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.

The global submersible pumps market size will expand 1.5X in the coming decade. Submersible pumps are emerging as the preferred pumping technology across various end-uses, including wastewater management and oil & gas manufacturing. Submersible pumps are considered ideal for applications involving highly viscous fluid that require proper elimination of vapor cavities.

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.

The accurate measurement and disposal of flare gases aboard floating production storage and offloading (FPSO) vessels is essential to manage these potentially hazardous combustible, flammable and toxic gases. Accurate measurement of these waste gases allows them to be processed efficiently and effectively to protect people and equipment aboard the vessel. Measuring of flare gas is also most often a strict regulatory requirement, as it can form the basis for payment of environmental taxes, climate quotas, etc.

Keeping an eye on what happens with domestic oil and gas regulation is a bit like herding cats. We’ve seen encouraging progress on air quality issues related to oil and gas, but an equally critical front that’s seen major action is protection of our land and water resources.

On Earth Overshoot Day (August 22 this year), Village Brewery, a Calgary craft beer-maker, joined University of Calgary researchers and Xylem Technologies, a U.S.-based water technology company, to brew a crisp blond ale from reused wastewater — the first case of direct potable reuse in Alberta and possibly Canada.

An outstandingly efficient industrial wastewater treatment plant using technology being introduced to Australasia is demonstrating to the food, beverage, and agribusiness processing industries how to turn waste into profit.

Discover how one beverage manufacturer was able to balance producing a quality product while also undertaking the challenging of reclaiming and treating its effluent.

Latin America and the Caribbean have rich potential to replace fossil fuels with green energy as technology delivers profitable and environmentally friendly alternative sources of heat and electricity generation.

Brewing beer is both an art and a science. Beer needs to taste good, but it also must look good, be protected from spoilage, and come from a brewing process that’s reliable and efficient, minimizing product waste to maximize what gets into the bottle.

This article is the first of two in a Women’s History Month series that showcases a handful of the National Renewable Energy Laboratory’s (NREL's) outstanding women researchers in water power.

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.

What would happen if there was an emergency in the U.S. that caused radioactive material to contaminate drinking water supplies? What steps could your utilities and government take?

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.

The accurate measurement and disposal of flare gases aboard floating production storage and offloading (FPSO) vessels is essential to manage these potentially hazardous combustible, flammable and toxic gases. Accurate measurement of these waste gases allows them to be processed efficiently and effectively to protect people and equipment aboard the vessel. Measuring of flare gas is also most often a strict regulatory requirement, as it can form the basis for payment of environmental taxes, climate quotas, etc.

Cleaning tannery effluent is an energy-intense process. The Curtidor Industrial Park (PIC) has found a way to keep energy usage and costs down while reducing pollution in the Riachuelo River.

The use of pesticides to control unwanted pests dates back hundreds of years.

Level monitoring systems has successfully triumphed every implementation. Their deployments allow the users to measure the level of liquid stored in a container of any shape, size, orientation, or material. Powered with the advanced telemetric technology of Internet of Things, these systems measure liquid level without making any contact with the liquid and transmit the readings to a comprehensive platform suite.

The operator of a Rocky Mountain based livestock facility approached FreeWave to assist in remote data visualization of water tanks that are vital to its operations.

On Earth Overshoot Day (August 22 this year), Village Brewery, a Calgary craft beer-maker, joined University of Calgary researchers and Xylem Technologies, a U.S.-based water technology company, to brew a crisp blond ale from reused wastewater — the first case of direct potable reuse in Alberta and possibly Canada.

Can “leaky hoses” really be considered an innovation? The answer is yes — when applied (ingeniously) for liquid/solids separation.

This article is the first of two in a Women’s History Month series that showcases a handful of the National Renewable Energy Laboratory’s (NREL's) outstanding women researchers in water power.

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.

Chemical dosing pumps directly impact mining profitability. Optimized dosing improves recovery, reduces costs, enhances safety, and ensures compliance—making high-quality pumps essential to plant performance.

For water system operators, contract engineers, OEMs, and reverse-osmosis (RO) membrane suppliers alike, the difference between expectations for RO membrane element performance and quantifiable performance in the actual operating environment can be fraught with surprises. This article addresses guidelines for establishing realistic RO warranty performance criteria and achieving those criteria in real-world applications.