The client is one of the largest combined electric and gas companies in the United States, servicing 1.8 million gas customers and 2.2 million electric customers in more than 300 urban, suburban and rural communities. Following a successful site visit, the Client contracted Veolia for the treatment of up to 2725m³/h (12,000 gpm) of sewage plant effluent for cooling tower make-up.

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.

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.

IDE recently hosted exclusive guided tours of its horizontal falling film evaporator for SAGD water treatment at the fabrication shop in Calgary, Alberta. Over three days more than 120 industry professionals had the opportunity to experience IDE's SAGD Horizontal Evaporator first hand.

From cleaner water to infrastructure upgrades, good stories are easy to find after the state of New Hampshire set out to hold polluters accountable for contaminating groundwater with methyl tertiary-butyl ether (MTBE), a gasoline additive now banned or limited in several states. Through private well testing, watershed protection and new water facilities, the people of the Granite State are turning the tide on water contamination and restoring the safety and reliability of their drinking water supplies thanks to bold action to make sure polluters pay for damage.

While vegetarianism and veganism have both grown in popularity in the past decade, vegans and vegetarians combined are vastly outnumbered by people who love meat. In the United States, where we have hot-dog-eating contests and food-eating challenges, we consume a lot of meat of all types. Therefore, meat-processing water treatment is required to package and process these foods within the U.S. and across the world.

For food & beverage manufacturers, product safety is paramount. Minimizing water consumption and improving product ratio & energy savings, which reduce carbon footprint, are also key goals of sustainable F&B operation.

At Schreiber Foods' wastewater treatment plant in Utah, mineral acids had been used for pH control in the past but were discontinued due to safety and handling issues. Facility owners desired a safer, more cost-effective solution that would provide automatic control over process pH levels. 

With the worsening scenario of water scarcity across major world economies, the need for deploying wastewater recovery systems stands crucial to ensure the availability of fresh water among the masses.

Available water supply can be compromised by more than just drought — a challenge food and beverage manufacturers know well.

Reverse osmosis (RO) systems offer power plant owners and operators a reliable and well-proven water treatment solution. However, designing and caring for an RO system requires a thorough understanding of a plant’s water supply and the technology’s capabilities. The final article of this three-part series will address RO system operation and maintenance best practices.

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 power plant in Pinghu, Zhejiang Province in China needed to replace the use of chemical biocides and protect boiler feed make-up water from anaerobic and aerobic bacterial growth and associated biofouling.

It’s no secret that Texas is currently in the midst of a multi-year drought – yet the vast majority of our electricity comes from sources that contribute to this prolonged drought, namely coal, nuclear, and natural gas. All of these energy sources require copious amounts of water to produce electricity.

Desalination Technology Transforms 650 m3/day of Abused Industrial Wastewater

Reverse osmosis (RO) systems offer power plant owners and operators a reliable and well-proven water treatment solution. However, designing and caring for an RO system requires a thorough understanding of a plant’s water supply and the technology’s capabilities. The final article of this three-part series will address RO system operation and maintenance best practices.

Cooling and/or refrigeration is present in some form in almost every industrial production or process facility. The purpose of industrial cooling is to cool and remove heat from industrial machines, such as welding and injection molding machines, as well as industrial processes, including dairy, chemical and fermentation.

The city of Spanish Fork authorized building a water storage reservoir that serves as both a buffer for supplementing peak period water usage and as a recreational facility. Learn how Amiad's filters played a part.

The client is one of the largest combined electric and gas companies in the United States, servicing 1.8 million gas customers and 2.2 million electric customers in more than 300 urban, suburban and rural communities. Following a successful site visit, the Client contracted Veolia for the treatment of up to 2725m³/h (12,000 gpm) of sewage plant effluent for cooling tower make-up.

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.

While vegetarianism and veganism have both grown in popularity in the past decade, vegans and vegetarians combined are vastly outnumbered by people who love meat. In the United States, where we have hot-dog-eating contests and food-eating challenges, we consume a lot of meat of all types. Therefore, meat-processing water treatment is required to package and process these foods within the U.S. and across the world.

Since the industrial revolution, the total amount of waste has constantly grown as economic growth has been based on a ‘take-make-consume-dispose’ model. This linear model assumes that resources are abundant, available, and cheap to dispose of. In the U.S. and around the world, there is a move towards a ‘circular economy’ where products and waste materials are reused, repaired, refurbished, and recycled.

The impact of utility industry restructuring is being felt on several levels. The upside of distributed generation growth and the diversification of power sources are also resulting in the downside of loading issues, less switching flexibility and the potential for reverse power flow. New predictive asset analytics tools allow utility personnel to address these issues before they become problems. This paper reviews how these tools can be applied to both utility operations and maintenance.

For food & beverage manufacturers, product safety is paramount. Minimizing water consumption and improving product ratio & energy savings, which reduce carbon footprint, are also key goals of sustainable F&B operation.

For municipal and industrial wastewater treatment managers and support staffs, the prospect of using artificial intelligence (AI) to guide better decision-making sometimes seems more like a distant promise than a ready solution. Here are some insights on how AI can use historical data to improve operational intelligence and optimize processes, plus guidelines on how water professionals can do more to harness that power sooner.