INDUSTRIAL WATER AND WASTEWATER TREATMENT
Rethinking Aeration: Demand-Based DO Control And Energy Optimization
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.
WATER AND WASTEWATER SOLUTIONS FOR THE OIL AND GAS INDUSTRY
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Produced Water Management: An Overlooked Subject In Academia
Water is one of the world's most critical natural resources, but too many people take it for granted, raising awareness of its importance — and complexities — is too often left out of public discourse. My recent visit to a few engineering colleges as a STEM ambassador made me realize that many engineering programs are offered today than when I went to school.
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Treatment Of Produced Water By Electrocoagulation
Produced water (PW) is salty water trapped in the reservoir rock and brought up along with oil or gas during production. It subsists under high pressures and temperatures, and usually contains hydrocarbons and metals. Therefore, it must be treated before being discharged to surface water. Different techniques are being used to treat PW through phase separations, system control and design, and chemical treatments. In this paper, we discuss our experimental results on treating PW through electrocoagulation (EC).
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New Technologies Set To 'Disrupt' The Industry
For the unfamiliar, the term “disruptive technology” initially sounds quite bad, as though it describes something that gets in the way. Far from impeding progress, however, disruptive technologies actually accelerate progress exponentially by disrupting the status quo. Think personal computers vs. mainframes, or cell phones vs. land lines.
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Global Crisis And Modern Solutions At The Water-Energy Nexus
GE Water & Process Technologies and the World Resources Institute (WRI), an independent research organization studying sustainability, jointly produced a white paper called “Water-Energy Nexus: Business Risks and Rewards.” The paper hones in on the shared interest of the two groups, namely the supply of freshwater counted on by the energy industry, which in turn fuels water treatment operations, a relationship that’s known as the “water-energy nexus.”
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Helping Breweries Cut Natural Gas Costs And Waste Gas Emissions
No matter whether consumers choose a pilsner, an ale, or another popular type of beer, there is a critical focus at nearly all breweries today on their production process energy (natural gas) costs and plant environmental compliance (waste gas emissions). Failing to pay attention to the efficiency of these processes at breweries or any other type of food and beverage processing plant can lead to cost competitiveness issues and hefty regulatory fines.
WATER AND WASTEWATER SOLUTIONS FOR THE FOOD AND BEVERAGE INDUSTRY
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Here's How Wastewater Facilities Could Tackle Food Waste, Generate Energy, And Slash Emissions
Most Australian food waste ends up in landfill. Rotting in the absence of oxygen produces methane, a potent greenhouse gas. While some facilities capture this “landfill gas” to produce energy, or burn it off to release carbon dioxide instead, it’s a major contributor to climate change. Valuable resources such as water and nutrients are also wasted.
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Helping Breweries Cut Natural Gas Costs And Waste Gas Emissions
No matter whether consumers choose a pilsner, an ale, or another popular type of beer, there is a critical focus at nearly all breweries today on their production process energy (natural gas) costs and plant environmental compliance (waste gas emissions). Failing to pay attention to the efficiency of these processes at breweries or any other type of food and beverage processing plant can lead to cost competitiveness issues and hefty regulatory fines.
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Wastewater Management In The Food Industry Food production not only uses a lot of water in their products, but they also deal with unique wastewater challenges. These challenges are compounded by the varying nature of contaminants present in food & beverage wastewater. Treatment facilities must be designed to handle fluctuating volumes and compositions of wastewater, while maintaining consistent performance.
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Importance Of Filtration in Water Treatment For Process Water & Wastewater Reuse
Filtration is very important for many commercial/industrial process water & wastewater reuse applications. In reality, pumping wastewater from somewhere like a refinery, food/beverage, textile or oil produced water application requires pre-filtration due to high amount of suspended solids in these typical applications. In fact, there are typically several filtration and treatment steps in these applications to ensure that the treated water meets the required discharge or reuse standard. In addition, filtration in water treatment ensures reduced operating cost on downstream polishing water treatment systems.
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Treating Food Wastewater Efficiently Using Jet Aeration
Food processing is a water-intensive process, and its wastewater byproduct is typically high in volumetric daily flow and also biochemical and chemical oxygen demand (BOD and COD), organics, and nutrients. Consequently, significant on-site treatment and resources are necessary.
WATER AND WASTEWATER SOLUTIONS FOR THE POWER GENERATION INDUSTRY
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RO Membranes' Protection At Pinghu Power Plant, China
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.
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Global Crisis And Modern Solutions At The Water-Energy Nexus
GE Water & Process Technologies and the World Resources Institute (WRI), an independent research organization studying sustainability, jointly produced a white paper called “Water-Energy Nexus: Business Risks and Rewards.” The paper hones in on the shared interest of the two groups, namely the supply of freshwater counted on by the energy industry, which in turn fuels water treatment operations, a relationship that’s known as the “water-energy nexus.”
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Compliance Tips For EPA's New Power Plant Regulations
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.
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Cloth Media Filtration Removes Coal Ash And Coal Fines At Power Plants
Coal-fired power plants generate coal fines and coal ash from a number of sources, including coal combustion residuals (CCR), particularly fly and bottom ash from coal furnaces, and coal pile runoff during rain events. In support of an industry-wide effort to reduce, improve, and remove coal ash ponds, a variety of technologies have been tested and employed. Read the full application note to learn more.
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ABB Ability: Our Offering For Power Plants
ABB provides an extensive selection of proven measurement and analytical products and solutions for power generation industry applications.
WATER AND WASTEWATER SOLUTIONS FOR INDUSTRY
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Produced Water Management: An Overlooked Subject In Academia
Water is one of the world's most critical natural resources, but too many people take it for granted, raising awareness of its importance — and complexities — is too often left out of public discourse. My recent visit to a few engineering colleges as a STEM ambassador made me realize that many engineering programs are offered today than when I went to school.
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RO Membranes' Protection At Pinghu Power Plant, China
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.
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Treatment Of Produced Water By Electrocoagulation
Produced water (PW) is salty water trapped in the reservoir rock and brought up along with oil or gas during production. It subsists under high pressures and temperatures, and usually contains hydrocarbons and metals. Therefore, it must be treated before being discharged to surface water. Different techniques are being used to treat PW through phase separations, system control and design, and chemical treatments. In this paper, we discuss our experimental results on treating PW through electrocoagulation (EC).
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Micro-Irrigation Maintenance: How To Lower The Cost of Water And Increase Your Yield
Do you have a micro-irrigation system that doesn’t seem to work just right?
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Innovative Technologies For Water Conservation And Management One of the globe's major problems is the lack of water, but due to the growing demand for water in the fields of agriculture and industry, as well as a population shift to cities, efficient water use is made more urgent. The good news is that there are newly implemented technologies that deal with the issue of water conservation and management.
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4 Lessons From A Dutch Utility Circular Collaboration
On the surface, beauty products and water treatment are worlds apart. After all, the glitz and glamour of cosmetics and utility-scale operations don't often mix.
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Precise Level And Interface Measurement In Wastewater Tanks
Guided wave radar technology provides accurate and reliable level and interface measurement in effluent treatment areas, ensuring regulatory compliance and reducing costs in wastewater applications.
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Here's How Wastewater Facilities Could Tackle Food Waste, Generate Energy, And Slash Emissions
Most Australian food waste ends up in landfill. Rotting in the absence of oxygen produces methane, a potent greenhouse gas. While some facilities capture this “landfill gas” to produce energy, or burn it off to release carbon dioxide instead, it’s a major contributor to climate change. Valuable resources such as water and nutrients are also wasted.
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Understanding The Ballast Water Fractions
With more than 4,000 different organisms found in a ship’s ballast water tank, it’s no surprise why ballast water monitoring is vital to preventing the spread of these invasive species, and why the International Maritime Organization (IMO) requires that all sizes of ballast organisms are monitored.
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Subcommittee Hearing: Cyanotoxins In Drinking Water
On Wednesday, November 19, 2014, at 10:15 a.m. in 2322 Rayburn House Office Building, the Subcommittee on Environment and the Economy will hold a hearing entitled “Cyanotoxins in Drinking Water."