Coriolis measurement has been adopted as a default technology in many application scenarios due to its high accuracy and immunity to process variables (temperature, pressure and flow profile). However, Coriolis wasn't always widely accepted. Two applications, in particular, helped what was once a nascent flow measurement technology gain a foothold in the marketplace.

More than 2,000 years ago, Greek and Roman engineers harnessed the power of water to drive grain mills, and the technology soon spread as far as China, where it was used to forge iron. By the 4th century, the Romans had scaled up water wheel technology to build a massive flour plant in Arles, France, powered by 16 overshot water wheels. During the Renaissance, Leonardo da Vinci sketched out visions of water-driven sawmills, forges, factories, and spinning works.

A new report from the Academy of Medicine, Engineering and Science of Texas (TAMEST) is shedding more light on what we know and don’t know about the potential health and environmental impacts caused by oil and gas development in Texas.

A major oil refinery’s plant team ran into challenging issues when they attempted to optimize their large primary boiler system, which initially perplexed the plant’s process engineers. After extensive study, it was determined there was a problem controlling the boiler’s burner air-to-fuel mixture ratio.

We arm plant operators with actionable data necessary to make informed decisions about water management in industrial facilities.

Read about a technology that dairy plants can take advantage of to optimize the treatment of their wastewater and assure consistent compliance to effluent discharge permits.

California water reuse program provides multiple benefits, serving as a model for other municipalities.

Managing the treatment of wastewater — especially industry-generated wastewater that can elevate dissolved oxygen (DO) demands far beyond those of municipal/residential applications — is hard enough. Trying to do so during upset conditions is enough to put any water treatment professional on edge. Here are several preventive and remedial options to keep in mind before or after DO readings go haywire.

Anaerobic digestion is a practical and efficient technology to utilize considerable amounts of organic waste from intensive animal production and food processing and wastage during distribution/consumption, municipal waste, etc. to produce methane gas for electricity generation, local/process heating, and direct injection into the gas supply network.

It’s a scenario that is becoming more common at food and beverage facilities. The introduction of a new product to market, or a boom in sales of an existing product, prompts management to increase production capacity. While there is plenty of space for production equipment, the corresponding need for additional wastewater treatment capacity may not be readily accommodated.

Currently, in the Kingdom of Saudi Arabia about 1.5 million barrels of oil are consumed daily to generate electricity to drive reverse osmosis desalination plants.  This represents about 15 percent of KSA’s daily oil production. 

More than 2,000 years ago, Greek and Roman engineers harnessed the power of water to drive grain mills, and the technology soon spread as far as China, where it was used to forge iron. By the 4th century, the Romans had scaled up water wheel technology to build a massive flour plant in Arles, France, powered by 16 overshot water wheels. During the Renaissance, Leonardo da Vinci sketched out visions of water-driven sawmills, forges, factories, and spinning works.

We arm plant operators with actionable data necessary to make informed decisions about water management in industrial facilities.

In Cape Town, South Africa, the countdown is on for Day Zero when water taps in the city of 4 million people are expected to run dry.

2015 proved to be another weird weather year around the country, especially for Texas. 80 degrees and dry in Austin on Christmas Day, spring wildflowers in bloom, and kids playing outside in shorts — a surprise ending to a wild ride of drought followed by devastating floods followed by drought and then more floods.

After 40 years, the 1976 Toxic Substances Control Act (TSCA) has finally been updated, much to the delight of most — but certainly not all.

Read about a technology that dairy plants can take advantage of to optimize the treatment of their wastewater and assure consistent compliance to effluent discharge permits.

Aeration control strategies often remain conservative and static. Blowers operate continuously, oxygen levels are maintained near maximum, and airflow rates are rarely adjusted in response to real-time biological demand. The result is widespread over-aeration — a condition that does not improve treatment performance but significantly increases operating costs.

One of the U.S. EPA’s leading voices shares the agency’s most important agenda items.

California water reuse program provides multiple benefits, serving as a model for other municipalities.

Like a water-industry version of The Walking Dead, trace chemicals and pharmaceuticals are given new life when exposed to microbes in the wastewater treatment process.

If you want a job done right, you go to a professional — someone who specializes in the task and can make it a priority. Many of us do this when it comes to personal tasks such as oil changes, home repairs and more. The same should be said when it comes to our water systems.

Coriolis measurement has been adopted as a default technology in many application scenarios due to its high accuracy and immunity to process variables (temperature, pressure and flow profile). However, Coriolis wasn't always widely accepted. Two applications, in particular, helped what was once a nascent flow measurement technology gain a foothold in the marketplace.

Regulating the discharge of phosphorus from industrial and municipal wastewater treatment plants is a primary factor in averting the eutrophication of surface water sources. Phosphorus is one of the key nutrients that contribute to this process in both lakes and natural waters. Its existence has caused major water quality issues such as the diminished recreational value of these surface waters, increased water treatment costs as well as the potentially lethal consequences of mycotoxins from algal growth.

The dirt holding capacity of particle removal filters is dependent on the rate of fluid flow through the filter. This dirt-holding-to-flowrate response in non-linear and is a critical consideration when sizing a filter system for industrial filtration applications.