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.

Hydraulic fracturing is a hot-button issue, but no matter where you land you should agree that more efficient produced water filters will go a long way in improving the practice.

As the oil industry grows, so does the amount of produced water that must be treated. A variety of technologies are available for produced water treatment. Water Online shares a side-by-side comparison. 

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.

Water scarcity is a challenge facing many Texas communities, and it’s encouraging to see how many state leaders are proactively exploring solutions to our growing water needs. This has brought the oil and gas industry and the massive volumes of water it uses and produces each year into the conversation.

Diatomaceous earth (DE) filters, sometimes called Kieselguhr, pressure leaf or primary filters, are one of the most prevalent filters found in modern breweries. Many beers, pasteurized or not, will pass through a DE filter.  

To help you select the best wastewater treatment strategy for your dairy processing application, this white paper provides a helpful overview of some of the challenges you will encounter including biochemical oxygen demand (BOD), total suspended solids (TSS), nitrogen and phosphorus removal.

Employing roughly 5,000 workers in 12 countries, Vandemoortele bakery and production plant owes its success to high standards of quality, innovative production technologies, and a flair for finding economic alternatives. The latest example is the SITRANS FC430 Coriolis flow meter.

Wastewater treatment operations are beginning to embrace the power of automation. How can it help? And how is it implemented?

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. Maybe, you already know because you saw a random episode of ‘How its Made’ on TV discussing ultrafiltration uses in the beverage industry while your were channel surfing on a lazy afternoon. Either way, 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 use substantial amounts of water in their production processes.

It’s no wonder that the word "radioactive" scares people. I remember Chernobyl. I was raised on The Simpsons, with its bumbling plant operators and three-eyed fish. I've followed the Fukushima tragedy closely. But, scary or not, nuclear power isn't going anywhere soon.

A partnership between power and desalination plants may be the solution to drinking water scarcity. Researchers are working on a new system that can create potable water using a low-temperature desalination process powered by waste heat from a waterless power plant cooling system. 

By making strategic choices to maximize energy-water efficiencies, we can help protect our supplies in advance of our next drought. Here are three ways that work.

A leading provider of water and wastewater treatment solution for industrial, municipal, and recreational customers faced a number of issues with the safe treatment and disposal of coal ash and residual ash in ponds. Frequent testing at multiple locations was needed to ensure water safety and compliance. 

For some instruments, downtime is necessary while service operations are undertaken. Swan Analytical Instruments has developed technology for power and industrial water/steam monitoring systems to enable uninterrupted operation.

Diatomaceous earth (DE) filters, sometimes called Kieselguhr, pressure leaf or primary filters, are one of the most prevalent filters found in modern breweries. Many beers, pasteurized or not, will pass through a DE filter.  

Cost-efficient aeration still remains an underlying challenge. This Q&A article provides a look at how the industry arrived at today’s opportunities and where it’s headed for the future.

Tertiary reverse osmosis (RO) wastewater recycling has become a suitable solution to augment water supplies to combat water scarcity across the world. RO desalination in tertiary wastewater processes has proven to provide a cost efficient way to reuse water for both municipalities and industrial organizations.

To help you select the best wastewater treatment strategy for your dairy processing application, this white paper provides a helpful overview of some of the challenges you will encounter including biochemical oxygen demand (BOD), total suspended solids (TSS), nitrogen and phosphorus removal.

A new study of Australian management attitudes towards environmental initiatives involving cleaner water and greener energy has found strongly increasing support among the people who are key to making such projects happen.

It’s no wonder that the word "radioactive" scares people. I remember Chernobyl. I was raised on The Simpsons, with its bumbling plant operators and three-eyed fish. I've followed the Fukushima tragedy closely. But, scary or not, nuclear power isn't going anywhere soon.

As states and the federal government attempt to crack down on the proliferation of PFAS and their health consequences with a spate of new regulations, there is one significant upcoming ruling that will have tremendous impact for compliance and costs: the final rule on PFAS CERCLA designation.

Overcoming complex landfill leachate challenges requires advanced electrochemical treatment. Learn how integrating self-cleaning electrocoagulation effectively reduces odors, heavy metals, and persistent contaminants while lowering operational costs and ensuring regulatory compliance for difficult-to-treat wastewater streams.

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.