A long-standing staple — water — is rapidly becoming a major issue for companies, not merely as a risk or line item expense, but for the potential it has to significantly impact shareholder value.  

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.

I’m not inclined to pick on the EPA, but in the wake of the recent report that they overstepped their authority on stormwater regulation, I saw that The Associated Press did an exposé charging the EPA with suppressing information on hydraulic fracturing’s link to drinking water contamination.

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.

Petrogas LLP, one of the world’s largest oil rehabilitation companies, required demineralized water for a new boiler component to its Turkmenistan refinery.

As with any industrial process, the right tool for the job depends on the nature of the task at hand. In aerobic wastewater treatment, that optimal choice often comes down to a balance between the biological and financial demands of the application. Either way, here are several performance comparisons of how multiple aeration methods and locations stack up in industrial wastewater treatment applications.

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.

Too much of a good thing can create new problems as quickly as it resolves old ones. Maintaining a proper balance of antifoaming agents and polymer additives is critical for sustaining the appropriate air bubble size and distribution needed to achieve dissolved oxygen (DO) requirements for neutralizing high biochemical oxygen demand (BOD) in many industrial and food processing wastewater applications.

No one enjoys being compelled to do things, especially when it dips into their wallet. For many in the industrial manufacturing and food processing sectors this is exactly what wastewater management is to them — a compulsory, bottomless money pit dug by regulatory bodies, seemingly just to make things difficult for business owners.

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.

Utilities are faced with myriad threats looming in the future, but chief among them is increased stress from population growth. In Denver, comprehensive planning for that future is underway.

This Hamilton Project memo presents nine economic facts that provide relevant background context to the water crisis in the United States.

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.

Now that the final rule has been published in the Federal Register, the stage is set for official implementation of the U.S. EPA’s Steam Electric Power Generating Effluent Guidelines on Jan. 4, 2016.

Just when we thought the jurisdictional and regulatory issues concerning the federal Clean Water Act and the resulting implications could not get more complicated, recent developments have put that possibility to rest.

For centuries, scientists believed that silicon — an element that accounts for nearly 28 percent of the earth’s crust — had little to do with life-sustaining processes in animal and plants. But in the last couple of decades, science has begun to recognize something new: Silicon can reduce the effects of various stressors on plants, including water stress. This ubiquitous, but overlooked, mineral could be the key to more resilient crops worldwide.

As with any industrial process, the right tool for the job depends on the nature of the task at hand. In aerobic wastewater treatment, that optimal choice often comes down to a balance between the biological and financial demands of the application. Either way, here are several performance comparisons of how multiple aeration methods and locations stack up in industrial wastewater treatment applications.

Nobel-winning molecular materials are poised to reinvent purification, desalination, and reuse.

The word “unprecedented” is overused and often abused. Water stress, however — the situation in which the water resources in a region or country are insufficient for its needs — is today a major threat and we are in fact facing “unprecedented” challenges. Climate change is a big factor contributing to it, but it’s not the only factor. Without rapid changes in industrial water usage, it is predicted that within 10 years there will be a 40 percent global water deficit.

Odor problems at manufacturing facilities can be unexpected, and can work against the production the facility is meant to accomplish. It starts out as a nuisance or a non-compliance issue, but can become a much bigger problem. Solving the problem requires analyzing how a facility’s processes generate and disperse odorous air, and then identifying an appropriate odor control solution.

Using efficient irrigation for outdoor lawns is an effective way to save water and to delay the need for water utilities to develop new water sources. In 2005, Orange County Utilities (FL) began an effort to plan for alternate water sources in Orange County because its primary water source, the Floridan Aquifer, was predicted to meet its capacity to provide water.

As we celebrate Smart Irrigation Month, it's a great time to highlight not only smart technologies, but the smart people and smart decisions behind them. One remarkably smart tool that ties all three of those elements together is the Irrigation Consumer Bill of Rights by Dr. Charles Burt of the Irrigation Training and Research Center (ITRC) at the California Polytechnic State University (Cal Poly) in San Luis Obispo.

The very competitive Pulp & Paper Industry is sensitive to global economic conditions.