Offshore platforms around the globe are essential to the production of oil/gas and the global energy supply chain, but they represent a daily hazardous operating environment to the employees that work there 24-x-7. The potential dangers range from a mix of toxic and combustible gases, including, but not limited to, deadly hydrogen sulfide (H2S) to explosive methane (CH4), and other mixed hydrocarbon gases that are easily flammable.

Shepard Energy Centre (owned by Enmax and Capital Power Corporation) is located in Calgary, Alberta, Canada. It began operating in March 2015 and is capable of generating over 800 megawatts of electricity to Alberta residents using natural gas. The facility utilizes (2) combustion turbines featuring a combinedcycle technology to generate electricity, and in addition, processes waste heat through a steam turbine to produce even more electricity. This electricity generation process makes Shepard approximately 30% more efficient than traditional coal-fired plants, and reduces overall fuel costs. Not only is Shepard’s plant more efficient, but better for the environment by emitting less than half of the CO2 emmissions per megawatt hour compared to a coal generated facility. Sulphur dioxide and nitrogen dioxide emissions are also reduced.

In the northeastern corner of Alberta, nestled among the expanses of forests and wetlands, lies a major freshwater dilemma that Canada is currently facing. The reuse of water for oil extraction causes tailings ponds to accumulate higher and higher concentrations of harmful contaminants. As such, the water in these tailings ponds is dangerous, and often lethal, to birds, fish, frogs, and plants.

GE partnered with the Wharton School's Initiative for Global Environmental Leadership (IGEL) for an industry leaders' discussion about the energy/water nexus in unconventional oil & gas production.

The Internet of Things (IoT), Industry 4.0, and connectivity in drives is the future, and many market segments must modernize to compete. The world is more connected than ever with new technological advances that produce higher process efficiency and time savings. To stay competitive in this environment, companies must include automated solutions such as remote management, monitoring, and control.

A food processing company in northern California has a small wastewater treatment plant to treat its wastewater before releasing it back to the local municipality.

“Bioelectrochemistry” is a mouthful, but it’s a word you should get familiar with if your goal is sustainable, energy-efficient industrial wastewater treatment.

Microbial contamination of food and beverage products is a potentially catastrophic occurrence resulting in foodborne illness or food spoilage. The same nutritive properties that render cheese and dairy products such a valuable food also provide an ideal growth medium for microbes if contamination occurs.

Chef Rubber, based in Las Vegas, Nevada, is a manufacturer and distributor of specialty supplies for chefs and well-known confectioners. The products include silicones, molds, colorants and colored cocoa butter. These unique tools are widely used by artisan chefs to create edible works of art for special events, competitions and other artistic applications.

Inspired in part by California’s Senate Bill 1383, which was enacted to reduce organic waste and methane emissions, co-digestion is fulfilling those goals while converting wastewater treatment plants into water resource recovery facilities.

At the 27th UN Climate Change Conference (COP27) in November 2022, world leaders gathered in Egypt to announce climate action initiatives and the steps each one planned to take to reduce the impacts of climate change in their respective countries. Among the leaders in attendance was U.S. President Biden, who outlined his goals and desires to double down on climate commitments relating to the water, food, energy nexus.

Offshore platforms around the globe are essential to the production of oil/gas and the global energy supply chain, but they represent a daily hazardous operating environment to the employees that work there 24-x-7. The potential dangers range from a mix of toxic and combustible gases, including, but not limited to, deadly hydrogen sulfide (H2S) to explosive methane (CH4), and other mixed hydrocarbon gases that are easily flammable.

Water’s high heat capacity, high thermal conductivity, and historically low cost make it popular for process heat exchange. Power plants, especially those for liquid cooling applications, withdraw a large fraction of the total demand for water necessary for agriculture, industry, recreation, hygiene, drinking, and wildlife.  By Kevin J. Farrell and Vijay Sathyamurthi, Heat Transfer Research, Inc., College Station, Texas USA

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.

Read about an extensive study that was carried out to evaluate the ability of the HOD UV system to control biofouling in the Governador José Richa Power Plant. 

A review of the most impressive, high-potential technologies featured at this year’s Membrane Technology Conference & Exhibition (AWWA/AMTA) in Las Vegas.

Water filtration in steel manufacturing should be one of those things that mill owners never have to worry about. But when filter systems fail to perform as expected, it’s time to invest in a smarter design. That was the situation at a midwestern steel mill that embarked on a major, eight-year conversion of its water filtration infrastructure.

At the 27th UN Climate Change Conference (COP27) in November 2022, world leaders gathered in Egypt to announce climate action initiatives and the steps each one planned to take to reduce the impacts of climate change in their respective countries. Among the leaders in attendance was U.S. President Biden, who outlined his goals and desires to double down on climate commitments relating to the water, food, energy nexus.

Sigura™ calcium hypochlorite offers cooling tower operators and their service providers a highly effective biocide designed for controlling microorganisms to maintain system cleanliness, achieve associated production efficiency gains, and help guard against biofouling. Learn how a West Coast service provider's switch to Calcium Hypochlorite lead to a more consistent chlorine concentration and eliminated the need for frequent pump adjustments.

This article is the fifth in a series on industrial water treatment focusing on inorganic contaminants. While regulatory limits are being established, the process of identifying a cost-effective treatment process should be undertaken. Potential water treatment processes for inorganic contaminants can be grouped into three categories: physical, chemical, and biological. This article will describe the biological treatment technologies that may be considered.

Offshore platforms around the globe are essential to the production of oil/gas and the global energy supply chain, but they represent a daily hazardous operating environment to the employees that work there 24-x-7. The potential dangers range from a mix of toxic and combustible gases, including, but not limited to, deadly hydrogen sulfide (H2S) to explosive methane (CH4), and other mixed hydrocarbon gases that are easily flammable.

A food processing company in northern California has a small wastewater treatment plant to treat its wastewater before releasing it back to the local municipality.

Water’s high heat capacity, high thermal conductivity, and historically low cost make it popular for process heat exchange. Power plants, especially those for liquid cooling applications, withdraw a large fraction of the total demand for water necessary for agriculture, industry, recreation, hygiene, drinking, and wildlife.  By Kevin J. Farrell and Vijay Sathyamurthi, Heat Transfer Research, Inc., College Station, Texas USA

A Phosphorus mine in Wyoming needed to treat high selenium concentrations leaching into the surface water. Read the full case study to learn how Toray projected to save the plant energy costs for years.

A utility company in the Pacific Northwest region of the United States needed to regulate the outflow of a large dam built in the 1930s. The outflow of the dam feeds a river into which the state government wanted to reintroduce a salmon run. Because of this, the utility company would need to comply with some very restrictive limits on how quickly they could change the level of the river. They were now required to account for all water flowing downhill from the dam.