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.

Is this innovative desalination technique ready to topple incumbent technologies? An industry expert explains the benefits and potential of forward osmosis.

Brine is everywhere: desalination plants, gas and oil drillings, energy generation plants, mines, cooling towers, food manufacturing plants, chip fabrication, and many other industries that require high volumes of water. They all generate brine as a byproduct of their processes.

No business wants the word "toxic" associated with its operations. The world has grown very weary (and wary) of companies that aren't environmentally responsible. So while toxic wastewater as a byproduct of mining, oil refining, or other industrial processes isn't new, the impetus to treat these streams is steadily rising.

Ambient dust from construction and from the environment was contaminating the campus cooling tower system resulting in contamination buildup in the cooling tower equipment. This required significant labor hours to clean and frequent blowdown, resulting in higher water usage than was desired.

A food manufacturer in Washington state had a source of well water contaminated with vegetable and fish oils. A five gallon sample was was sent to Kaselco for testing via our electrocoagulation process.

Brine is everywhere: desalination plants, gas and oil drillings, energy generation plants, mines, cooling towers, food manufacturing plants, chip fabrication, and many other industries that require high volumes of water. They all generate brine as a byproduct of their processes.

In this article, read about the emergence of business sustainability and sustainably-driven innovation as a force for change within wastewater treatment and the associated compliance functions of the food and beverage industry.

Leprino Foods, the world's largest mozzarella cheese producer, operates two plants that share one wastewater pipeline – a 16” SDR11 High Density Polyethylene Pipeline (operating at approximately 160 PSI). During dirt work an “auger” hit the wastewater pipeline and drilled an 8” diameter hole in the line. Leprino needed immediate access to a repair fitting for this line.

A quality outcome is only as reliable as the components and processes used to create and test it. When it comes to municipal drinking water, food, beverages, wastewater effluent, and other industrial applications, having reliable microbiological testing reference materials to benchmark quality control (QC) processes is essential. Here are some important points to consider when establishing or managing QC programs.

The client revived, expanded and modernized its operations in order to produce rare earth materials in high volumes and in an environmentally responsible manner. As part of the expansion, the client contracted Veolia to design and build a new water treatment plant for their state-of-the-art rare earth facility.

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. 

Brine is everywhere: desalination plants, gas and oil drillings, energy generation plants, mines, cooling towers, food manufacturing plants, chip fabrication, and many other industries that require high volumes of water. They all generate brine as a byproduct of their processes.

Deep in the Israeli desert is an academic institute that is building peace in the region by putting nature at its center. The Arava Institute, in partnership with Ben Gurion University, brings students from Israel, Palestine, Jordan, and around the world to find common ground around environmental problems and build trust — and peace — from there.

Reverse osmosis (RO) pre-treatment is used in industrial water filtration to protect the RO membranes, high pressure pumps and other hardware. The performance of pre-filters matters and can impact your operation, in terms of efficiency and water quality.

A food manufacturer in Washington state had a source of well water contaminated with vegetable and fish oils. A five gallon sample was was sent to Kaselco for testing via our electrocoagulation process.

Read about how the installation of the HOD UV technology has been a viable non-chemical means for biological control and membrane protection for Trimble County.

The client revived, expanded and modernized its operations in order to produce rare earth materials in high volumes and in an environmentally responsible manner. As part of the expansion, the client contracted Veolia to design and build a new water treatment plant for their state-of-the-art rare earth facility.

This application note explores a test which demonstrated significant improvements in Oil-in-Water monitoring of industrial wastewater in comparison to the weekly grab sample analysis method.

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.

Is this innovative desalination technique ready to topple incumbent technologies? An industry expert explains the benefits and potential of forward osmosis.

Learn how DC Water utilized GeoSpray geopolymer mortar to repair a brick sewer in the a heavily trafficked business and tourist area.

Colleges and universities are working harder than ever to account for their resources, but getting a handle on steam production can be tricky. A growing number of schools are banking on one solution for better insight.

The AquaNereda® Aerobic Granular Sludge System (AGS) is an innovative biological wastewater treatment technology that provides advanced treatment using the unique features of aerobic granular biomass. This advanced nutrient removal process can reduce footprint up to 75% and energy up to 50% when compared to conventional activated sludge systems.

“Water Champion” Paula Kehoe looks to do for the nation what she did for San Francisco — to greatly expand water reuse opportunities and implementation. In this Q&A, she discusses her new role as chair of a national commission for onsite non-potable reuse, the San Francisco model, and the best practices and obstacles for sustainable water operations.