable energy generating capacity.

In municipal or industrial wastewater treatment applications, steel constructed tanks up to 5.0 million gallons per day (MGD) and below offer significant advantages over concrete; benefits that lead to lower operating and lifetime costs, regardless of application.

Increasing profitability through efficient tailing and pregnant solution processing. 

The Gulf Coast Refinery approached USP Technologies (USP) to engineer a bulk H2O2 chemical dosing system sized to meet the plant’s D.O. demand

All communities depend on clean water and that supply of clean water depends on the actions of members in the community and outside of it. The small city of Kutztown lies within the Saucony Creek watershed in Berks County, Pennsylvania. The watershed is mostly agricultural, dotted with small family crop and livestock farms, and the activities on these farms affect water supplies near and far.

This processing plant faced operational challenges due to ceramic dust from the manufacturing process passing through their clarifier, even with flocculent addition.

Due to ongoing operational issues, MBR modules at the Pharmez Special Economic Zone near Ahmedabad required replacement. Read the full case study to learn more.

GE Water & Process Technologies and the World Resources Institute (WRI), an independent research organization studying sustainability, jointly produced a white paper called “Water-Energy Nexus: Business Risks and Rewards.” The paper hones in on the shared interest of the two groups, namely the supply of freshwater counted on by the energy industry, which in turn fuels water treatment operations, a relationship that’s known as the “water-energy nexus.”

The United States commercial water treatment market was valued at over $5.0 billion in 2021 and is expected to witness a compound annual growth rate (CAGR) of between 5.0 to 10.0 percent over the next 7 years. Key players in this market include Culligan International Co., Ecolab, Inc., Evoqua Water Technologies Corp., and Pentair Industries, Inc.

Per- and polyfluoroalkyl substances (PFAS) are a group of an estimated 5,000 man-made fluorinated chemicals that have been used, since the 1940s, in the manufacturing processes of various consumer products and industries. PFAS are widely used, especially because of their oil and water repellency and temperature and chemical resistance.

Collaborative research is a critical element for identifying unforeseen risks associated with using the oil industry’s wastewater outside the oilfield. That’s the recommendation of a new peer-reviewed paper accepted this week in the Journal of Integrated Environmental Assessment and Management (IEAM).