INDUSTRIAL WATER AND WASTEWATER TREATMENT

Henan Beyond Clarification: Optimizing Polyacrylamide Selection For High-Complexity Industrial Wastewater Treatment
Polyacrylamide (PAM) selection in industrial wastewater treatment is frequently reduced to a trial-and-error exercise, resulting in reagent waste, inconsistent effluent quality, and inflated operating costs. This article presents a structured framework for PAM optimization across three critical variables — ionic charge density, molecular weight, and coagulant synergy.

WATER AND WASTEWATER SOLUTIONS FOR THE OIL AND GAS INDUSTRY

  • Silver Eagle Refinery Case Study North Salt Lake and West Bountiful are home to several large oil refineries. These large plants have several smoke stacks, open burning flares, and round storage tanks.
  • Flare Gas Flow Measurement And Control

    In oil/gas production, refining and storage operations around the globe, flare gas systems are used to burn-off and dispose of waste, excess or off-gases, and as a safety system. The accurate, responsive and reliable measurement of flare gas is essential in order to assure proper operation of the flare gas system, which protects people and equipment from potentially hazardous combustible gas to maintain a safe working environment and to avoid environmental contamination.

  • Optimizing RO-Membrane Performance In Produced-Water Applications

    Here are several important considerations for getting maximum value from produced-water RO treatments at minimal total lifecycle costs.

  • EPA-New Mexico Wastewater Report Is A Conversation Starter, Not The Final Word

    When it comes to answering questions about whether the oil and gas industry’s wastewater can be safely reused for other purposes, like food crops, livestock, or even drinking water, there are a number of other serious factors to be considered.

  • Has Fracking Gone 'Green'?

    There are few topics more controversial these days than hydraulic fracturing ("fracking"). While the debate rages on as to whether fracking poses a risk to water quality, a new desalination technique addresses two other environmental concerns: water scarcity and greenhouse gas (GHG) emissions. Developed by researchers at the University of British Columbia (UBC), the breakthrough technology uses excess carbon dioxide created in the fracking process to desalinate the process water, making it available for water reuse. It also generates chemicals — hydrochloric acid and carbonate salts — that are valuable for many industrial applications.

WATER AND WASTEWATER SOLUTIONS FOR THE FOOD AND BEVERAGE INDUSTRY

  • Sustainable Clarification In Food And Beverage Operations

    Companies within the food & beverage industry generate significant quantities of wastewater each day. For example, a 16 oz. can of beer is about 90-95% water; however, to make that can, beer producers utilize approximately 7 times this quantity. About 2/3 to 3/4 of the water is typically discharged as wastewater to a municipal sewer system.

  • Here's To Microbrews And POTWs

    As local breweries grow in popularity, their initial focus on hand-crafted recipes can quickly shift to business realities such as the costs and logistics of process wastewater treatment. Publicly owned treatment works (POTWs), brewery owners, and consulting engineers all have roles to play in making that trajectory smoother for up-and-coming craft and microbrewers.

  • How To Power Your Treatment Plant And Reduce Costs With Waste-To-Energy Technology

    Electricity is a major cost for industry operations, and the cost of meeting environmental regulations is right up there as well. At the same time, industries are compelled to improve sustainability and lower their carbon footprints.

  • 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.

  • Fresh Air, Fresh Fish

    Farming operations to plan and control fish reproduction have been around since the 15th century and are a sophisticated, mechanized arm in the food production industry today. In Poland, traditionally, trout farms are relatively small family businesses where product quality remains high during every stage of the process. Learn how Kaeser’s rotary blowers turned a rural fishpond into an automated aqua farm by delivering air to ensure the fish are raised in the best possible environment.

WATER AND WASTEWATER SOLUTIONS FOR THE POWER GENERATION INDUSTRY

WATER AND WASTEWATER SOLUTIONS FOR INDUSTRY

INDUSTRIAL WATER AND WASTEWATER PRODUCTS

Genclean Chemical feed dosing systems for hotel/resort pools, water features and aquatic parks are designed to offer cost-efficient, panel mounted systems that are fully assembled and ready to install.

Contain liquids and vapors in this double-wall chemical storage tank. All four walls and the V-bottom of this tank are double-skinned. The open area between the walls (interstitial area) will contain leakage from the primary (inner) wall should that occur, preventing liquid from leaking into the environment. There are interstitial drains to check for leaks.

DEFINER® KM Knife Mills are high performance processors that quickly and efficiently reduce cannabis and hemp to desired output size. They employ high shear knives that accurately cut solids to desired output size with a shear action without overgrind or excessive fines. DEFINER knife mills deliver more consistent output while maintaining the product integrity.

A patented polymicrobial blend of facultative bacteria specifically selected for their ability to degrade organic waste and eliminate noxious odor.

The Blackline Pro is based on Pulsafeeder’s proven mechanical diaphragm pump technology with the addition of a variable speed drive controller. The unit comes with ten different operating modes, fully configurable, allowing you to fit the pump in any advanced pumping process where the unit needs to be controlled remotely and automatically.

The device with genuine two-wire technology and for minimal flow rates.

OPUS technology combines a proprietary high rate chemical softening process, MULTIFLO, with filtration, ion exchange, and reverse osmosis operated at an elevated pH in single-pass or double-pass mode to generate high effluent water quality suitable for discharge, recycle or reuse.

Improved water reliability and lifecycle costs through total control of a one hundred mile transfer system.