Peracetic acid (PAA) is one of the most versatile and widely used disinfectants on the market. PAA has proven to be an excellent sanitizer and disinfectant in the food, beverage, cosmetic, pharmaceutical, and agriculture industries for industrial water treatment, as well as an excellent disinfectant for use in the wastewater treatment industry.
As the popularity of hydraulic fracturing continues to strain available water supplies, a new technology may be the key to recycling produced water in an affordable way.
The clarity of water in a stream, river or ocean is a key determinant in fostering a healthy and balanced aquatic ecosystem. The clearer the water, the greater the ability of light to penetrate to aquatic plants which generate the oxygen needed for aquatic life.
A $15 million federal, solar desalination funding program seeks to foster a world where utilities and industrial operations have easier access to fresh water.
A midstream gathering and processing gas company in the Southern United States processes, treats, and compresses natural gas from a formation rich in hydrocarbons, liquids, hydrogen sulfide, nitrogen, and CO2.
Mines throughout Pennsylvania contain millions of gallons of contaminated water, putting thousands of stream miles at risk.
Municipal water services continually utilize improved technologies so that they can offer their customers higher water quality. Water can be improved by partially softening the water, which results in lower detergent consumption and lower scaling on kitchen utensils and water fittings.
Although industry only accounts for 20% of water consumption globally (vs. 70% for agriculture and 10% for domestic consumption), most multinational industrial companies are now focused on ensuring they provide effective environmental management wherever they are in the world.
While some water quality parameters may get more attention in industrial settings, few are more critical than conductivity. Understanding conductivity monitoring for industrial applications — where it is needed, how it works, and how to leverage the appropriate instruments and standards in order to pinpoint it — will unlock huge gains in efficiency, effectiveness, and regulatory compliance.
Not all water treatment needs are the same. That’s why it’s imperative to work with those that understand the subtle differences that make each industry unique. For food and beverage companies, that means aligning with KLa Systems, a company focused on oxygen transfer with a track record of innovation in jet aeration and mixing.
Jack Link’s, a leading protein snack producer, was in need of a water treatment solution at its facility in Alpena, South Dakota.
Industrial operations across the gamut leverage boiler water, the liquid that passes through a boiler and is converted into steam, thus powering operations around the world. But not all of them do as much as they could to ensure peak boiler water efficiency. Through the proper treatment considerations and quality measurement knowledge, every industrial player can make the most of this central process.
Municipal water services continually utilize improved technologies so that they can offer their customers higher water quality. Water can be improved by partially softening the water, which results in lower detergent consumption and lower scaling on kitchen utensils and water fittings.
The need for carbon monoxide equivalent (COe) monitoring in coal-fired power plants is increasing dramatically. A shift towards heat rate efficiency is occurring within the coal-fired boiler community. Increased competitiveness in electricity rates combined with indications of future limits expected by the EPA are driving the need to actively measure COe in order to improve combustion efficiency and minimize CO.
You probably have some sort of insurance – for your healthcare, car, house, or apartment. Acting on climate change is also like insurance. It is all about managing the risks.
To assist industrial operators in managing and preventing biofilm, Italian start-up ALVIM Srl created a monitoring system that provides early warning detection of bacterial biofilm growing on pipelines, tanks, heat exchangers, RO membranes, and other equipment.
As the popularity of hydraulic fracturing continues to strain available water supplies, a new technology may be the key to recycling produced water in an affordable way.
The clarity of water in a stream, river or ocean is a key determinant in fostering a healthy and balanced aquatic ecosystem. The clearer the water, the greater the ability of light to penetrate to aquatic plants which generate the oxygen needed for aquatic life.
Industrial operations across the gamut leverage boiler water, the liquid that passes through a boiler and is converted into steam, thus powering operations around the world. But not all of them do as much as they could to ensure peak boiler water efficiency. Through the proper treatment considerations and quality measurement knowledge, every industrial player can make the most of this central process.
In the semiconductor industry, ultrapure water usage can be in order of 2 to 4 million gallons a day. The entire ultrapure water treatment process is comprised of two segments: makeup water and a high-purity water loop.
Nutrients in the environment from excess nitrogen and phosphorous can result in negative impacts on water quality. EPA is improving nutrient management by incentivizing the development of low-cost technology solutions, such as nutrient sensors, in collaboration with USGS, USDA, NIST, NOAA, and the U.S. Integrated Ocean Observing System (IOOS).
A $15 million federal, solar desalination funding program seeks to foster a world where utilities and industrial operations have easier access to fresh water.
Do you know that people throw away about around 4 million tons of rubbish on a daily basis, of which 12.8 percent is plastic?
Municipal water services continually utilize improved technologies so that they can offer their customers higher water quality. Water can be improved by partially softening the water, which results in lower detergent consumption and lower scaling on kitchen utensils and water fittings.
To minimize losses and address mounting concerns, the water industry is now adopting advanced sensor and communications solutions designed specifically for “smart” Internet of Things (IoT) water management. In large part, the move toward implementing smart water solutions is being driven by stricter government compliance requirements, the evolution of smart cities, and the need for water conservation.
The WesTech CleanFlo™ Monoscreen® is a highly efficient, self-cleaning fine screen that is being used in a wide variety of wastewater and process water treatment applications. Utilizing a reliable blade and drive system, the Monoscreen creates a progressive step motion that allows the screenings to be evenly distributed while minimizing water level surges.The result is a screenings capture ratio of 82.5 percent.When matched with WesTech’s CleanWash™ SWP/CPS dewatering unit, the combination maximizes the solids capture rate for almost any headworks operation while minimizing the amount of solids for disposal.
Delivers leading-edge technology to the non-invasive switch market by facilitating accurate level measurement for oil & gas, chemical, and power generation applications.
OPUS® II is a proprietary process for high recovery of complex wastewater streams. This new innovation uses CeraMem® ceramic membranes as pretreatment for reverse osmosis to reduce the system footprint. OPUS II can be delivered in modular, containerized units to minimize installation costs.
Like the original OPUS technology, OPUS II effectively removes silica, organics, hardness, boron, strontium and particulates. It generates high quality effluent at a high recovery rate, providing clean water for discharge, recycle or reuse.
Build it yourself or have it built: it’s your decision. But we can give you good reasons to decide in favour of “having it built”.
Salt water, sludge and slurry, corrosive and abrasive liquids, and effluent with unpredictably high or low pH values. These are tough water transport challenges that require tough pumps. The Flygt 2700 series from Xylem are rugged stainless steel submersible dewatering pumps that handle tough drainage jobs and sludge removal with ease.
For large camps with populations expected to exceed 2,000 people, newterra’s modular PWT-500 Potable Water Treatment Large Train System employs 40' containers dedicated to a specific, complimentary treatment process (e.g. greensand filtration, nanofiltration, etc.)
Long-lasting performance, and the highest oxygen-transfer rates of any mechanical aeration system on the market.
